From 6456d5ac0a7af55e53a6de3d3f59ffe8e03325d1 Mon Sep 17 00:00:00 2001
From: mishaschwartz <4380924+mishaschwartz@users.noreply.github.com>
Date: Wed, 14 May 2025 15:23:37 -0400
Subject: [PATCH 1/9] fix Client.get_items

---
 pystac_client/client.py                       |    23 +-
 .../test_get_items_non_recursion.yaml         |   232 +
 ...ion_collections_required_without_ids.yaml} | 16839 +++++++++++++++-
 ..._recursion_no_collections_without_ids.yaml |   516 +
 .../test_recursion_on_fallback.yaml           |   354 +
 tests/test_client.py                          |    43 +-
 6 files changed, 17981 insertions(+), 26 deletions(-)
 create mode 100644 tests/cassettes/test_client/test_get_items_non_recursion.yaml
 rename tests/cassettes/test_client/{test_get_items_without_ids.yaml => test_get_items_recursion_collections_required_without_ids.yaml} (57%)
 create mode 100644 tests/cassettes/test_client/test_get_items_recursion_no_collections_without_ids.yaml
 create mode 100644 tests/cassettes/test_client/test_recursion_on_fallback.yaml

diff --git a/pystac_client/client.py b/pystac_client/client.py
index f7eb7c6c..6d86de64 100644
--- a/pystac_client/client.py
+++ b/pystac_client/client.py
@@ -443,27 +443,34 @@ def get_collections(self) -> Iterator[Collection]:
                 call_modifier(self.modifier, collection)
                 yield collection
 
-    def get_items(
-        self, *ids: str, recursive: bool | None = None
-    ) -> Iterator["Item_Type"]:
+    def get_items(self, *ids: str, recursive: bool = True) -> Iterator["Item_Type"]:
         """Return all items of this catalog.
 
         Args:
             ids: Zero or more item ids to find.
-            recursive: unused in pystac-client, but needed for falling back to pystac
+            recursive : If True, search this catalog and all children for the
+                item; otherwise, only search the items of this catalog. Defaults
+                to True.
 
         Return:
             Iterator[Item]: Iterator of items whose parent is this
                 catalog.
         """
         if self.conforms_to(ConformanceClasses.ITEM_SEARCH):
-            search = self.search(ids=ids)
+            if recursive:
+                search = self.search(ids=ids)
+                try:
+                    yield from search.items()
+                    return
+                except APIError:
+                    child_catalogs = [catalog for catalog, _, _ in self.walk()]
+                    search = self.search(ids=ids, collections=[self, *child_catalogs])
+            else:
+                search = self.search(ids=ids, collections=[self.id])
             yield from search.items()
         else:
             self._warn_about_fallback("ITEM_SEARCH")
-            for item in super().get_items(
-                *ids, recursive=recursive is None or recursive
-            ):
+            for item in super().get_items(*ids, recursive=recursive):
                 call_modifier(self.modifier, item)
                 yield item
 
diff --git a/tests/cassettes/test_client/test_get_items_non_recursion.yaml b/tests/cassettes/test_client/test_get_items_non_recursion.yaml
new file mode 100644
index 00000000..f3f020e9
--- /dev/null
+++ b/tests/cassettes/test_client/test_get_items_non_recursion.yaml
@@ -0,0 +1,232 @@
+interactions:
+- request:
+    body: null
+    headers:
+      Accept:
+      - '*/*'
+      Accept-Encoding:
+      - gzip, deflate
+      Connection:
+      - keep-alive
+      User-Agent:
+      - python-requests/2.32.3
+    method: GET
+    uri: https://planetarycomputer.microsoft.com/api/stac/v1/
+  response:
+    body:
+      string: '{"type":"Catalog","id":"microsoft-pc","title":"Microsoft Planetary
+        Computer STAC API","description":"Searchable spatiotemporal metadata describing
+        Earth science datasets hosted by the Microsoft Planetary Computer","stac_version":"1.0.0","conformsTo":["https://api.stacspec.org/v1.0.0/collections","https://api.stacspec.org/v1.0.0/item-search#fields","https://api.stacspec.org/v1.0.0/core","https://api.stacspec.org/v1.0.0/item-search#sort","http://www.opengis.net/spec/ogcapi-features-3/1.0/conf/filter","https://api.stacspec.org/v1.0.0/item-search","http://www.opengis.net/spec/cql2/1.0/conf/basic-cql2","http://www.opengis.net/spec/ogcapi-features-1/1.0/conf/oas30","https://api.stacspec.org/v1.0.0/ogcapi-features","https://api.stacspec.org/v1.0.0-rc.2/item-search#filter","http://www.opengis.net/spec/ogcapi-features-1/1.0/conf/core","https://api.stacspec.org/v1.0.0/item-search#query","http://www.opengis.net/spec/cql2/1.0/conf/cql2-text","http://www.opengis.net/spec/ogcapi-features-1/1.0/conf/geojson","http://www.opengis.net/spec/cql2/1.0/conf/cql2-json"],"links":[{"rel":"self","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/"},{"rel":"root","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/"},{"rel":"data","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections"},{"rel":"conformance","type":"application/json","title":"STAC/OGC
+        conformance classes implemented by this server","href":"https://planetarycomputer.microsoft.com/api/stac/v1/conformance"},{"rel":"search","type":"application/geo+json","title":"STAC
+        search","href":"https://planetarycomputer.microsoft.com/api/stac/v1/search","method":"GET"},{"rel":"search","type":"application/geo+json","title":"STAC
+        search","href":"https://planetarycomputer.microsoft.com/api/stac/v1/search","method":"POST"},{"rel":"http://www.opengis.net/def/rel/ogc/1.0/queryables","type":"application/schema+json","title":"Queryables","href":"https://planetarycomputer.microsoft.com/api/stac/v1/queryables","method":"GET"},{"rel":"child","type":"application/json","title":"Daymet
+        Annual Puerto Rico","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/daymet-annual-pr"},{"rel":"child","type":"application/json","title":"Daymet
+        Daily Hawaii","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/daymet-daily-hi"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Seamless DEMs","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-seamless"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Lidar Digital Surface Model","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-lidar-dsm"},{"rel":"child","type":"application/json","title":"Forest
+        Inventory and Analysis","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/fia"},{"rel":"child","type":"application/json","title":"Sentinel
+        1 Radiometrically Terrain Corrected (RTC)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-1-rtc"},{"rel":"child","type":"application/json","title":"gridMET","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/gridmet"},{"rel":"child","type":"application/json","title":"Daymet
+        Annual North America","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/daymet-annual-na"},{"rel":"child","type":"application/json","title":"Daymet
+        Monthly North America","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/daymet-monthly-na"},{"rel":"child","type":"application/json","title":"Daymet
+        Annual Hawaii","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/daymet-annual-hi"},{"rel":"child","type":"application/json","title":"Daymet
+        Monthly Hawaii","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/daymet-monthly-hi"},{"rel":"child","type":"application/json","title":"Daymet
+        Monthly Puerto Rico","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/daymet-monthly-pr"},{"rel":"child","type":"application/json","title":"gNATSGO
+        Soil Database - Tables","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/gnatsgo-tables"},{"rel":"child","type":"application/json","title":"HGB:
+        Harmonized Global Biomass for 2010","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/hgb"},{"rel":"child","type":"application/json","title":"Copernicus
+        DEM GLO-30","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/cop-dem-glo-30"},{"rel":"child","type":"application/json","title":"Copernicus
+        DEM GLO-90","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/cop-dem-glo-90"},{"rel":"child","type":"application/json","title":"TerraClimate","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/terraclimate"},{"rel":"child","type":"application/json","title":"Earth
+        Exchange Global Daily Downscaled Projections (NEX-GDDP-CMIP6)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/nasa-nex-gddp-cmip6"},{"rel":"child","type":"application/json","title":"GPM
+        IMERG","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/gpm-imerg-hhr"},{"rel":"child","type":"application/json","title":"gNATSGO
+        Soil Database - Rasters","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/gnatsgo-rasters"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Lidar Height above Ground","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-lidar-hag"},{"rel":"child","type":"application/json","title":"10m
+        Annual Land Use Land Cover (9-class) V2","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/io-lulc-annual-v02"},{"rel":"child","type":"application/json","title":"GOES-R
+        Cloud & Moisture Imagery","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/goes-cmi"},{"rel":"child","type":"application/json","title":"CONUS404","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/conus404"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Lidar Intensity","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-lidar-intensity"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Lidar Point Source","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-lidar-pointsourceid"},{"rel":"child","type":"application/json","title":"MTBS:
+        Monitoring Trends in Burn Severity","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/mtbs"},{"rel":"child","type":"application/json","title":"C-CAP
+        Regional Land Cover and Change","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-c-cap"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Lidar Point Cloud","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-lidar-copc"},{"rel":"child","type":"application/json","title":"MODIS
+        Burned Area Monthly","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-64A1-061"},{"rel":"child","type":"application/json","title":"ALOS
+        Forest/Non-Forest Annual Mosaic","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/alos-fnf-mosaic"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Lidar Returns","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-lidar-returns"},{"rel":"child","type":"application/json","title":"MoBI:
+        Map of Biodiversity Importance","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/mobi"},{"rel":"child","type":"application/json","title":"Landsat
+        Collection 2 Level-2","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/landsat-c2-l2"},{"rel":"child","type":"application/json","title":"ERA5
+        - PDS","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/era5-pds"},{"rel":"child","type":"application/json","title":"Chloris
+        Biomass","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/chloris-biomass"},{"rel":"child","type":"application/json","title":"HydroForecast
+        - Kwando & Upper Zambezi Rivers","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/kaza-hydroforecast"},{"rel":"child","type":"application/json","title":"Planet-NICFI
+        Basemaps (Analytic)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/planet-nicfi-analytic"},{"rel":"child","type":"application/json","title":"MODIS
+        Gross Primary Productivity 8-Day","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-17A2H-061"},{"rel":"child","type":"application/json","title":"MODIS
+        Land Surface Temperature/Emissivity 8-Day","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-11A2-061"},{"rel":"child","type":"application/json","title":"Daymet
+        Daily Puerto Rico","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/daymet-daily-pr"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Lidar Digital Terrain Model (Native)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-lidar-dtm-native"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Lidar Classification","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-lidar-classification"},{"rel":"child","type":"application/json","title":"USGS
+        3DEP Lidar Digital Terrain Model","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/3dep-lidar-dtm"},{"rel":"child","type":"application/json","title":"USGS
+        Gap Land Cover","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/gap"},{"rel":"child","type":"application/json","title":"MODIS
+        Gross Primary Productivity 8-Day Gap-Filled","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-17A2HGF-061"},{"rel":"child","type":"application/json","title":"Planet-NICFI
+        Basemaps (Visual)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/planet-nicfi-visual"},{"rel":"child","type":"application/json","title":"Global
+        Biodiversity Information Facility (GBIF)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/gbif"},{"rel":"child","type":"application/json","title":"MODIS
+        Net Primary Production Yearly Gap-Filled","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-17A3HGF-061"},{"rel":"child","type":"application/json","title":"MODIS
+        Surface Reflectance 8-Day (500m)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-09A1-061"},{"rel":"child","type":"application/json","title":"ALOS
+        World 3D-30m","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/alos-dem"},{"rel":"child","type":"application/json","title":"ALOS
+        PALSAR Annual Mosaic","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/alos-palsar-mosaic"},{"rel":"child","type":"application/json","title":"Deltares
+        Global Water Availability","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/deltares-water-availability"},{"rel":"child","type":"application/json","title":"MODIS
+        Net Evapotranspiration Yearly Gap-Filled","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-16A3GF-061"},{"rel":"child","type":"application/json","title":"MODIS
+        Land Surface Temperature/3-Band Emissivity 8-Day","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-21A2-061"},{"rel":"child","type":"application/json","title":"US
+        Census","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/us-census"},{"rel":"child","type":"application/json","title":"JRC
+        Global Surface Water","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/jrc-gsw"},{"rel":"child","type":"application/json","title":"Deltares
+        Global Flood Maps","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/deltares-floods"},{"rel":"child","type":"application/json","title":"MODIS
+        Nadir BRDF-Adjusted Reflectance (NBAR) Daily","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-43A4-061"},{"rel":"child","type":"application/json","title":"MODIS
+        Surface Reflectance 8-Day (250m)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-09Q1-061"},{"rel":"child","type":"application/json","title":"MODIS
+        Thermal Anomalies/Fire Daily","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-14A1-061"},{"rel":"child","type":"application/json","title":"HREA:
+        High Resolution Electricity Access","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/hrea"},{"rel":"child","type":"application/json","title":"MODIS
+        Vegetation Indices 16-Day (250m)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-13Q1-061"},{"rel":"child","type":"application/json","title":"MODIS
+        Thermal Anomalies/Fire 8-Day","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-14A2-061"},{"rel":"child","type":"application/json","title":"Sentinel-2
+        Level-2A","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-2-l2a"},{"rel":"child","type":"application/json","title":"MODIS
+        Leaf Area Index/FPAR 8-Day","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-15A2H-061"},{"rel":"child","type":"application/json","title":"MODIS
+        Land Surface Temperature/Emissivity Daily","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-11A1-061"},{"rel":"child","type":"application/json","title":"MODIS
+        Leaf Area Index/FPAR 4-Day","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-15A3H-061"},{"rel":"child","type":"application/json","title":"MODIS
+        Vegetation Indices 16-Day (500m)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-13A1-061"},{"rel":"child","type":"application/json","title":"Daymet
+        Daily North America","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/daymet-daily-na"},{"rel":"child","type":"application/json","title":"Land
+        Cover of Canada","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/nrcan-landcover"},{"rel":"child","type":"application/json","title":"MODIS
+        Snow Cover 8-day","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-10A2-061"},{"rel":"child","type":"application/json","title":"ECMWF
+        Open Data (real-time)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/ecmwf-forecast"},{"rel":"child","type":"application/json","title":"NOAA
+        MRMS QPE 24-Hour Pass 2","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-mrms-qpe-24h-pass2"},{"rel":"child","type":"application/json","title":"Sentinel
+        1 Level-1 Ground Range Detected (GRD)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-1-grd"},{"rel":"child","type":"application/json","title":"NASADEM
+        HGT v001","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/nasadem"},{"rel":"child","type":"application/json","title":"Esri
+        10-Meter Land Cover (10-class)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/io-lulc"},{"rel":"child","type":"application/json","title":"Landsat
+        Collection 2 Level-1","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/landsat-c2-l1"},{"rel":"child","type":"application/json","title":"Denver
+        Regional Council of Governments Land Use Land Cover","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/drcog-lulc"},{"rel":"child","type":"application/json","title":"Chesapeake
+        Land Cover (7-class)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/chesapeake-lc-7"},{"rel":"child","type":"application/json","title":"Chesapeake
+        Land Cover (13-class)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/chesapeake-lc-13"},{"rel":"child","type":"application/json","title":"Chesapeake
+        Land Use","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/chesapeake-lu"},{"rel":"child","type":"application/json","title":"NOAA
+        MRMS QPE 1-Hour Pass 1","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-mrms-qpe-1h-pass1"},{"rel":"child","type":"application/json","title":"NOAA
+        MRMS QPE 1-Hour Pass 2","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-mrms-qpe-1h-pass2"},{"rel":"child","type":"application/json","title":"Monthly
+        NOAA U.S. Climate Gridded Dataset (NClimGrid)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-nclimgrid-monthly"},{"rel":"child","type":"application/json","title":"USDA
+        Cropland Data Layers (CDLs)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/usda-cdl"},{"rel":"child","type":"application/json","title":"Urban
+        Innovation Eclipse Sensor Data","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/eclipse"},{"rel":"child","type":"application/json","title":"ESA
+        Climate Change Initiative Land Cover Maps (Cloud Optimized GeoTIFF)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/esa-cci-lc"},{"rel":"child","type":"application/json","title":"ESA
+        Climate Change Initiative Land Cover Maps (NetCDF)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/esa-cci-lc-netcdf"},{"rel":"child","type":"application/json","title":"FWS
+        National Wetlands Inventory","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/fws-nwi"},{"rel":"child","type":"application/json","title":"USGS
+        LCMAP CONUS Collection 1.3","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/usgs-lcmap-conus-v13"},{"rel":"child","type":"application/json","title":"USGS
+        LCMAP Hawaii Collection 1.0","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/usgs-lcmap-hawaii-v10"},{"rel":"child","type":"application/json","title":"NOAA
+        US Tabular Climate Normals","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-climate-normals-tabular"},{"rel":"child","type":"application/json","title":"NOAA
+        US Gridded Climate Normals (NetCDF)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-climate-normals-netcdf"},{"rel":"child","type":"application/json","title":"GOES-R
+        Lightning Detection","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/goes-glm"},{"rel":"child","type":"application/json","title":"NOAA
+        US Gridded Climate Normals (Cloud-Optimized GeoTIFF)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-climate-normals-gridded"},{"rel":"child","type":"application/json","title":"ASTER
+        L1T","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/aster-l1t"},{"rel":"child","type":"application/json","title":"CIL
+        Global Downscaled Projections for Climate Impacts Research (CC-BY-SA-4.0)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/cil-gdpcir-cc-by-sa"},{"rel":"child","type":"application/json","title":"NAIP:
+        National Agriculture Imagery Program","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/naip"},{"rel":"child","type":"application/json","title":"10m
+        Annual Land Use Land Cover (9-class) V1","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/io-lulc-9-class"},{"rel":"child","type":"application/json","title":"Biodiversity
+        Intactness","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/io-biodiversity"},{"rel":"child","type":"application/json","title":"Sea
+        Surface Temperature - WHOI CDR","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-cdr-sea-surface-temperature-whoi"},{"rel":"child","type":"application/json","title":"Global
+        Ocean Heat Content CDR","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-cdr-ocean-heat-content"},{"rel":"child","type":"application/json","title":"CIL
+        Global Downscaled Projections for Climate Impacts Research (CC0-1.0)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/cil-gdpcir-cc0"},{"rel":"child","type":"application/json","title":"CIL
+        Global Downscaled Projections for Climate Impacts Research (CC-BY-4.0)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/cil-gdpcir-cc-by"},{"rel":"child","type":"application/json","title":"Sea
+        Surface Temperature - WHOI CDR NetCDFs","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-cdr-sea-surface-temperature-whoi-netcdf"},{"rel":"child","type":"application/json","title":"Sea
+        Surface Temperature - Optimum Interpolation CDR","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-cdr-sea-surface-temperature-optimum-interpolation"},{"rel":"child","type":"application/json","title":"MODIS
+        Snow Cover Daily","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/modis-10A1-061"},{"rel":"child","type":"application/json","title":"Sentinel-5P
+        Level-2","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-5p-l2-netcdf"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        Water (Full Resolution)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-olci-wfr-l2-netcdf"},{"rel":"child","type":"application/json","title":"Global
+        Ocean Heat Content CDR NetCDFs","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-cdr-ocean-heat-content-netcdf"},{"rel":"child","type":"application/json","title":"Harmonized
+        Landsat Sentinel-2 (HLS) Version 2.0, Landsat Data","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/hls2-l30"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        Global Aerosol","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-synergy-aod-l2-netcdf"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        10-Day Surface Reflectance and NDVI (SPOT VEGETATION)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-synergy-v10-l2-netcdf"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        Land (Full Resolution)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-olci-lfr-l2-netcdf"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        Land Radar Altimetry","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-sral-lan-l2-netcdf"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        Land Surface Temperature","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-slstr-lst-l2-netcdf"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        Sea Surface Temperature","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-slstr-wst-l2-netcdf"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        Ocean Radar Altimetry","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-sral-wat-l2-netcdf"},{"rel":"child","type":"application/json","title":"Harmonized
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+        Building Footprints","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/ms-buildings"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        Fire Radiative Power","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-slstr-frp-l2-netcdf"},{"rel":"child","type":"application/json","title":"Sentinel-3
+        Land Surface Reflectance and Aerosol","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-synergy-syn-l2-netcdf"},{"rel":"child","type":"application/json","title":"Sentinel-3
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+        service description","href":"https://planetarycomputer.microsoft.com/api/stac/v1/openapi.json"},{"rel":"service-doc","type":"text/html","title":"OpenAPI
+        service documentation","href":"https://planetarycomputer.microsoft.com/api/stac/v1/docs"}],"stac_extensions":[]}'
+    headers:
+      Accept-Ranges:
+      - bytes
+      Access-Control-Allow-Credentials:
+      - 'true'
+      Access-Control-Allow-Headers:
+      - X-PC-Request-Entity,DNT,Keep-Alive,User-Agent,X-Requested-With,If-Modified-Since,Cache-Control,Content-Type,Authorization
+      Access-Control-Allow-Methods:
+      - PUT, GET, POST, OPTIONS
+      Access-Control-Allow-Origin:
+      - '*'
+      Access-Control-Max-Age:
+      - '1728000'
+      Connection:
+      - keep-alive
+      Content-Length:
+      - '3361'
+      Content-Type:
+      - application/json
+      Date:
+      - Wed, 14 May 2025 18:18:56 GMT
+      Strict-Transport-Security:
+      - max-age=31536000; includeSubDomains
+      X-Cache:
+      - CONFIG_NOCACHE
+      content-encoding:
+      - gzip
+      vary:
+      - Accept-Encoding
+      x-azure-ref:
+      - 20250514T181856Z-r159ff9f48bhfp8mhC1YTO8gk00000000da0000000009414
+    status:
+      code: 200
+      message: OK
+- request:
+    body: '{"collections": ["microsoft-pc"]}'
+    headers:
+      Accept:
+      - '*/*'
+      Accept-Encoding:
+      - gzip, deflate
+      Connection:
+      - keep-alive
+      Content-Length:
+      - '33'
+      Content-Type:
+      - application/json
+      User-Agent:
+      - python-requests/2.32.3
+    method: POST
+    uri: https://planetarycomputer.microsoft.com/api/stac/v1/search
+  response:
+    body:
+      string: '{"type":"FeatureCollection","features":[],"links":[{"rel":"root","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/"},{"rel":"self","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/search"}]}'
+    headers:
+      Accept-Ranges:
+      - bytes
+      Access-Control-Allow-Credentials:
+      - 'true'
+      Access-Control-Allow-Headers:
+      - X-PC-Request-Entity,DNT,Keep-Alive,User-Agent,X-Requested-With,If-Modified-Since,Cache-Control,Content-Type,Authorization
+      Access-Control-Allow-Methods:
+      - PUT, GET, POST, OPTIONS
+      Access-Control-Allow-Origin:
+      - '*'
+      Access-Control-Max-Age:
+      - '1728000'
+      Connection:
+      - keep-alive
+      Content-Length:
+      - '264'
+      Content-Type:
+      - application/geo+json
+      Date:
+      - Wed, 14 May 2025 18:18:57 GMT
+      Strict-Transport-Security:
+      - max-age=31536000; includeSubDomains
+      X-Cache:
+      - CONFIG_NOCACHE
+      x-azure-ref:
+      - 20250514T181856Z-r159ff9f48b424hkhC1YTOqggg000000033000000000gr5w
+    status:
+      code: 200
+      message: OK
+version: 1
diff --git a/tests/cassettes/test_client/test_get_items_without_ids.yaml b/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml
similarity index 57%
rename from tests/cassettes/test_client/test_get_items_without_ids.yaml
rename to tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml
index 13ba8499..c38cbb14 100644
--- a/tests/cassettes/test_client/test_get_items_without_ids.yaml
+++ b/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml
@@ -16,7 +16,7 @@ interactions:
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@@ -34,13 +34,13 @@ interactions:
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+        DEM GLO-90","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/cop-dem-glo-90"},{"rel":"child","type":"application/json","title":"TerraClimate","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/terraclimate"},{"rel":"child","type":"application/json","title":"Earth
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+        Annual Land Use Land Cover (9-class) V2","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/io-lulc-annual-v02"},{"rel":"child","type":"application/json","title":"GOES-R
+        Cloud & Moisture Imagery","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/goes-cmi"},{"rel":"child","type":"application/json","title":"CONUS404","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/conus404"},{"rel":"child","type":"application/json","title":"USGS
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@@ -101,8 +101,7 @@ interactions:
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-        Lightning Detection","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/goes-glm"},{"rel":"child","type":"application/json","title":"USDA
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@@ -111,7 +110,8 @@ interactions:
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+        US Gridded Climate Normals (NetCDF)","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-climate-normals-netcdf"},{"rel":"child","type":"application/json","title":"GOES-R
+        Lightning Detection","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/goes-glm"},{"rel":"child","type":"application/json","title":"NOAA
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+        Ocean Heat Content CDR NetCDFs","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/noaa-cdr-ocean-heat-content-netcdf"},{"rel":"child","type":"application/json","title":"Harmonized
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+        Ocean Radar Altimetry","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/sentinel-3-sral-wat-l2-netcdf"},{"rel":"child","type":"application/json","title":"Harmonized
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@@ -159,11 +161,11 @@ interactions:
       Connection:
       - keep-alive
       Content-Length:
-      - '3297'
+      - '3360'
       Content-Type:
       - application/json
       Date:
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+      - Wed, 14 May 2025 18:17:40 GMT
       Strict-Transport-Security:
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       X-Cache:
@@ -173,7 +175,7 @@ interactions:
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       x-azure-ref:
-      - 20240809T151340Z-1674bbd94ccr56pfqknwrbqmxg0000000ry0000000002ycs
+      - 20250514T181739Z-r15d8f49c9b8x526hC1YTOx9c00000000aug000000003cd6
     status:
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       message: OK
@@ -194,6 +196,16811 @@ interactions:
       - python-requests/2.32.3
     method: POST
     uri: https://planetarycomputer.microsoft.com/api/stac/v1/search
+  response:
+    body:
+      string: collection is required
+    headers:
+      Access-Control-Allow-Credentials:
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+      Access-Control-Allow-Headers:
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+        to the entire 1-acre field plot. This table links to most other tables, and
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+        linking PLOT to other tables. <br><br>* PLOT.CN = COND.PLT_CN links the unique
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+        forest type, stand-size class, regeneration status, and stand density). <br><br>*
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+        by FIA work unit. This table retains valuable information for generating biomass
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+        not contain a record for every tree. Midpoint estimates are computed for trees
+        that experience mortality, removal, or land use diversion or reversion. The
+        information in this table is used to compute net growth, removal, and mortality
+        estimates on remeasurement trees. <br><br>* TREE_GRM_MIDPT.TRE_CN = TREE.TRE_CN
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+        trees where information was recalculated for time 1 (T1) are included. The
+        information in this table is used to produce net growth, removal and mortality
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+        estimates of growth, removals and mortality. <br><br>* PLOT.CN = TREE_GRM_ESTN.PLT_CN
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+        TREE.CN = TREE_GRM_ESTN.TRE_CN links the tree GRM estimation records to the
+        unique tree record.","msft:item_name":"tree_grm_estn"},{"name":"Seedling Table","description":"Seedling
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+        inches in length for conifer species or at least 12 inches in length for hardwood
+        species. <br><br>* PLOT.CN = SEEDLING.PLT_CN links the seedling records to
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+        on the site tree(s) collected in order to calculate site index and/or site
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+        links the site tree records to the unique plot record. <br><br>* SITETREE.PLT_CN
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+        species table. This table provides percent cover data of vegetation species
+        identified on the subplot. <br><br>* PLOT.CN = P2VEG_SUBPLOT_SPP.PLT_CN links
+        the vegetation subplot species record(s) to the unique plot record. <br><br>*
+        SUBP_COND.PLT_CN = P2VEG_SUBPLOT_SPP.PLT_CN and SUBP_COND.CONDID = P2VEG_SUBPLOT_SPP.CONDID
+        and SUBP_COND.SUBP = P2VEG_SUBPLOT_SPP.SUBP links the vegetation subplot species
+        record(s) to the unique subplot condition record. <br><br>* P2VEG_SUBPLOT_SPP.VEG_SPCD
+        = REF_PLANT_DICTIONARY.SYMBOL links the P2 vegetation subplot NRCS species
+        code to the plant dictionary reference species code.","msft:item_name":"p2veg_subplot_spp"},{"name":"Phase
+        2 Vegetation Subplot Structure Table","description":"Phase 2 Vegetation subplot
+        structure table. This table provides percent cover by layer by growth habit.
+        <br><br>* PLOT.CN = P2VEG_SUBP_STRUCTURE. PLT_CN links the subplot structure
+        record(s) to the unique plot record. <br><br>* SUBP_COND.PLT_CN = P2VEG_SUBP_STRUCTURE.PLT_CN
+        and SUBP_COND.CONDID = P2VEG_SUBP_STRUCTURE.CONDID and SUBP_COND.SUBP = P2VEG_SUBP_STRUCTURE.SUBP
+        links the vegetation subplot structure record(s) to the unique subplot condition
+        record.","msft:item_name":"p2veg_subp_structure"},{"name":"Down Woody Material
+        Visit Table","description":"Down woody material visit table. This table provides
+        general information on down woody material indicator visit, such as the date
+        of the DWM survey. <br><br>* PLOT.CN = DWM_VISIT.PLT_CN links the down woody
+        material indicator visit record to the unique plot record.","msft:item_name":"dwm_visit"},{"name":"Down
+        Woody Material Coarse Woody Debris Table","description":"Down woody material
+        coarse woody debris table. This table provides information for each piece
+        of coarse woody debris measured along the transects. <br><br>* PLOT.CN = DWM_COARSE_WOODY_DEBRIS.PLT_CN
+        links the down woody material coarse woody debris records to the unique plot
+        record. <br><br>* COND.PLT_CN = DWM_COARSE_WOODY_DEBRIS.PLT_CN and COND.CONDID=
+        DWM_COARSE_WOODY_DEBRIS.CONDID links the coarse woody debris records to the
+        unique condition record.","msft:item_name":"dwm_coarse_woody_debris"},{"name":"Down
+        Woody Material Duff, Litter, Fuel Table","description":"Down woody material
+        duff, litter, fuel table. This table provides information on the duff, litter,
+        fuelbed depths measured at a point on the transects. <br><br>* PLOT.CN = DWM_DUFF_LITTER_FUEL.PLT_CN
+        links the duff, litter, fuelbed records to the unique plot record. <br><br>*
+        COND.PLT_CN = DWM_DUFF_LITTER_FUEL.PLT_CN and COND.CONDID= DWM_DUFF_LITTER_FUEL.CONDID
+        links the duff, litter, fuel records to the unique condition record.","msft:item_name":"dwm_duff_litter_fuel"},{"name":"Down
+        Woody Material Fine Woody Debris Table","description":"Down woody material
+        fine woody debris table. This table provides information on the fine woody
+        debris measured along a segment of the transects. <br><br>* PLOT.CN = DWM_FINE_WOODY_DEBRIS.PLT_CN
+        links the fine woody debris records to the unique plot record. <br><br>* COND.PLT_CN
+        = DWM_FINE_WOODY_DEBRIS.PLT_CN and COND.CONDID= DWM_FINE_WOODY_DEBRIS.CONDID
+        links the fine woody debris records to the unique condition record.","msft:item_name":"dwm_fine_woody_debris"},{"name":"Down
+        Woody Material Microplot Fuel Table","description":"Down woody material microplot
+        fuel table. This table provides information on the fuel loads (shrubs and
+        herbs) measured on the microplot. <br><br>* PLOT.CN = DWM_MICROPLOT_FUEL.PLT_CN
+        links the microplot fuel records to the unique plot record.","msft:item_name":"dwm_microplot_fuel"},{"name":"Down
+        Woody Material Residual Pile Table","description":"Down woody material residual
+        pile table. This table provides information on the wood piles measured on
+        the subplot. <br><br>* PLOT.CN = DWM_RESIDUAL_PILE.PLT_CN links the wood piles
+        records to the unique plot record. <br><br>* COND.PLT_CN = DWM_RESIDUAL_PILE.PLT_CN
+        and COND.CONDID= DWM_RESIDUAL_PILE.CONDID links the wood piles records to
+        the unique condition record.","msft:item_name":"dwm_residual_pile"},{"name":"Down
+        Woody Material Transect Segment Table","description":"Down woody material
+        transect segment table. This table describes the down woody material transect
+        segment lengths by condition class. <br><br>* PLOT.CN = DWM_TRANSECT_SEGMENT.PLT_CN
+        links the down woody material transect length records to the unique plot record.
+        <br><br>* COND.PLT_CN = DWM_TRANSECT_SEGMENT.PLT_CN and COND.CONDID= DWM_TRANSECT_SEGMENT.CONDID
+        links the down woody material transect segment records to the unique condition
+        record.","msft:item_name":"dwm_transect_segment"},{"name":"Condition Down
+        Woody Material Calculation Table","description":"Condition down woody material
+        calculation table. This table contains calculated values and condition-level
+        estimates for down woody attributes by plot number (PLOT), condition class
+        number (CONDID), and evaluation identifier (EVALID). <br><br>* PLOT.CN = COND_DWM_CALC.PLT_CN
+        links the down woody material calculation records to the unique plot record.
+        <br><br>* COND.CN = COND_DWM_CALC.CND_CN links the down woody material calculation
+        records to the unique condition record. <br><br>* POP_STRATUM. CN = COND_DWM_CALC.STRATUM_CN
+        links the down woody material calculation records to the unique population
+        stratum record.","msft:item_name":"cond_dwm_calc"},{"name":"Plot Regeneration
+        Table","description":"Plot regeneration table. This table contains the information
+        for the four subplots describing the amount of animal browse pressure exerted
+        on the regeneration of trees. <br><br>* PLOT.CN = PLOT_REGEN.PLT_CN links
+        the unique plot record to the unique plot regeneration record.","msft:item_name":"plot_regen"},{"name":"Subplot
+        Regeneration Table","description":"Subplot regeneration table. This table
+        provides information on the subplot survey status and the site survey limitations,
+        if any, for the tree regeneration study. <br><br>* PLOT.CN = SUBPLOT_REGEN.PLT_CN
+        links the unique plot record to the subplot regeneration records. <br><br>*
+        SUBPLOT.PLT_CN = SUBPLOT_REGEN.PLT_CN and SUBPLOT.SUBP = SUBPLOT_REGEN.SUBP
+        links the subplot record to the subplot regeneration record.","msft:item_name":"subplot_regen"},{"name":"Seedling
+        Regeneration Table","description":"Seedling regeneration. This table contains
+        provides information on the seedling count by condition, species, source,
+        and length class for the tree regeneration study. <br><br>* PLOT.CN = SEEDLING_REGEN.PLT_CN
+        links the unique plot record to the seedling regeneration records. <br><br>*
+        COND.PLT_CN = SEEDLING_REGEN.PLT_CN and COND.CONDID = SEEDLING_REGEN.CONDID
+        links the regeneration seedling records to the unique condition record.","msft:item_name":"seedling_regen"},{"name":"Population
+        Estimation Unit Table","description":"Population estimation unit table. This
+        table contains information about estimation units. An estimation unit is a
+        geographic area that can be drawn on a map. It has a known area, and the sampling
+        intensity must be the same within a stratum within an estimation unit. Generally,
+        estimation units are contiguous areas, but exceptions are made when certain
+        ownerships, usually National Forests, are sampled at different intensities.
+        One record in the POP_ESTN_UNIT table corresponds to a single estimation unit.
+        POP_ESTN_UNIT.CN = POP_STRATUM.ESTN_UNIT_CN links the unique stratified geographical
+        area (ESTN_UNIT) to the strata (STRATUMCD) that are assigned to each ESTN_UNIT.","msft:item_name":"pop_estn_unit"},{"name":"Population
+        Evaluation Table","description":"Population evaluation table. This table provides
+        information about evaluations. An evaluation is the combination of a set of
+        plots (the sample) and a set of Phase 1 data (obtained through remote sensing,
+        called a stratification) that can be used to produce population estimates
+        for a State (an evaluation may be created to produce population estimates
+        for a region other than a State, such as the Black Hills National Forest).
+        A record in the POP_EVAL table identifies one evaluation and provides some
+        descriptive information about how the evaluation may be used. <br><br>* POP_ESTN_UNIT.EVAL_CN
+        = POP_EVAL.CN links the unique evaluation identifier (EVALID) in the POP_EVAL
+        table to the unique geographical areas (ESTN_UNIT) that are stratified. Within
+        a population evaluation (EVALID) there can be multiple population estimation
+        units, or geographic areas across which there are a number of values being
+        estimated (e.g., estimation of volume across counties for a given State).","msft:item_name":"pop_eval"},{"name":"Population
+        Evaluation Attribute Table","description":"Population evaluation attribute
+        table. This table provides information as to which population estimates can
+        be provided by an evaluation. If an evaluation can produce only 22 of all
+        the population estimates in the REF_POP_ATTRIBUTE table, there will be 22
+        records in the POP_EVAL_ATTRIBUTE table (one per population estimate) for
+        that evaluation. <br><br>* POP_EVAL.CN = POP_EVAL_ATTRIBUTE.EVAL_CN links
+        the unique evaluation identifier to the list of population estimates that
+        can be derived for that evaluation.","msft:item_name":"pop_eval_attribute"},{"name":"Population
+        Evaluation Group Table","description":"Population evaluation group table.
+        This table lists and describes the evaluation groups. One record in the POP_EVAL_GRP
+        table can be linked to all the evaluations that were used in generating estimates
+        for a State inventory report. <br><br>* POP_EVAL_GRP.CN = POP_EVAL_TYP.EVAL_GRP_CN
+        links the evaluation group record to the evaluation type record.","msft:item_name":"pop_eval_grp"},{"name":"Population
+        Evaluation Type Table","description":"Population evaluation type table. This
+        table provides information on the type of evaluations that were used to generate
+        a set of tables for an inventory report. In a typical State inventory report,
+        one evaluation is used to generate an estimate of the total land area; a second
+        evaluation is used to generate current estimates of volume, numbers of trees
+        and biomass; and a third evaluation is used for estimating growth, removals
+        and mortality. <br><br>* POP_EVAL_TYP.EVAL_CN = POP_EVAL.CN links the evaluation
+        type record to the evaluation record. <br><br>* POP_EVAL_TYP.EVAL_GRP_CN =
+        POP_EVAL_GRP.CN links the evaluation type record to the evaluation group record.
+        <br><br>* POP_EVAL_TYP.EVAL_TYP = REF_POP_EVAL_TYP_DESCR.EVAL_TYP links an
+        evaluation type record to an evaluation type description reference record.","msft:item_name":"pop_eval_typ"},{"name":"Population
+        Plot Stratum Assignment Table","description":"Population plot stratum assignment
+        table. This table provides a way to assign stratum information to a plot.
+        Stratum information is assigned to a plot by overlaying the plot''s location
+        on the Phase 1 imagery. Plots are linked to their appropriate stratum for
+        an evaluation via the POP_PLOT_STRATUM_ASSGN table. <br><br>* POP_PLOT_STRATUM_ASSGN.PLT_CN
+        = PLOT.CN links the stratum assigned to the plot record.","msft:item_name":"pop_plot_stratum_assgn"},{"name":"Population
+        Stratum Table","description":"Population stratum table. This table provides
+        information about individual strata. The area within an estimation unit is
+        divided into strata. The area for each stratum can be calculated by determining
+        the proportion of Phase 1 pixels/plots in each stratum and multiplying that
+        proportion by the total area in the estimation unit. Information for a single
+        stratum is stored in a single record of the POP_STRATUM table. <br><br>* POP_STRATUM.CN
+        = POP_PLOT_STRATUM_ASSGN.STRATUM_CN links the defined stratum to each plot.","msft:item_name":"pop_stratum"},{"name":"Plot
+        Geometry Table","description":"Plot geometry table. This table contains geometric
+        attributes associated with the plot location, such as the hydrological unit
+        and roadless codes. <br><br>* PLOTGEOM.CN = PLOT.CN links the unique plot
+        record between the two tables.","msft:item_name":"plotgeom"},{"name":"Plot
+        Snapshot Table","description":"Plot snapshot table. This table combines the
+        information in the PLOT table with information in the PLOT_EVAL_GRP and POP_STRATUM
+        tables to provide a snapshot of the plot records with their associated expansion
+        and adjustment factors. <br><br>* PLOTSNAP.CN = PLOT.CN links the unique plot
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+        [Sentinel-1](https://sentinel.esa.int/web/sentinel/missions/sentinel-1) mission
+        is a constellation of two polar-orbiting satellites, operating day and night
+        performing C-band synthetic aperture radar imaging. The Sentinel-1 Radiometrically
+        Terrain Corrected (RTC) data in this collection is a radiometrically terrain
+        corrected product derived from the [Ground Range Detected (GRD) Level-1](https://planetarycomputer.microsoft.com/dataset/sentinel-1-grd)
+        products produced by the European Space Agency. The RTC processing is performed
+        by [Catalyst](https://catalyst.earth/).\\n\\nRadiometric Terrain Correction
+        accounts for terrain variations that affect both the position of a given point
+        on the Earth's surface and the brightness of the radar return, as expressed
+        in radar geometry. Without treatment, the hill-slope modulations of the radiometry
+        threaten to overwhelm weaker thematic land cover-induced backscatter differences.
+        Additionally, comparison of backscatter from multiple satellites, modes, or
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+        SAS tokens to read the RTC data. See the [documentation](http://planetarycomputer.microsoft.com/docs/concepts/sas/#when-an-account-is-needed)
+        for more information.\\n\\n### Methodology\\n\\nThe Sentinel-1 GRD product
+        is converted to calibrated intensity using the conversion algorithm described
+        in the ESA technical note ESA-EOPG-CSCOP-TN-0002, [Radiometric Calibration
+        of S-1 Level-1 Products Generated by the S-1 IPF](https://ai4edatasetspublicassets.blob.core.windows.net/assets/pdfs/sentinel-1/S1-Radiometric-Calibration-V1.0.pdf).
+        The flat earth calibration values for gamma correction (i.e. perpendicular
+        to the radar line of sight) are extracted from the GRD metadata. The calibration
+        coefficients are applied as a two-dimensional correction in range (by sample
+        number) and azimuth (by time). All available polarizations are calibrated
+        and written as separate layers of a single file. The calibrated SAR output
+        is reprojected to nominal map orientation with north at the top and west to
+        the left.\\n\\nThe data is then radiometrically terrain corrected using PlanetDEM
+        as the elevation source. The correction algorithm is nominally based upon
+        D. Small, [\u201CFlattening Gamma: Radiometric Terrain Correction for SAR
+        Imagery\u201D](https://ai4edatasetspublicassets.blob.core.windows.net/assets/pdfs/sentinel-1/2011_Flattening_Gamma.pdf),
+        IEEE Transactions on Geoscience and Remote Sensing, Vol 49, No 8., August
+        2011, pp 3081-3093. For each image scan line, the digital elevation model
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+        sample sizes (in range and azimuth) and was not shifted to any specific grid.\\n\\nRTC
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+        Database (STATSGO2), and Raster Soil Survey Databases (RSS) into a single
+        seamless ESRI file geodatabase.\n\nSSURGO is the SPSD flagship soils database
+        that has over 100 years of field-validated detailed soil mapping data. SSURGO
+        contains soils information for more than 90 percent of the United States and
+        island territories, but unmapped land remains. STATSGO2 is a general soil
+        map that has soils data for all of the United States and island territories,
+        but the data is not as detailed as the SSURGO data. The Raster Soil Surveys
+        (RSSs) are the next generation soil survey databases developed using advanced
+        digital soil mapping methods.\n\nThe gNATSGO database is composed primarily
+        of SSURGO data, but STATSGO2 data was used to fill in the gaps. The RSSs are
+        newer product with relatively limited spatial extent.  These RSSs were merged
+        into the gNATSGO after combining the SSURGO and STATSGO2 data. The extent
+        of RSS is expected to increase in the coming years.\n\nSee the [official documentation](https://www.nrcs.usda.gov/wps/portal/nrcs/detail/soils/survey/geo/?cid=nrcseprd1464625)","item_assets":{"data":{"type":"application/x-parquet","roles":["data"],"table:storage_options":{"account_name":"soils"}}},"stac_version":"1.0.0","table:tables":[{"name":"chaashto","description":"The
+        Horizon AASHTO table contains the American Association of State Highway Transportation
+        Officials classification(s) for the referenced horizon.  One row in this table
+        is marked as the representative AASHTO classification for the horizon."},{"name":"chconsistence","description":"The
+        Horizon Consistence table contains descriptive terms of soil consistence --
+        rupture resistance, plasticity, and stickiness -- for the referenced horizon.  One
+        row in this table is marked as having the representative characteristics for
+        the horizon."},{"name":"chdesgnsuffix","description":"The Horizon Designation
+        Suffix table contains the designation suffix(es), one per row,  for the referenced
+        horizon.  For example, the \"h\" and \"s\" of a Bhs horizon appear as two
+        rows in this table."},{"name":"chfrags","description":"The Horizon Fragments
+        table lists the mineral and organic fragments that generally occur in the
+        referenced horizon.  If the Volume % is greater than zero (low=5, RV=10, high=15)
+        in a row, the kind and size of fragment in that row exists everywhere this
+        horizon and component occur in the map unit.  If the Volume % includes zero
+        (low=0, RV=5, high=10), the kind and size of fragment may exist in some places,
+        but not in others."},{"name":"chorizon","description":"The Horizon table lists
+        the horizon(s) and related data for the referenced map unit component.  If
+        the horizon thickness is greater than zero (low=5, RV=8, high=12), the horizon
+        exists everywhere this component occurs.  If the horizon thickness includes
+        zero (low=0, RV=1, high=3), the horizon may exist in some places, but not
+        in other places.\r\nHorizons that have two distinct parts, such as E/B or
+        E&Bt horizons, are recorded twice.  Once for the characteristics of the first
+        part; and again on another row, using the same depths and thicknesses, for
+        the characteristics of the other part."},{"name":"chpores","description":"The
+        Horizon Pores table lists the voids for the referenced horizon.  If the Quantity
+        is greater than zero (low=2, RV=5, high=10) in a row, the voids in that row
+        exist everywhere the horizon and component occur in the map unit.  If the
+        Quantity includes zero (low=0, RV=2, high=5), the voids may exist in some
+        places, but not in others.  More than one row can be marked as an RV row because
+        a horizon may have more than one size or shape of void."},{"name":"chstruct","description":"The
+        Horizon Structure table lists the individual soil structure size, grade, and
+        shape terms for the referenced horizon.  Terms in this table are assembled
+        into a structure group string which is recorded in the Horizon Structure Group
+        table."},{"name":"chstructgrp","description":"The Horizon Structure Group
+        table lists the ranges of  soil structure for the referenced horizon.  The
+        row with the typically occurring structure is marked as being representative.  The
+        entry in this table is based on grouping of entries in the Horizon Structure
+        table."},{"name":"chtext","description":"The Horizon Text table contains notes
+        and narrative descriptions related to the referenced horizon.  Some notes
+        may provide additional information about the horizon for which there is no
+        explicit column for such data.  In many cases, the table is empty for a particular
+        horizon."},{"name":"chtexture","description":"The Horizon Texture table lists
+        the individual texture(s), or term(s) used in lieu of texture, for the referenced
+        horizon.  Only the unmodified texture terms are listed in the Horizon Texture
+        table; modifiers are listed in the Horizon Texture Modifier table.  For example,
+        a gravelly loamy sand is shown as \"GR-LS\" in the Horizon Texture Group table,
+        \"ls\" in the Horizon Texture table, and \"gr\" in the Horizon Texture Modifier
+        table."},{"name":"chtexturegrp","description":"The Horizon Texture Group table
+        lists the range of textures for the referenced horizon as a concatenation
+        of horizon texture and texture modifier(s).  For example, a horizon that is
+        gravelly loamy sand in some places and gravelly loamy coarse sand in other
+        places is shown as GR-LS on one row and GR-LCOS on another row in this table.  The
+        row with the typically occurring texture is identified as the RV row.  Stratified
+        textures are shown in one row.  For example, a horizon that is stratified
+        gravelly loamy fine sand and cobbly coarse sand is shown as SR- GR-LFS CB-COS
+        on one row and the Stratified? column for that row is marked \"yes\".  If
+        two or more textures always occur together but are not stratified, all of
+        the textures are listed on one row and the Stratified? column for that row
+        is marked \"no\"."},{"name":"chtexturemod","description":"The Horizon Texture
+        Modifier table lists the texture modifier(s) for the referenced texture.  For
+        example, a gravelly loamy sand is shown as \"GR-LS\" in the Horizon Texture
+        Group table, \"ls\" in the Horizon Texture table, and \"gr\" in this table."},{"name":"chunified","description":"The
+        Horizon Unified table contains the Unified Soil Classification(s) for the
+        referenced horizon.  One row in the Horizon Unified table is marked as the
+        representative Unified classification for the horizon."},{"name":"cocanopycover","description":"The
+        Component Canopy Cover table lists the overstory plants that typically occur
+        on the referenced map unit component."},{"name":"cocropyld","description":"The
+        Component Crop Yield table lists commonly grown crops and their expected range
+        in yields when grown on the referenced map unit component.  Yields for the
+        map unit as a whole are given in the Mapunit Crop Yield table."},{"name":"codiagfeatures","description":"The
+        Component Diagnostic Features table lists the typical soil features, such
+        as ochric epipedon or cambic horizon, for the referenced map unit component."},{"name":"coecoclass","description":"The
+        Component Ecological Classification table identifies the ecological sites
+        typically associated with the referenced map unit component.  These may include
+        the official NRCS forestland and rangland ecological sites, as well as those
+        of other classification systems, such as the USFS Habitat Types."},{"name":"coeplants","description":"The
+        Component Existing Plants table lists the plants, either rangeland or forestland
+        plants, that typically occur on the referenced map unit component."},{"name":"coerosionacc","description":"The
+        Component Erosion Accelerated table lists the kinds of accelerated erosion
+        that occur on the referenced map unit component.  One row in this table is
+        marked as the representative kind of accelerated erosion for that component."},{"name":"coforprod","description":"The
+        Component Forest Productivity table lists the site index and the annual productivity
+        in cubic feet per acre per year (CAMI) of forest overstory tree species that
+        typically occur on the referenced map unit component."},{"name":"coforprodo","description":"The
+        Component Forest Productivity - Other table lists the site index and annual
+        productivity of forest overstory tree species in units other than cubic feet
+        per acre per year for trees that typically occur on the referenced map unit
+        component."},{"name":"cogeomordesc","description":"The Component Geomorphic
+        Description table lists the geomorphic features on which the referenced map
+        unit component typically occurs."},{"name":"cohydriccriteria","description":"The
+        Component Hydric Criteria table lists the hydric soil criteria met for those
+        referenced map unit components that are classified as a \"hydric soil.\""},{"name":"cointerp","description":"The
+        Component Interpretation table lists the predictions of behavior and limiting
+        features for specified uses made for the referenced map unit component."},{"name":"comonth","description":"The
+        Component Month table lists the monthly flooding and ponding characteristics
+        for the referenced map unit component.  This table has one row for each month
+        of the year."},{"name":"component","description":"The Component table lists
+        the map unit components identified in the referenced map unit, and selected
+        properties of each component.  If the Component % is greater than zero (low=65,
+        RV=75, high=90) for a component, that component exists in every delineation
+        of that mapunit.  If the Component % includes zero (low=0, RV=50, high=90),
+        the component may exist in some delineations, but not in others."},{"name":"copm","description":"The
+        Component Parent Material table lists the individual parent material(s) for
+        the referenced map unit component.    In some cases where soils developed
+        in multiple materials in a vertical sequence, that sequence will be noted.  In
+        other cases multiple entries with no vertical sequence noted indicates the
+        soil may have formed in one of the materials listed."},{"name":"copmgrp","description":"The
+        Component Parent Material Group table lists the concatenated string of parent
+        material(s) in which the referenced map unit component formed based on entries
+        in the Component Parent Material table.  For example, a component formed in
+        one parent material, such as loess, or one vertical sequence of parent materials,
+        such as loamy glacial drift over silty residuum weathered from shale, has
+        one row in this table.  A component formed in one parent material in some
+        locations, but another parent material (or sequence of parent materials) in
+        other locations has two rows in this table, one for each parent material (or
+        sequence of parent materials).  One row is identified as the representative
+        parent material."},{"name":"copwindbreak","description":"The Component Potential
+        Windbreak table lists the windbreak plant species commonly recommended for
+        the referenced map unit component.  A windbreak plant listed in this table
+        may be used alone or in combination with other plants."},{"name":"corestrictions","description":"The
+        Component Restrictions table lists the root restrictive feature(s) or layer(s)
+        for the referenced map unit component.  If the thickness of the restrictive
+        layer is greater than zero (low=5, RV=8, high=10), the restrictive layer exists
+        in all delineations of the map unit where the component occurs.  If the thickness
+        of the restrictive layer includes zero (low=0, RV=2, high=5), the restrictive
+        layer may exist in some delineations, but not in others.  This table will
+        be empty if the component does not have restrictive features, but could have
+        several rows if several restrictive features occur in the soil."},{"name":"cosoilmoist","description":"The
+        Component Soil Moisture table describes the typical soil moisture profile
+        for the referenced map unit component during the month referenced in the Component
+        Month table.  The soil moisture profiles for each month, taken as a group
+        of twelve months, describe the representative situation for the component
+        throughout the year."},{"name":"cosoiltemp","description":"The Component Soil
+        Temperature table describes the typical soil temperature profile for the referenced
+        map unit component during the month referenced in the Component Month table.  The
+        soil temperature profiles for each month, taken as a group of twelve months,
+        describe the representative situation for the component throughout the year."},{"name":"cosurffrags","description":"The
+        Component Surface Fragments table lists the organic or mineral fragments that
+        generally occur on the surface of the referenced map unit component.  If the
+        cover percent is greater than zero (low=0.1, RV=1, high=3) for a row in this
+        table, the fragment is in every delineation of the map unit where the referenced
+        component occurs.  If the Cover % includes zero (low=0, RV=0.01, high=1) for
+        a row in this table, the fragment may exist in some delineations and not in
+        others."},{"name":"cosurfmorphgc","description":"The Component Three Dimensional
+        Surface Morphometry table lists the typical geomorphic position (s) of the
+        referenced map unit component, in three dimension terms.  The geomorphic position(s)
+        listed in this table apply to the geomorphic feature referenced in the Component
+        Geomorphic Description table."},{"name":"cosurfmorphhpp","description":"The
+        Component Two Dimensional Surface Morphometry table lists the geomorphic position(s)
+        of the referenced map unit component, in two dimensional hillslope profile
+        terms.  The geomorphic position(s) listed in this table apply to the geomorphic
+        feature referenced  in the Component Geomorphic Description table."},{"name":"cosurfmorphmr","description":"The
+        Component Microrelief Surface Morphometry table lists microrelief features
+        associated with the referenced geomorphic (microfeature) feature shown in
+        the Component Geomorphic Description table."},{"name":"cosurfmorphss","description":"The
+        Component Slope Shape Surface Morphometry table lists the geomorphic shape(s)
+        of the referenced map unit component, in slope shape terms.  The slope shape
+        terms listed in this table apply to the referenced geomorphic feature shown
+        in the Component Geomorphic Description table."},{"name":"cotaxfmmin","description":"The
+        Component Taxonomic Family Mineralogy table lists the mineralogy characteristics,
+        as defined in Soil Taxonomy, that apply to the referenced map unit component."},{"name":"cotaxmoistcl","description":"The
+        Component Taxonomic Moisture Class table provides clear identification of
+        the intended taxonomic moisture class, as defined in Soil Taxonomy, that apply
+        to the referenced map unit component, even though moisture class is implied
+        at a higher taxonomic level.  The class or classes listed in this table describe
+        the representative situation for the component."},{"name":"cotext","description":"The
+        Component Text table contains notes and narrative descriptions for the referenced
+        map unit component.  In many cases, the table will be empty for a particular
+        component."},{"name":"cotreestomng","description":"The Component Trees To
+        Manage table lists the trees commonly recommended for managing on the referenced
+        map unit component."},{"name":"cotxfmother","description":"The Component Taxonomic
+        Family Other Criteria table lists the other taxonomic characteristics, such
+        as classes of coatings or permanent cracks, as defined in Soil Taxonomy, that
+        apply to the referenced map unit component.  The characteristics listed in
+        this table describe the representative situation for the component."},{"name":"distinterpmd","description":"The
+        Distribution Interp Metadata table records the set of NASIS fuzzy logic interpretations
+        which were generated for the map unit components included in a set of distribution
+        data."},{"name":"distlegendmd","description":"The Distribution Legend Metadata
+        table records information about the legends or soil survey areas selected
+        for inclusion in a set of distributed data.  The presence of a legend in this
+        table does not imply that all of the available data for that legend was included
+        in the set of data that was distributed.  Only certain map units and components
+        for that legend may have been selected.  The record of the criteria used for
+        selecting map units and components may be found in the Distribution Metadata
+        table."},{"name":"distmd","description":"The Distribution Metadata table records
+        information associated with the selection of a set of data for distribution
+        to some entity or information system external to NASIS.  A set of distribution
+        data may include only selected map units from a legend or legends, and only
+        selected components of those map units.  This table records the criteria used
+        for selecting map units and components for inclusion in the set of distributed
+        data.  Other recorded information includes the name of the NASIS user who
+        initiated a distribution request, and the times when that request was made,
+        and when that request was ultimately processed."},{"name":"laoverlap","description":"The
+        Legend Area Overlap table lists the geographic areas that are coincident with
+        the soil survey area identified in the Legend table.  For example, a survey
+        area that covers two counties would have two rows in this table, one for each
+        county.  Other types of geographic areas listed might include state, MLRA,
+        rainfall (R) factor area, climate (C) factor area, etc."},{"name":"legend","description":"The
+        Legend table identifies the soil survey area that the legend is related to,
+        and related information about that legend."},{"name":"legendtext","description":"The
+        Legend Text table contains notes and narrative descriptions related to the
+        referenced legend.  Legend text is optional.  In many cases, this table is
+        empty."},{"name":"mapunit","description":"The Mapunit table identifies the
+        map units included in the referenced legend.  Data related the map unit as
+        a whole are also given."},{"name":"muaggatt","description":"The Mapunit Aggregated
+        Attribute table records a variety of soil attributes and interpretations that
+        have been aggregated from the component level to a single value at the map
+        unit level. They have been aggregated by one or more appropriate means in
+        order to express a consolidated value or interpretation for the map unit as
+        a whole."},{"name":"muaoverlap","description":"The Mapunit Area Overlap table
+        lists the map units that exist in the overlap between the entire soil survey
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+        Mapunit Crop Yield table lists commonly grown crops and their expected yields
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+        Mapunit Text table contains notes and narrative descriptions related to the
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+        the primary dynamic metadata associated with a soil survey area.  This includes
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+        Socioeconomic Pathways (SSPs). The CMIP6 GCM runs were developed in support
+        of the Sixth Assessment Report of the Intergovernmental Panel on Climate Change
+        (IPCC AR6). This dataset includes downscaled projections from ScenarioMIP
+        model runs for which daily scenarios were produced and distributed through
+        the Earth System Grid Federation. The purpose of this dataset is to provide
+        a set of global, high resolution, bias-corrected climate change projections
+        that can be used to evaluate climate change impacts on processes that are
+        sensitive to finer-scale climate gradients and the effects of local topography
+        on climate conditions.\\n\\nThe [NASA Center for Climate Simulation](https://www.nccs.nasa.gov/)
+        maintains the [next-gddp-cmip6 product page](https://www.nccs.nasa.gov/services/data-collections/land-based-products/nex-gddp-cmip6)
+        where you can find more information about these datasets. Users are encouraged
+        to review the [technote](https://www.nccs.nasa.gov/sites/default/files/NEX-GDDP-CMIP6-Tech_Note.pdf),
+        provided alongside the data set, where more detailed information, references
+        and acknowledgements can be found.\\n\\nThis collection contains many NetCDF
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+        from the [GPM satellite constellation](https://gpm.nasa.gov/missions/gpm/constellation)
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+        algorithm is particularly valuable over the majority of the Earth''s surface
+        that lacks precipitation-measuring instruments on the ground. Now in the latest
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+        collected during the operation of the TRMM satellite (2000 - 2015) with more
+        recent precipitation estimates collected during operation of the GPM satellite
+        (2014 - present). The longer the record, the more valuable it is, as researchers
+        and application developers will attest. By being able to compare and contrast
+        past and present data, researchers are better informed to make climate and
+        weather models more accurate, better understand normal and extreme rain and
+        snowfall around the world, and strengthen applications for current and future
+        disasters, disease, resource management, energy production and food security.\n\nFor
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+        provides more information on the algorithm, input datasets, and output products.","sci:citation":"Huffman,
+        G.J., E.F. Stocker, D.T. Bolvin, E.J. Nelkin, Jackson Tan (2019), GPM IMERG
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+      string: "{\"id\":\"gnatsgo-rasters\",\"type\":\"Collection\",\"links\":[{\"rel\":\"items\",\"type\":\"application/geo+json\",\"href\":\"https://planetarycomputer.microsoft.com/api/stac/v1/collections/gnatsgo-rasters/items\"},{\"rel\":\"parent\",\"type\":\"application/json\",\"href\":\"https://planetarycomputer.microsoft.com/api/stac/v1/\"},{\"rel\":\"root\",\"type\":\"application/json\",\"href\":\"https://planetarycomputer.microsoft.com/api/stac/v1/\"},{\"rel\":\"self\",\"type\":\"application/json\",\"href\":\"https://planetarycomputer.microsoft.com/api/stac/v1/collections/gnatsgo-rasters\"},{\"rel\":\"about\",\"href\":\"https://www.nrcs.usda.gov/wps/PA_NRCSConsumption/download?cid=nrcs142p2_051847&ext=pdf\",\"type\":\"application/pdf\",\"title\":\"gSSURGO
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+        Overview Slides\",\"description\":\"Slides giving a high level overview of
+        the gNATSGO dataset\"},{\"rel\":\"license\",\"href\":\"https://creativecommons.org/publicdomain/zero/1.0/\",\"title\":\"CC0
+        1.0 Universal Public Domain Dedication\"},{\"rel\":\"describedby\",\"href\":\"https://planetarycomputer.microsoft.com/dataset/gnatsgo-rasters\",\"title\":\"Human
+        readable dataset overview and reference\",\"type\":\"text/html\"}],\"title\":\"gNATSGO
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+        States\"],\"providers\":[{\"url\":\"https://www.nrcs.usda.gov/\",\"name\":\"United
+        States Department of Agriculture, Natural Resources Conservation Service\",\"roles\":[\"licensor\",\"producer\",\"processor\",\"host\"]},{\"url\":\"https://planetarycomputer.microsoft.com\",\"name\":\"Microsoft\",\"roles\":[\"processor\",\"host\"]}],\"description\":\"This
+        collection contains the raster data for gNATSGO. In order to use the map unit
+        values contained in the `mukey` raster asset, you'll need to join to tables
+        represented as Items in the [gNATSGO Tables](https://planetarycomputer.microsoft.com/dataset/gnatsgo-tables)
+        Collection. Many items have commonly used values encoded in additional raster
+        assets.\\n\\nThe gridded National Soil Survey Geographic Database (gNATSGO)
+        is a USDA-NRCS Soil & Plant Science Division (SPSD) composite database that
+        provides complete coverage of the best available soils information for all
+        areas of the United States and Island Territories. It was created by combining
+        data from the Soil Survey Geographic Database (SSURGO), State Soil Geographic
+        Database (STATSGO2), and Raster Soil Survey Databases (RSS) into a single
+        seamless ESRI file geodatabase.\\n\\nSSURGO is the SPSD flagship soils database
+        that has over 100 years of field-validated detailed soil mapping data. SSURGO
+        contains soils information for more than 90 percent of the United States and
+        island territories, but unmapped land remains. STATSGO2 is a general soil
+        map that has soils data for all of the United States and island territories,
+        but the data is not as detailed as the SSURGO data. The Raster Soil Surveys
+        (RSSs) are the next generation soil survey databases developed using advanced
+        digital soil mapping methods.\\n\\nThe gNATSGO database is composed primarily
+        of SSURGO data, but STATSGO2 data was used to fill in the gaps. The RSSs are
+        newer product with relatively limited spatial extent.  These RSSs were merged
+        into the gNATSGO after combining the SSURGO and STATSGO2 data. The extent
+        of RSS is expected to increase in the coming years.\\n\\nSee the [official
+        documentation](https://www.nrcs.usda.gov/wps/portal/nrcs/detail/soils/survey/geo/?cid=nrcseprd1464625)\",\"item_assets\":{\"mukey\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"mukey\",\"description\":\"Map
+        unit key is the unique identifier of a record in the Mapunit table. Use this
+        column to join the Component table to the Map Unit table and the Valu1 table
+        to the MapUnitRaster_10m raster map layer to map valu1 themes.\"},\"aws0_5\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"aws0_5\",\"description\":\"Available
+        water storage estimate (AWS) in a standard zone 1 (0-5 cm depth), expressed
+        in mm. The volume of plant available water that the soil can store in this
+        layer based on all map unit components (weighted average). NULL values are
+        presented where data are incomplete or not available.\"},\"soc0_5\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"soc0_5\",\"description\":\"Soil
+        organic carbon stock estimate (SOC) in standard layer 1 or standard zone 1
+        (0-5 cm depth). The concentration of organic carbon present in the soil expressed
+        in grams C per square meter to a depth of 5 cm. NULL values are presented
+        where data are incomplete or not available.\"},\"tk0_5a\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_5a\",\"description\":\"Thickness
+        of soil components used in standard layer 1 or standard zone 1 (0-5 cm) expressed
+        in cm (weighted average) for the available water storage calculation. NULL
+        values are presented where data are incomplete or not available.\"},\"tk0_5s\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_5s\",\"description\":\"Thickness
+        of soil components used in standard layer 1 or standard zone 1 (0-5 cm) expressed
+        in cm (weighted average) for the Soil Organic Carbon calculation. NULL values
+        are presented where data are incomplete or not available.\"},\"aws0_20\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"aws0_20\",\"description\":\"Available
+        water storage estimate (AWS) in standard zone 2 (0-20 cm depth), expressed
+        in mm. The volume of plant available water that the soil can store in this
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+        presented where data are incomplete or not available.\"},\"aws0_30\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"aws0_30\",\"description\":\"Available
+        water storage estimate (AWS) in standard zone 3 (0-30 cm depth), expressed
+        in mm. The volume of plant available water that the soil can store in this
+        zone based on all map unit components (weighted average). NULL values are
+        presented where data are incomplete or not available.\"},\"aws5_20\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"aws5_20\",\"description\":\"Available
+        water storage estimate (AWS) in standard layer 2 (5-20 cm depth), expressed
+        in mm. The volume of plant available water that the soil can store in this
+        layer based on all map unit components (weighted average). NULL values are
+        presented where data are incomplete or not available.\"},\"soc0_20\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"soc0_20\",\"description\":\"Soil
+        organic carbon stock estimate (SOC) in standard zone 2 (0-20 cm depth). The
+        concentration of organic carbon present in the soil expressed in grams C per
+        square meter to a depth of 20 cm. NULL values are presented where data are
+        incomplete or not available.\"},\"soc0_30\":{\"type\":\"image/tiff; application=geotiff;
+        profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"soc0_30\",\"description\":\"Soil
+        organic carbon stock estimate (SOC) in standard zone 3 (0-30 cm depth). The
+        concentration of organic carbon present in the soil expressed in grams C per
+        square meter to a depth of 30 cm. NULL values are presented where data are
+        incomplete or not available.\"},\"soc5_20\":{\"type\":\"image/tiff; application=geotiff;
+        profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"soc5_20\",\"description\":\"Soil
+        organic carbon stock estimate (SOC) in standard layer 2 (5-20 cm depth). The
+        concentration of organic carbon present in the soil expressed in grams C per
+        square meter for the 5-20 cm layer. NULL values are presented where data are
+        incomplete or not available.\"},\"tk0_20a\":{\"type\":\"image/tiff; application=geotiff;
+        profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_20a\",\"description\":\"Thickness
+        of soil components used in standard zone 2 (0-20 cm) expressed in cm (weighted
+        average) for the available water storage calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk0_20s\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_20s\",\"description\":\"Thickness
+        of soil components used in standard zone 2 (0-20 cm) expressed in cm (weighted
+        average) for the Soil Organic Carbon calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk0_30a\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_30a\",\"description\":\"Thickness
+        of soil components used in standard zone 3 (0-30 cm) expressed in cm (weighted
+        average) for the available water storage calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk0_30s\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_30s\",\"description\":\"Thickness
+        of soil components used in standard zone 3 (0-30 cm) expressed in cm (weighted
+        average) for the Soil Organic Carbon calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk5_20a\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk5_20a\",\"description\":\"Thickness
+        of soil components used in standard layer 2 (5-20 cm) expressed in cm (weighted
+        average) for the available water storage calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk5_20s\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk5_20s\",\"description\":\"Thickness
+        of soil components used in standard layer 2 (5-20 cm) expressed in cm (weighted
+        average) for the Soil Organic Carbon calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"aws0_100\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"aws0_100\",\"description\":\"Available
+        water storage estimate (AWS) in standard zone 4 (0-100 cm depth), expressed
+        in mm. The volume of plant available water that the soil can store in this
+        zone based on all map unit components (weighted average). NULL values are
+        presented where data are incomplete or not available.\"},\"aws0_150\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"aws0_150\",\"description\":\"Available
+        water storage estimate (AWS) in standard zone 5 (0-150 cm depth), expressed
+        in mm. The volume of plant available water that the soil can store in this
+        zone based on all map unit components (weighted average). NULL values are
+        presented where data are incomplete or not available.\"},\"aws0_999\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"aws0_999\",\"description\":\"Available
+        water storage estimate (AWS) in total soil profile (0 cm to the reported depth
+        of the soil profile), expressed in mm. The volume of plant available water
+        that the soil can store in this layer based on all map unit components (weighted
+        average). NULL values are presented where data are incomplete or not available.\"},\"aws20_50\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"aws20_50\",\"description\":\"Available
+        water storage estimate (AWS) in standard layer 3 (20-50 cm depth), expressed
+        in mm. The volume of plant available water that the soil can store in this
+        layer based on all map unit components (weighted average). NULL values are
+        presented where data are incomplete or not available.\"},\"droughty\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"droughty\",\"description\":\"zone
+        for commodity crops that is less than or equal to 6 inches (152 mm) expressed
+        as \\\"1\\\" for a drought vulnerable soil landscape map unit or \\\"0\\\"
+        for a non-droughty soil landscape map unit or NULL for miscellaneous areas
+        (includes water bodies) or where data were not available. It is computed as
+        a weighted average for major earthy components. Earthy components are those
+        soil series or higher level taxa components that can support crop growth (Dobos
+        et al., 2012). Major components are those soil components where the majorcompflag
+        = 'Yes'\"},\"nccpi3sg\":{\"type\":\"image/tiff; application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"nccpi3sg\",\"description\":\"National
+        Commodity Crop Productivity Index for Small Grains (weighted average) for
+        major earthy components. Values range from .01 (low productivity) to .99 (high
+        productivity). Earthy components are those soil series or higher level taxa
+        components that can support crop growth (Dobos et al., 2012). Major components
+        are those soil components where the majorcompflag = 'Yes' (SSURGO component
+        table). NULL values are presented where data are incomplete or not available.\"},\"soc0_100\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"soc0_100\",\"description\":\"Soil
+        organic carbon stock estimate (SOC) in standard zone 4 (0-100 cm depth). The
+        concentration of organic carbon present in the soil expressed in grams C per
+        square meter to a depth of 100 cm. NULL values are presented where data are
+        incomplete or not available.\"},\"soc0_150\":{\"type\":\"image/tiff; application=geotiff;
+        profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"soc0_150\",\"description\":\"Soil
+        organic carbon stock estimate (SOC) in standard zone 5 (0-150 cm depth). The
+        concentration of organic carbon present in the soil expressed in grams C per
+        square meter to a depth of 150 cm. NULL values are presented where data are
+        incomplete or not available.\"},\"soc0_999\":{\"type\":\"image/tiff; application=geotiff;
+        profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"soc0_999\",\"description\":\"Soil
+        organic carbon stock estimate (SOC) in total soil profile (0 cm to the reported
+        depth of the soil profile). The concentration of organic carbon present in
+        the soil expressed in grams C per square meter for the total reported soil
+        profile depth. NULL values are presented where data are incomplete or not
+        available.\"},\"soc20_50\":{\"type\":\"image/tiff; application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"soc20_50\",\"description\":\"Soil
+        organic carbon stock estimate (SOC) in standard layer 3 (20-50 cm depth).
+        The concentration of organic carbon present in the soil expressed in grams
+        C per square meter for the 20-50 cm layer. NULL values are presented where
+        data are incomplete or not available.\"},\"tk0_100a\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_100a\",\"description\":\"Thickness
+        of soil components used in standard zone 4 (0-100 cm) expressed in cm (weighted
+        average) for the available water storage calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk0_100s\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_100s\",\"description\":\"Thickness
+        of soil components used in standard zone 4 (0-100 cm) expressed in cm (weighted
+        average) for the Soil Organic Carbon calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk0_150a\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_150a\",\"description\":\"Thickness
+        of soil components used in standard zone 5 (0-150 cm) expressed in cm (weighted
+        average) for the available water storage calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk0_150s\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_150s\",\"description\":\"Thickness
+        of soil components used in standard zone 5 (0-150 cm) expressed in cm (weighted
+        average) for the Soil Organic Carbon calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk0_999a\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_999a\",\"description\":\"Thickness
+        of soil components used in total soil profile (0 cm to the reported depth
+        of the soil profile) expressed in cm (weighted average) for the available
+        water storage calculation. NULL values are presented where data are incomplete
+        or not available.\"},\"tk0_999s\":{\"type\":\"image/tiff; application=geotiff;
+        profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk0_999s\",\"description\":\"Thickness
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+        profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk20_50a\",\"description\":\"Thickness
+        of soil components used in standard layer 3 (20-50 cm) expressed in cm (weighted
+        average) for the available water storage calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"tk20_50s\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"tk20_50s\",\"description\":\"Thickness
+        of soil components used in standard layer 3 (20-50 cm) expressed in cm (weighted
+        average) for the Soil Organic Carbon calculation. NULL values are presented
+        where data are incomplete or not available.\"},\"aws50_100\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"aws50_100\",\"description\":\"Available
+        water storage estimate (AWS) in standard layer 3 (50-100 cm depth), expressed
+        in mm. The volume of plant available water that the soil can store in this
+        layer based on all map unit components (weighted average). NULL values are
+        presented where data are incomplete or not available.\"},\"musumcpct\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"musumcpct\",\"description\":\"The
+        sum of the comppct_r (SSURGO component table) values for all listed components
+        in the map unit. Useful metadata information. NULL values are presented where
+        data are incomplete or not available.\"},\"nccpi3all\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"nccpi3all\",\"description\":\"National
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+        Soybeans, Small Grains, or Cotton (weighted average) for major earthy components.
+        Values range from .01 (low productivity) to .99 (high productivity). Earthy
+        components are those soil series or higher level taxa components that can
+        support crop growth (Dobos et al., 2012). Major components are those soil
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+        values are presented where data are incomplete or not available.\"},\"nccpi3cot\":{\"type\":\"image/tiff;
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+        Commodity Crop Productivity Index for Cotton (weighted average) for major
+        earthy components. Values range from .01 (low productivity) to .99 (high productivity).
+        Earthy components are those soil series or higher level taxa components that
+        can support crop growth (Dobos et al., 2012). Major components are those soil
+        components where the majorcompflag = 'Yes' (SSURGO component table). NULL
+        values are presented where data are incomplete or not available.\"},\"nccpi3soy\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"nccpi3soy\",\"description\":\"National
+        Commodity Crop Productivity Index for Soybeans (weighted average) for major
+        earthy components. Values range from .01 (low productivity) to .99 (high productivity).
+        Earthy components are those soil series or higher level taxa components that
+        can support crop growth (Dobos et al., 2012). Major components are those soil
+        components where the majorcompflag = 'Yes' (SSURGO component table). NULL
+        values are presented where data are incomplete or not available.\"},\"pwsl1pomu\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"pwsl1pomu\",\"description\":\"Potential
+        Wetland Soil Landscapes (PWSL) is expressed as the percentage of the map unit
+        that meets the PWSL criteria. The hydric rating (soil component variable \u201Chydricrating\u201D)
+        is an indicator of wet soils. For version 1 (pwsl1), those soil components
+        that meet the following criteria are tagged as PWSL and their comppct_r values
+        are summed for each map unit. Soil components with hydricrating = 'YES' are
+        considered PWSL. Soil components with hydricrating = \u201CNO\u201D are not
+        PWSL. Soil components with hydricrating = 'UNRANKED' are tested using other
+        attributes, and will be considered PWSL if any of the following conditions
+        are met: drainagecl = 'Poorly drained' or 'Very poorly drained' or the localphase
+        or the otherph data fields contain any of the phrases \\\"drained\\\" or \\\"undrained\\\"
+        or \\\"channeled\\\" or \\\"protected\\\" or \\\"ponded\\\" or \\\"flooded\\\".
+        If these criteria do not determine the PWSL for a component and hydricrating
+        = 'UNRANKED', then the map unit will be classified as PWSL if the map unit
+        name contains any of the phrases \\\"drained\\\" or \\\"undrained\\\" or \\\"channeled\\\"
+        or \\\"protected\\\" or \\\"ponded\\\" or \\\"flooded\\\". For version 1 (pwsl1),
+        waterbodies are identified as \\\"999\\\" when map unit names match a list
+        of terms that identify water or intermittent water or map units have a sum
+        of the comppct_r for \\\"Water\\\" that is 80% or greater. NULL values are
+        presented where data are incomplete or not available.\"},\"rootznaws\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"rootznaws\",\"description\":\"Root
+        zone (commodity crop) available water storage estimate (RZAWS) , expressed
+        in mm, is the volume of plant available water that the soil can store within
+        the root zone based on all map unit earthy major components (weighted average).
+        Earthy components are those soil series or higher level taxa components that
+        can support crop growth (Dobos et al., 2012). Major components are those soil
+        components where the majorcompflag = 'Yes' (SSURGO component table). NULL
+        values are presented where data are incomplete or not available.\"},\"rootznemc\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"rootznemc\",\"description\":\"Root
+        zone depth is the depth within the soil profile that commodity crop (cc) roots
+        can effectively extract water and nutrients for growth. Root zone depth influences
+        soil productivity significantly. Soil component horizon criteria for root-limiting
+        depth include: presence of hard bedrock, soft bedrock, a fragipan, a duripan,
+        sulfuric material, a dense layer, a layer having a pH of less than 3.5, or
+        a layer having an electrical conductivity of more than 12 within the component
+        soil profile. If no root-restricting zone is identified, a depth of 150 cm
+        is used to approximate the root zone depth (Dobos et al., 2012). Root zone
+        depth is computed for all map unit major earthy components (weighted average).
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+        average). NULL values are presented where data are incomplete or not available.\"},\"musumcpcta\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"musumcpcta\",\"description\":\"The
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+        water storage calculation for the map unit. Useful metadata information. NULL
+        values are presented where data are incomplete or not available.\"},\"musumcpcts\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"musumcpcts\",\"description\":\"The
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+        are presented where data are incomplete or not available.\"},\"nccpi3corn\":{\"type\":\"image/tiff;
+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"nccpi3corn\",\"description\":\"National
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+        Earthy components are those soil series or higher level taxa components that
+        can support crop growth (Dobos et al., 2012). Major components are those soil
+        components where the majorcompflag = 'Yes' (SSURGO component table). NULL
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+        application=geotiff; profile=cloud-optimized\",\"roles\":[\"data\"],\"title\":\"pctearthmc\",\"description\":\"The
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+        map unit summed comppct_r for major earthy components. Earthy components are
+        those soil series or higher level taxa components that can support crop growth
+        (Dobos et al., 2012). Major components are those soil components where the
+        majorcompflag = 'Yes' (SSURGO component table). Useful metadata information.
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+        that contains the normalized height values.\n\nGround points may be generated
+        with [`pdal.filters.pmf`](https://pdal.io/stages/filters.pmf.html#filters-pmf)
+        or [`pdal.filters.smrf`](https://pdal.io/stages/filters.smrf.html#filters-smrf),
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+        heights are a commonly used attribute of point cloud data. This can also be
+        referred to as height above ground (HAG) or above ground level (AGL) heights.
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+        to its raw elevation value.\n\nThe filter finds the number of ground points
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+        year.\\n\\nThis dataset, produced by [Impact Observatory](http://impactobservatory.com/),
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+        - 2023. Each map is a composite of LULC predictions for 9 classes throughout
+        the year in order to generate a representative snapshot of each year. This
+        dataset was generated by Impact Observatory, which used billions of human-labeled
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+        readable dataset overview and reference\",\"type\":\"text/html\"}],\"title\":\"GOES-R
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+        DISK\",\"CONUS\",\"MESOSCALE\"],\"goes:processing-level\":[\"L2\"]},\"description\":\"The
+        GOES-R Advanced Baseline Imager (ABI) L2 Cloud and Moisture Imagery product
+        provides 16 reflective and emissive bands at high temporal cadence over the
+        Western Hemisphere.\\n\\nThe GOES-R series is the latest in the Geostationary
+        Operational Environmental Satellites (GOES) program, which has been operated
+        in a collaborative effort by NOAA and NASA since 1975. The operational GOES-R
+        Satellites, GOES-16, GOES-17, and GOES-18, capture 16-band imagery from geostationary
+        orbits over the Western Hemisphere via the Advance Baseline Imager (ABI) radiometer.
+        The ABI captures 2 visible, 4 near-infrared, and 10 infrared channels at resolutions
+        between 0.5km and 2km.\\n\\n### Geographic coverage\\n\\nThe ABI captures
+        three levels of coverage, each at a different temporal cadence depending on
+        the modes described below. The geographic coverage for each image is described
+        by the `goes:image-type` STAC Item property.\\n\\n- _FULL DISK_: a circular
+        image depicting nearly full coverage of the Western Hemisphere.\\n- _CONUS_:
+        a 3,000 (lat) by 5,000 (lon) km rectangular image depicting the Continental
+        U.S. (GOES-16) or the Pacific Ocean including Hawaii (GOES-17).\\n- _MESOSCALE_:
+        a 1,000 by 1,000 km rectangular image. GOES-16 and 17 both alternate between
+        two different mesoscale geographic regions.\\n\\n### Modes\\n\\nThere are
+        three standard scanning modes for the ABI instrument: Mode 3, Mode 4, and
+        Mode 6.\\n\\n- Mode _3_ consists of one observation of the full disk scene
+        of the Earth, three observations of the continental United States (CONUS),
+        and thirty observations for each of two distinct mesoscale views every fifteen
+        minutes.\\n- Mode _4_ consists of the observation of the full disk scene every
+        five minutes.\\n- Mode _6_ consists of one observation of the full disk scene
+        of the Earth, two observations of the continental United States (CONUS), and
+        twenty observations for each of two distinct mesoscale views every ten minutes.\\n\\nThe
+        mode that each image was captured with is described by the `goes:mode` STAC
+        Item property.\\n\\nSee this [ABI Scan Mode Demonstration](https://youtu.be/_c5H6R-M0s8)
+        video for an idea of how the ABI scans multiple geographic regions over time.\\n\\n###
+        Cloud and Moisture Imagery\\n\\nThe Cloud and Moisture Imagery product contains
+        one or more images with pixel values identifying \\\"brightness values\\\"
+        that are scaled to support visual analysis.  Cloud and Moisture Imagery product
+        (CMIP) files are generated for each of the sixteen ABI reflective and emissive
+        bands. In addition, there is a multi-band product file that includes the imagery
+        at all bands (MCMIP).\\n\\nThe Planetary Computer STAC Collection `goes-cmi`
+        captures both the CMIP and MCMIP product files into individual STAC Items
+        for each observation from a GOES-R satellite. It contains the original CMIP
+        and MCMIP NetCDF files, as well as cloud-optimized GeoTIFF (COG) exports of
+        the data from each MCMIP band (2km); the full-resolution CMIP band for bands
+        1, 2, 3, and 5; and a Web Mercator COG of bands 1, 2 and 3, which are useful
+        for rendering.\\n\\nThis product is not in a standard coordinate reference
+        system (CRS), which can cause issues with some tooling that does not handle
+        non-standard large geographic regions.\\n\\n### For more information\\n- [Beginner\u2019s
+        Guide to GOES-R Series Data](https://www.goes-r.gov/downloads/resources/documents/Beginners_Guide_to_GOES-R_Series_Data.pdf)\\n-
+        [GOES-R Series Product Definition and Users\u2019 Guide: Volume 5 (Level 2A+
+        Products)](https://www.goes-r.gov/products/docs/PUG-L2+-vol5.pdf) ([Spanish
+        verison](https://github.com/NOAA-Big-Data-Program/bdp-data-docs/raw/main/GOES/QuickGuides/Spanish/Guia%20introductoria%20para%20datos%20de%20la%20serie%20GOES-R%20V1.1%20FINAL2%20-%20Copy.pdf))\\n\\n\",\"item_assets\":{\"C01_1km\":{\"type\":\"image/tiff;
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+        coastal water mapping\",\"center_wavelength\":0.47}]},\"C01_2km\":{\"type\":\"image/tiff;
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+        winds\",\"center_wavelength\":0.64}]},\"C03_1km\":{\"type\":\"image/tiff;
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+        4\",\"common_name\":\"cirrus\",\"description\":\"Daytime cirrus cloud\",\"center_wavelength\":1.38}]},\"C05_1km\":{\"type\":\"image/tiff;
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+        application=geotiff; profile=cloud-optimized\",\"title\":\"Cloud and Moisture
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+        application=geotiff; profile=cloud-optimized\",\"title\":\"Cloud and Moisture
+        Imagery reflectance factor - Band 06\",\"eo:bands\":[{\"name\":\"ABI Band
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+        particle size, vegetation, snow\",\"center_wavelength\":2.25}]},\"C07_2km\":{\"type\":\"image/tiff;
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+        application=geotiff; profile=cloud-optimized\",\"title\":\"Cloud and Moisture
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+        Band 16\",\"description\":\"Air temperature, cloud heights\",\"center_wavelength\":13.27}]},\"MCMIP-nc\":{\"type\":\"application/netcdf\",\"roles\":[\"data\"],\"title\":\"Cloud
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+        Band 4\",\"common_name\":\"cirrus\",\"description\":\"Daytime cirrus cloud\",\"center_wavelength\":1.38},{\"name\":\"ABI
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+        6\",\"common_name\":\"swir22\",\"description\":\"Daytime land, cloud properties,
+        particle size, vegetation, snow\",\"center_wavelength\":2.25},{\"name\":\"ABI
+        Band 7\",\"description\":\"Surface and cloud, fog at night, fire, winds\",\"center_wavelength\":3.89},{\"name\":\"ABI
+        Band 8\",\"description\":\"High-level atmospheric water vapor, winds, rainfall\",\"center_wavelength\":6.17},{\"name\":\"ABI
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+        Band 11\",\"description\":\"Total water for stability, cloud phase, dust,
+        silicon dioxide, rainfall\",\"center_wavelength\":8.44},{\"name\":\"ABI Band
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+        Band 16\",\"description\":\"Air temperature, cloud heights\",\"center_wavelength\":13.27}],\"description\":\"The
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+        with pixel values identifying 'brightness values' that are scaled to support
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+        application=geotiff; profile=cloud-optimized\",\"title\":\"Cloud and Moisture
+        Imagery data quality flags - Band 11\"},\"C12_DQF_2km\":{\"type\":\"image/tiff;
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+        application=geotiff; profile=cloud-optimized\",\"title\":\"Cloud and Moisture
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+        mixing ratio\"},\"QRFS\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        baseflow since model start time\",\"description\":\"sum baseflow\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"sum
+        baseflow\"},\"RECH\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        water tabel recharged since model init time\",\"description\":\"Accumulated
+        water tabel recharged\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"Accumulated
+        water tabel recharged\"},\"SH2O\":{\"type\":\"data\",\"unit\":\"m3 m-3\",\"attrs\":{\"units\":\"m3
+        m-3\",\"stagger\":\"Z\",\"description\":\"SOIL LIQUID WATER\",\"number_of_significant_digits\":5},\"shape\":[376944,4,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"soil_layers_stag\",\"south_north\",\"west_east\"],\"description\":\"SOIL
+        LIQUID WATER\"},\"SNOW\":{\"type\":\"data\",\"unit\":\"kg m-2\",\"attrs\":{\"units\":\"kg
+        m-2\",\"stagger\":\"\",\"description\":\"SNOW WATER EQUIVALENT\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"SNOW
+        WATER EQUIVALENT\"},\"TRAD\":{\"type\":\"data\",\"unit\":\"K\",\"attrs\":{\"units\":\"K\",\"stagger\":\"\",\"description\":\"surface
+        radiative temperature\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"surface
+        radiative temperature\"},\"TSLB\":{\"type\":\"data\",\"unit\":\"K\",\"attrs\":{\"units\":\"K\",\"stagger\":\"Z\",\"description\":\"SOIL
+        TEMPERATURE\",\"number_of_significant_digits\":5},\"shape\":[376944,4,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"soil_layers_stag\",\"south_north\",\"west_east\"],\"description\":\"SOIL
+        TEMPERATURE\"},\"TSNO\":{\"type\":\"data\",\"unit\":\"K\",\"attrs\":{\"units\":\"K\",\"stagger\":\"Z\",\"description\":\"snow
+        temperature\",\"number_of_significant_digits\":5},\"shape\":[376944,3,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"snow_layers_stag\",\"south_north\",\"west_east\"],\"description\":\"snow
+        temperature\"},\"ACEVB\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        latent heat flux over bare ground, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        EVB\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        EVB\"},\"ACEVC\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        latent heat flux for canopy layer, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        EVC\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        EVC\"},\"ACEVG\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        ground latent heat flux below canopy, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        EVG\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        EVG\"},\"ACGHB\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        heat flux into soil or snowpack for bare ground, accumulated over prior 60
+        minutes\",\"description\":\"acccumlated GHB\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        GHB\"},\"ACGHV\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        heat flux into soil or snowpack under canopy, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        GHV\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        GHV\"},\"ACIRB\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        net longwave radiation for bare ground, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        IRB\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        IRB\"},\"ACIRC\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        net longwave radiation from canopy, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        IRC\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        IRC\"},\"ACIRG\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        net longwave radiation from ground below canopy, accumulated over prior 60
+        minutes\",\"description\":\"acccumlated IRG\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        IRG\"},\"ACQRF\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        groundwater baseflow, accumulated over prior 60 minutes\",\"description\":\"accumulated
+        baseflow\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"accumulated
+        baseflow\"},\"ACSAV\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        solar radiation absorbed by vegetated fraction, accumulated over prior 60
+        minutes\",\"description\":\"acccumlated SAV\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        SAV\"},\"ACSHB\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        sensible heat flux at bare fraction, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        SHB\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        SHB\"},\"ACSHC\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        sensible heat flux, canopy to atmosphere, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        SHC\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        SHC\"},\"ACSHG\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        sensible heat flux from ground below canopy, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        SHG\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        SHG\"},\"EMISS\":{\"type\":\"data\",\"unit\":\"\",\"attrs\":{\"units\":\"\",\"stagger\":\"\",\"description\":\"SURFACE
+        EMISSIVITY\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"SURFACE
+        EMISSIVITY\"},\"LWDNB\":{\"type\":\"data\",\"unit\":\"W m-2\",\"attrs\":{\"units\":\"W
+        m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS DOWNWELLING LONGWAVE
+        FLUX AT BOTTOM\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        DOWNWELLING LONGWAVE FLUX AT BOTTOM\"},\"LWDNT\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        DOWNWELLING LONGWAVE FLUX AT TOP\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        DOWNWELLING LONGWAVE FLUX AT TOP\"},\"LWUPB\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        UPWELLING LONGWAVE FLUX AT BOTTOM\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        UPWELLING LONGWAVE FLUX AT BOTTOM\"},\"LWUPT\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        UPWELLING LONGWAVE FLUX AT TOP\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        UPWELLING LONGWAVE FLUX AT TOP\"},\"MLLCL\":{\"type\":\"data\",\"unit\":\"m\",\"attrs\":{\"units\":\"m\",\"stagger\":\"\",\"long_name\":\"Mixed-layer
+        lifting condensation level (LCL)\",\"description\":\"MIXED-LAYER LCL\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"MIXED-LAYER
+        LCL\"},\"O3RAD\":{\"type\":\"data\",\"unit\":\"ppmv\",\"attrs\":{\"units\":\"ppmv\",\"stagger\":\"\",\"description\":\"RADIATION
+        3D OZONE\",\"number_of_significant_digits\":5},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"RADIATION
+        3D OZONE\"},\"P_HYD\":{\"type\":\"data\",\"unit\":\"Pa\",\"attrs\":{\"units\":\"Pa\",\"stagger\":\"\",\"description\":\"hydrostatic
+        pressure\"},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"hydrostatic
+        pressure\"},\"QNICE\":{\"type\":\"data\",\"unit\":\"  kg-1\",\"attrs\":{\"units\":\"
+        \ kg-1\",\"stagger\":\"\",\"description\":\"Ice Number concentration\"},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"Ice
+        Number concentration\"},\"QRAIN\":{\"type\":\"data\",\"unit\":\"kg kg-1\",\"attrs\":{\"units\":\"kg
+        kg-1\",\"stagger\":\"\",\"description\":\"Rain water mixing ratio\"},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"Rain
+        water mixing ratio\"},\"QSLAT\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        groundwater lateral flow since model start time\",\"description\":\"sum lateral
+        flow\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"sum
+        lateral flow\"},\"QSNOW\":{\"type\":\"data\",\"unit\":\"kg kg-1\",\"attrs\":{\"units\":\"kg
+        kg-1\",\"stagger\":\"\",\"description\":\"Snow mixing ratio\"},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"Snow
+        mixing ratio\"},\"SBLCL\":{\"type\":\"data\",\"unit\":\"m\",\"attrs\":{\"units\":\"m\",\"stagger\":\"\",\"long_name\":\"Surface-based
+        lifting condensation level (LCL)\",\"description\":\"SURFACE-BASED LCL\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"SURFACE-BASED
+        LCL\"},\"SMOIS\":{\"type\":\"data\",\"unit\":\"m3 m-3\",\"attrs\":{\"units\":\"m3
+        m-3\",\"stagger\":\"Z\",\"description\":\"SOIL MOISTURE\",\"number_of_significant_digits\":5},\"shape\":[376944,4,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"soil_layers_stag\",\"south_north\",\"west_east\"],\"description\":\"SOIL
+        MOISTURE\"},\"SNICE\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"Z\",\"description\":\"snow
+        layer ice\"},\"shape\":[376944,3,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"snow_layers_stag\",\"south_north\",\"west_east\"],\"description\":\"snow
+        layer ice\"},\"SNLIQ\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"Z\",\"description\":\"snow
+        layer liquid\"},\"shape\":[376944,3,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"snow_layers_stag\",\"south_north\",\"west_east\"],\"description\":\"snow
+        layer liquid\"},\"SNOWC\":{\"type\":\"data\",\"unit\":\"\",\"attrs\":{\"units\":\"\",\"stagger\":\"\",\"description\":\"FLAG
+        INDICATING SNOW COVERAGE (1 FOR SNOW COVER)\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"FLAG
+        INDICATING SNOW COVERAGE (1 FOR SNOW COVER)\"},\"SNOWH\":{\"type\":\"data\",\"unit\":\"m\",\"attrs\":{\"units\":\"m\",\"stagger\":\"\",\"description\":\"PHYSICAL
+        SNOW DEPTH\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"PHYSICAL
+        SNOW DEPTH\"},\"SRH01\":{\"type\":\"data\",\"unit\":\"m2s-2\",\"attrs\":{\"units\":\"m2s-2\",\"stagger\":\"\",\"description\":\"0-1km
+        storm-relative helicity\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"0-1km
+        storm-relative helicity\"},\"SRH03\":{\"type\":\"data\",\"unit\":\"m2s-2\",\"attrs\":{\"units\":\"m2s-2\",\"stagger\":\"\",\"description\":\"0-3km
+        storm-relative helicity\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"0-3km
+        storm-relative helicity\"},\"SSTSK\":{\"type\":\"data\",\"unit\":\"K\",\"attrs\":{\"units\":\"K\",\"stagger\":\"\",\"description\":\"SKIN
+        SEA SURFACE TEMPERATURE\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"SKIN
+        SEA SURFACE TEMPERATURE\"},\"SWDNB\":{\"type\":\"data\",\"unit\":\"W m-2\",\"attrs\":{\"units\":\"W
+        m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS DOWNWELLING SHORTWAVE
+        FLUX AT BOTTOM\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        DOWNWELLING SHORTWAVE FLUX AT BOTTOM\"},\"SWDNT\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        DOWNWELLING SHORTWAVE FLUX AT TOP\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        DOWNWELLING SHORTWAVE FLUX AT TOP\"},\"SWUPB\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        UPWELLING SHORTWAVE FLUX AT BOTTOM\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        UPWELLING SHORTWAVE FLUX AT BOTTOM\"},\"SWUPT\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        UPWELLING SHORTWAVE FLUX AT TOP\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        UPWELLING SHORTWAVE FLUX AT TOP\"},\"USHR1\":{\"type\":\"data\",\"unit\":\"s-1\",\"attrs\":{\"units\":\"s-1\",\"stagger\":\"\",\"description\":\"0-1km
+        AGL U-component Wind Shear\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"0-1km
+        AGL U-component Wind Shear\"},\"USHR6\":{\"type\":\"data\",\"unit\":\"s-1\",\"attrs\":{\"units\":\"s-1\",\"stagger\":\"\",\"description\":\"0-6km
+        AGL U-component Wind Shear\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"0-6km
+        AGL U-component Wind Shear\"},\"VSHR1\":{\"type\":\"data\",\"unit\":\"s-1\",\"attrs\":{\"units\":\"s-1\",\"stagger\":\"\",\"description\":\"0-1km
+        AGL V-component Wind Shear\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"0-1km
+        AGL V-component Wind Shear\"},\"VSHR6\":{\"type\":\"data\",\"unit\":\"s-1\",\"attrs\":{\"units\":\"s-1\",\"stagger\":\"\",\"description\":\"0-6km
+        AGL V-component Wind Shear\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"0-6km
+        AGL V-component Wind Shear\"},\"ZSNSO\":{\"type\":\"data\",\"unit\":\"m\",\"attrs\":{\"units\":\"m\",\"stagger\":\"Z\",\"description\":\"layer-bottom
+        depth from snow surf\",\"number_of_significant_digits\":5},\"shape\":[376944,7,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"snso_layers_stag\",\"south_north\",\"west_east\"],\"description\":\"layer-bottom
+        depth from snow surf\"},\"lat_u\":{\"type\":\"auxiliary\",\"unit\":\"degree_north\",\"attrs\":{\"units\":\"degree_north\",\"stagger\":\"X\",\"description\":\"LATITUDE,
+        SOUTH IS NEGATIVE\"},\"shape\":[1015,1368],\"chunks\":[882,1188],\"dimensions\":[\"south_north\",\"west_east_stag\"],\"description\":\"LATITUDE,
+        SOUTH IS NEGATIVE\"},\"lat_v\":{\"type\":\"auxiliary\",\"unit\":\"degree_north\",\"attrs\":{\"units\":\"degree_north\",\"stagger\":\"Y\",\"description\":\"LATITUDE,
+        SOUTH IS NEGATIVE\"},\"shape\":[1016,1367],\"chunks\":[883,1187],\"dimensions\":[\"south_north_stag\",\"west_east\"],\"description\":\"LATITUDE,
+        SOUTH IS NEGATIVE\"},\"lon_u\":{\"type\":\"auxiliary\",\"unit\":\"degree_east\",\"attrs\":{\"units\":\"degree_east\",\"stagger\":\"X\",\"description\":\"LONGITUDE,
+        WEST IS NEGATIVE\"},\"shape\":[1015,1368],\"chunks\":[882,1188],\"dimensions\":[\"south_north\",\"west_east_stag\"],\"description\":\"LONGITUDE,
+        WEST IS NEGATIVE\"},\"lon_v\":{\"type\":\"auxiliary\",\"unit\":\"degree_east\",\"attrs\":{\"units\":\"degree_east\",\"stagger\":\"Y\",\"description\":\"LONGITUDE,
+        WEST IS NEGATIVE\"},\"shape\":[1016,1367],\"chunks\":[883,1187],\"dimensions\":[\"south_north_stag\",\"west_east\"],\"description\":\"LONGITUDE,
+        WEST IS NEGATIVE\"},\"ACDEWC\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        canopy dew rate, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QDEWC\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QDEWC\"},\"ACECAN\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        net evaporation of canopy water (evap + sublim - dew - frost), accumulated
+        over prior 60 minutes\",\"description\":\"acccumlated ECAN\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        ECAN\"},\"ACEDIR\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        net soil evaporation or snowpack sublimation (evap or sublim - dew or frost),
+        accumulated over prior 60 minutes\",\"description\":\"acccumlated EDIR\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        EDIR\"},\"ACEVAC\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        canopy evaporation, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QEVAC\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QEVAC\"},\"ACFROC\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        canopy frost, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QFROC\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QFROC\"},\"ACFRZC\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        refreezing of canopy liquid water, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QFRZC\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QFRZC\"},\"ACINTR\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        canopy rain interception rate, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QINTR\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QINTR\"},\"ACINTS\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        canopy snow interception rate, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QINTS\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QINTS\"},\"ACPAHB\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        precipitation advected energy to bare ground, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        PAHB\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        PAHB\"},\"ACPAHG\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        precipitation advected energy to below canopy, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        PAHG\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        PAHG\"},\"ACPAHV\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        precipitation advected energy to vegetation, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        PAHV\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        PAHV\"},\"ACQLAT\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        groundwater lateral flow, accumulated over prior 60 minutes\",\"description\":\"accumulated
+        lateral flow\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"accumulated
+        lateral flow\"},\"ACSAGB\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        solar radiation absorbed by bare ground, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        SAG under vegetation\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        SAG under vegetation\"},\"ACSAGV\":{\"type\":\"data\",\"unit\":\"kJ/m2\",\"attrs\":{\"units\":\"kJ/m2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        solar radiation absorbed by vegetated ground, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        SAG in bare section\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        SAG in bare section\"},\"ACSNOM\":{\"type\":\"data\",\"unit\":\"kg m-2\",\"attrs\":{\"units\":\"kg
+        m-2\",\"stagger\":\"\",\"long_name\":\"Accumulated total liquid water out
+        of the snowpack since model initial time\",\"description\":\"Accumulated total
+        liquid water out of the snowpack\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"Accumulated
+        total liquid water out of the snowpack\"},\"ACSUBC\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        canopy snow sublimation, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QSUBC\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QSUBC\"},\"ALBEDO\":{\"type\":\"data\",\"unit\":\"-\",\"attrs\":{\"units\":\"-\",\"stagger\":\"\",\"long_name\":\"Surface
+        albedo including snow effects\",\"description\":\"ALBEDO\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"ALBEDO\"},\"CANICE\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"description\":\"intercepted
+        ice mass\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"intercepted
+        ice mass\"},\"CANWAT\":{\"type\":\"data\",\"unit\":\"kg m-2\",\"attrs\":{\"units\":\"kg
+        m-2\",\"stagger\":\"\",\"description\":\"CANOPY WATER\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"CANOPY
+        WATER\"},\"CLDFRA\":{\"type\":\"data\",\"unit\":\"\",\"attrs\":{\"units\":\"\",\"stagger\":\"\",\"description\":\"CLOUD
+        FRACTION\",\"number_of_significant_digits\":4},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"CLOUD
+        FRACTION\"},\"COSZEN\":{\"type\":\"data\",\"unit\":\"dimensionless\",\"attrs\":{\"units\":\"dimensionless\",\"stagger\":\"\",\"description\":\"COS
+        of SOLAR ZENITH ANGLE\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"COS
+        of SOLAR ZENITH ANGLE\"},\"LWDNBC\":{\"type\":\"data\",\"unit\":\"W m-2\",\"attrs\":{\"units\":\"W
+        m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS DOWNWELLING CLEAR SKY
+        LONGWAVE FLUX AT BOTTOM\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM\"},\"LWDNTC\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP\"},\"LWUPBC\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM\"},\"LWUPTC\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP\"},\"MLCAPE\":{\"type\":\"data\",\"unit\":\"J
+        kg-1\",\"attrs\":{\"units\":\"J kg-1\",\"stagger\":\"\",\"long_name\":\"Mixed-layer
+        convective available potential energy (CAPE)\",\"description\":\"MIXED-LAYER
+        CAPE\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"MIXED-LAYER
+        CAPE\"},\"MLCINH\":{\"type\":\"data\",\"unit\":\"J kg-1\",\"attrs\":{\"units\":\"J
+        kg-1\",\"stagger\":\"\",\"long_name\":\"Mixed-layer convective inhibition
+        up to the level of free convection (CINH)\",\"description\":\"MIXED-LAYER
+        CINH\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"MIXED-LAYER
+        CINH\"},\"MUCAPE\":{\"type\":\"data\",\"unit\":\"J kg-1\",\"attrs\":{\"units\":\"J
+        kg-1\",\"stagger\":\"\",\"long_name\":\"Most-unstable convective available
+        potential energy (CAPE)\",\"description\":\"MOST-UNSTABLE CAPE\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"MOST-UNSTABLE
+        CAPE\"},\"MUCINH\":{\"type\":\"data\",\"unit\":\"J kg-1\",\"attrs\":{\"units\":\"J
+        kg-1\",\"stagger\":\"\",\"long_name\":\"Most-unstable convective inhibition
+        up to the level of free convection (CINH)\",\"description\":\"MOST-UNSTABLE
+        CINH\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"MOST-UNSTABLE
+        CINH\"},\"QCLOUD\":{\"type\":\"data\",\"unit\":\"kg kg-1\",\"attrs\":{\"units\":\"kg
+        kg-1\",\"stagger\":\"\",\"description\":\"Cloud water mixing ratio\"},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"Cloud
+        water mixing ratio\"},\"QGRAUP\":{\"type\":\"data\",\"unit\":\"kg kg-1\",\"attrs\":{\"units\":\"kg
+        kg-1\",\"stagger\":\"\",\"description\":\"Graupel mixing ratio\"},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"Graupel
+        mixing ratio\"},\"QNRAIN\":{\"type\":\"data\",\"unit\":\"  kg(-1)\",\"attrs\":{\"units\":\"
+        \ kg(-1)\",\"stagger\":\"\",\"description\":\"Rain Number concentration\"},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"Rain
+        Number concentration\"},\"QVAPOR\":{\"type\":\"data\",\"unit\":\"kg kg-1\",\"attrs\":{\"units\":\"kg
+        kg-1\",\"stagger\":\"\",\"description\":\"Water vapor mixing ratio\"},\"shape\":[376944,50,1015,1367],\"chunks\":[1,1,1015,1367],\"dimensions\":[\"time\",\"bottom_top\",\"south_north\",\"west_east\"],\"description\":\"Water
+        vapor mixing ratio\"},\"SBCAPE\":{\"type\":\"data\",\"unit\":\"J kg-1\",\"attrs\":{\"units\":\"J
+        kg-1\",\"stagger\":\"\",\"long_name\":\"Surface-based convective available
+        potential energy (CAPE)\",\"description\":\"SURFACE-BASED CAPE\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"SURFACE-BASED
+        CAPE\"},\"SBCINH\":{\"type\":\"data\",\"unit\":\"J kg-1\",\"attrs\":{\"units\":\"J
+        kg-1\",\"stagger\":\"\",\"long_name\":\"Surface-based convective inhibition
+        up to the level of free convection (CINH)\",\"description\":\"SURFACE-BASED
+        CINH\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"SURFACE-BASED
+        CINH\"},\"SEAICE\":{\"type\":\"data\",\"unit\":\"\",\"attrs\":{\"units\":\"\",\"stagger\":\"\",\"description\":\"SEA
+        ICE FLAG\",\"number_of_significant_digits\":3},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"SEA
+        ICE FLAG\"},\"SMCWTD\":{\"type\":\"data\",\"unit\":\"m3 m-3\",\"attrs\":{\"units\":\"m3
+        m-3\",\"stagger\":\"\",\"description\":\"deep soil moisture\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"deep
+        soil moisture\"},\"SWDNBC\":{\"type\":\"data\",\"unit\":\"W m-2\",\"attrs\":{\"units\":\"W
+        m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS DOWNWELLING CLEAR SKY
+        SHORTWAVE FLUX AT BOTTOM\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM\"},\"SWDNTC\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP\"},\"SWDOWN\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"DOWNWARD
+        SHORT WAVE FLUX AT GROUND SURFACE\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"DOWNWARD
+        SHORT WAVE FLUX AT GROUND SURFACE\"},\"SWNORM\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"NORMAL
+        SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"NORMAL
+        SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)\"},\"SWUPBC\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM\"},\"SWUPTC\":{\"type\":\"data\",\"unit\":\"W
+        m-2\",\"attrs\":{\"units\":\"W m-2\",\"stagger\":\"\",\"description\":\"INSTANTANEOUS
+        UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP\",\"number_of_significant_digits\":5},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"INSTANTANEOUS
+        UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP\"},\"U_BUNK\":{\"type\":\"data\",\"unit\":\"ms-1\",\"attrs\":{\"units\":\"ms-1\",\"stagger\":\"\",\"description\":\"U-component
+        of Bunkers storm motion\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"U-component
+        of Bunkers storm motion\"},\"V_BUNK\":{\"type\":\"data\",\"unit\":\"ms-1\",\"attrs\":{\"units\":\"ms-1\",\"stagger\":\"\",\"description\":\"V-component
+        of Bunkers storm motion\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"V-component
+        of Bunkers storm motion\"},\"ACDRIPR\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        canopy precipitation drip rate, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QDRIPR\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QDRIPR\"},\"ACDRIPS\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        canopy snow drip rate, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QDRIPS\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QDRIPS\"},\"ACETLSM\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        total evaporation, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        ET\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        ET\"},\"ACETRAN\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        plant transpiration, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        ETRAN\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        ETRAN\"},\"ACLWDNB\":{\"type\":\"data\",\"unit\":\"J m-2\",\"attrs\":{\"units\":\"J
+        m-2\",\"stagger\":\"\",\"long_name\":\"Accumulated downwelling longwave radiation
+        flux at bottom, accumulated since last bucket_J (1.0e9 J m-2) reset\",\"description\":\"ACCUMULATED
+        DOWNWELLING LONGWAVE FLUX AT BOTTOM\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"ACCUMULATED
+        DOWNWELLING LONGWAVE FLUX AT BOTTOM\"},\"ACLWDNT\":{\"type\":\"data\",\"unit\":\"J
+        m-2\",\"attrs\":{\"units\":\"J m-2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        downwelling longwave radiation flux at top, accumulated since last bucket_J
+        (1.0e9 J m-2) reset\",\"description\":\"ACCUMULATED DOWNWELLING LONGWAVE FLUX
+        AT TOP\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"ACCUMULATED
+        DOWNWELLING LONGWAVE FLUX AT TOP\"},\"ACLWUPB\":{\"type\":\"data\",\"unit\":\"J
+        m-2\",\"attrs\":{\"units\":\"J m-2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        upwelling longwave radiation flux at bottom, accumulated since last bucket_J
+        (1.0e9 J m-2) reset\",\"description\":\"ACCUMULATED UPWELLING LONGWAVE FLUX
+        AT BOTTOM\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"ACCUMULATED
+        UPWELLING LONGWAVE FLUX AT BOTTOM\"},\"ACLWUPT\":{\"type\":\"data\",\"unit\":\"J
+        m-2\",\"attrs\":{\"units\":\"J m-2\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        upwelling longwave radiation flux at top, accumulated since last bucket_J
+        (1.0e9 J m-2) reset\",\"description\":\"ACCUMULATED UPWELLING LONGWAVE FLUX
+        AT TOP\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"ACCUMULATED
+        UPWELLING LONGWAVE FLUX AT TOP\"},\"ACMELTC\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        canopy snow melt, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QMELTC\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QMELTC\"},\"ACRUNSB\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        subsurface runoff, accumulated over prior 60 minutes\",\"description\":\"Accumulated
+        RUNSB\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"Accumulated
+        RUNSB\"},\"ACRUNSF\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        surface runoff, accumulated over prior 60 minutes\",\"description\":\"Accumulated
+        RUNSF\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"Accumulated
+        RUNSF\"},\"ACSNBOT\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        liquid water flux out of bottom of snowpack, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QSNBOT\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QSNBOT\"},\"ACSNFRO\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
+        snowpack frost, accumulated over prior 60 minutes\",\"description\":\"acccumlated
+        QSNFRO\"},\"shape\":[376944,1015,1367],\"chunks\":[1,1015,1367],\"dimensions\":[\"time\",\"south_north\",\"west_east\"],\"description\":\"acccumlated
+        QSNFRO\"},\"ACSNSUB\":{\"type\":\"data\",\"unit\":\"mm\",\"attrs\":{\"units\":\"mm\",\"stagger\":\"\",\"long_name\":\"Accumulated
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+      string: '{"id":"era5-pds","type":"Collection","links":[{"rel":"items","type":"application/geo+json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/era5-pds/items"},{"rel":"parent","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/"},{"rel":"root","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/"},{"rel":"self","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections/era5-pds"},{"rel":"license","href":"https://apps.ecmwf.int/datasets/licences/copernicus/","type":"application/pdf","title":"License
+        to Use Copernicus Products"},{"rel":"describedby","href":"https://confluence.ecmwf.int/display/CKB/ERA5","type":"text/html","title":"Project
+        homepage"},{"rel":"describedby","href":"https://confluence.ecmwf.int/display/CKB/How+to+acknowledge+and+cite+a+Climate+Data+Store+%28CDS%29+catalogue+entry+and+the+data+published+as+part+of+it","type":"text/html","title":"How
+        to cite"},{"rel":"describedby","href":"https://planetarycomputer.microsoft.com/dataset/era5-pds","title":"Human
+        readable dataset overview and reference","type":"text/html"}],"title":"ERA5
+        - PDS","assets":{"thumbnail":{"href":"https://ai4edatasetspublicassets.blob.core.windows.net/assets/pc_thumbnails/era5-thumbnail.png","type":"image/png","title":"Thumbnail"},"geoparquet-items":{"href":"abfs://items/era5-pds.parquet","roles":["stac-items"],"title":"GeoParquet
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+        OS","roles":["processor"]},{"url":"https://planetarycomputer.microsoft.com","name":"Microsoft","roles":["host"]}],"summaries":{"era5:kind":["fc","an"]},"description":"ERA5
+        is the fifth generation ECMWF atmospheric reanalysis of the global climate\ncovering
+        the period from January 1950 to present. ERA5 is produced by the\nCopernicus
+        Climate Change Service (C3S) at ECMWF.\n\nReanalysis combines model data with
+        observations from across the world into a\nglobally complete and consistent
+        dataset using the laws of physics. This\nprinciple, called data assimilation,
+        is based on the method used by numerical\nweather prediction centres, where
+        every so many hours (12 hours at ECMWF) a\nprevious forecast is combined with
+        newly available observations in an optimal\nway to produce a new best estimate
+        of the state of the atmosphere, called\nanalysis, from which an updated, improved
+        forecast is issued. Reanalysis works\nin the same way, but at reduced resolution
+        to allow for the provision of a\ndataset spanning back several decades. Reanalysis
+        does not have the constraint\nof issuing timely forecasts, so there is more
+        time to collect observations, and\nwhen going further back in time, to allow
+        for the ingestion of improved versions\nof the original observations, which
+        all benefit the quality of the reanalysis\nproduct.\n\nThis dataset was converted
+        to Zarr by [Planet OS](https://planetos.com/).\nSee [their documentation](https://github.com/planet-os/notebooks/blob/master/aws/era5-pds.md)\nfor
+        more.\n\n## STAC Metadata\n\nTwo types of data variables are provided: \"forecast\"
+        (`fc`) and \"analysis\" (`an`).\n\n* An **analysis**, of the atmospheric conditions,
+        is a blend of observations\n  with a previous forecast. An analysis can only
+        provide\n  [instantaneous](https://confluence.ecmwf.int/display/CKB/Model+grid+box+and+time+step)\n  parameters
+        (parameters valid at a specific time, e.g temperature at 12:00),\n  but not
+        accumulated parameters, mean rates or min/max parameters.\n* A **forecast**
+        starts with an analysis at a specific time (the ''initialization\n  time''),
+        and a model computes the atmospheric conditions for a number of\n  ''forecast
+        steps'', at increasing ''validity times'', into the future. A forecast\n  can
+        provide\n  [instantaneous](https://confluence.ecmwf.int/display/CKB/Model+grid+box+and+time+step)\n  parameters,
+        accumulated parameters, mean rates, and min/max parameters.\n\nEach [STAC](https://stacspec.org/)
+        item in this collection covers a single month\nand the entire globe. There
+        are two STAC items per month, one for each type of data\nvariable (`fc` and
+        `an`). The STAC items include an `ecmwf:kind` properties to\nindicate which
+        kind of variables that STAC item catalogs.\n\n## How to acknowledge, cite
+        and refer to ERA5\n\nAll users of data on the Climate Data Store (CDS) disks
+        (using either the web interface or the CDS API) must provide clear and visible
+        attribution to the Copernicus programme and are asked to cite and reference
+        the dataset provider:\n\nAcknowledge according to the [licence to use Copernicus
+        Products](https://cds.climate.copernicus.eu/api/v2/terms/static/licence-to-use-copernicus-products.pdf).\n\nCite
+        each dataset used as indicated on the relevant CDS entries (see link to \"Citation\"
+        under References on the Overview page of the dataset entry).\n\nThroughout
+        the content of your publication, the dataset used is referred to as Author
+        (YYYY).\n\nThe 3-steps procedure above is illustrated with this example: [Use
+        Case 2: ERA5 hourly data on single levels from 1979 to present](https://confluence.ecmwf.int/display/CKB/Use+Case+2%3A+ERA5+hourly+data+on+single+levels+from+1979+to+present).\n\nFor
+        complete details, please refer to [How to acknowledge and cite a Climate Data
+        Store (CDS) catalogue entry and the data published as part of it](https://confluence.ecmwf.int/display/CKB/How+to+acknowledge+and+cite+a+Climate+Data+Store+%28CDS%29+catalogue+entry+and+the+data+published+as+part+of+it).","item_assets":{"surface_air_pressure":{"type":"application/vnd+zarr","roles":["data"],"title":"Surface
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+        Florida Bayhead Swamp","South Florida Cypress Dome","South Florida Dwarf Cypress
+        Savanna","South Florida Mangrove Swamp","South Florida Hardwood Hammock","Southeast
+        Florida Coastal Strand and Maritime Hammock","Southwest Florida Coastal Strand
+        and Maritime Hammock","South Florida Pine Rockland","Atlantic Coastal Plain
+        Fall-line Sandhills Longleaf Pine Woodland - Open Understory","Atlantic Coastal
+        Plain Fall-line Sandhills Longleaf Pine Woodland - Scrub/Shrub Understory","Atlantic
+        Coastal Plain Upland Longleaf Pine Woodland","Atlantic Coastal Plain Xeric
+        River Dune","East Gulf Coastal Plain Interior Upland Longleaf Pine Woodland
+        - Open Understory Modifier","East Gulf Coastal Plain Interior Upland Longleaf
+        Pine Woodland - Scrub/Shrub Modifier","Florida Longleaf Pine Sandhill - Scrub/Shrub
+        Understory Modifier","Florida Longleaf Pine Sandhill- Open Understory Modifier","West
+        Gulf Coastal Plain Upland Longleaf Pine Forest and Woodland","Atlantic Coastal
+        Plain Central Maritime Forest","Atlantic Coastal Plain Southern Maritime Forest","Central
+        and South Texas Coastal Fringe Forest and Woodland","East Gulf Coastal Plain
+        Limestone Forest","East Gulf Coastal Plain Maritime Forest","East Gulf Coastal
+        Plain Southern Loess Bluff Forest","East Gulf Coastal Plain Southern Mesic
+        Slope Forest","Mississippi Delta Maritime Forest","Southern Coastal Plain
+        Dry Upland Hardwood Forest","Southern Coastal Plain Oak Dome and Hammock","West
+        Gulf Coastal Plain Chenier and Upper Texas Coastal Fringe Forest and Woodland","West
+        Gulf Coastal Plain Mesic Hardwood Forest","East-Central Texas Plains Pine
+        Forest and Woodland","West Gulf Coastal Plain Pine-Hardwood Forest","West
+        Gulf Coastal Plain Sandhill Oak and Shortleaf Pine Forest and Woodland","Atlantic
+        Coastal Plain Fall-Line Sandhills Longleaf Pine Woodland - Loblolly Modifier","Deciduous
+        Plantations","East Gulf Coastal Plain Interior Upland Longleaf Pine Woodland
+        - Loblolly Modifier","East Gulf Coastal Plain Interior Upland Longleaf Pine
+        Woodland - Offsite Hardwood Modifier","East Gulf Coastal Plain Near-Coast
+        Pine Flatwoods - Offsite Hardwood Modifier","Evergreen Plantation or Managed
+        Pine","California Central Valley Mixed Oak Savanna","California Coastal Closed-Cone
+        Conifer Forest and Woodland","California Coastal Live Oak Woodland and Savanna","California
+        Lower Montane Blue Oak-Foothill Pine Woodland and Savanna","Central and Southern
+        California Mixed Evergreen Woodland","Mediterranean California Lower Montane
+        Black Oak-Conifer Forest and Woodland","Southern California Oak Woodland and
+        Savanna","Madrean Encinal","Madrean Pinyon-Juniper Woodland","Madrean Pine-Oak
+        Forest and Woodland","Madrean Upper Montane Conifer-Oak Forest and Woodland","Edwards
+        Plateau Dry-Mesic Slope Forest and Woodland","Edwards Plateau Limestone Savanna
+        and Woodland","Edwards Plateau Mesic Canyon","Llano Uplift Acidic Forest,
+        Woodland and Glade","East Cascades Oak-Ponderosa Pine Forest and Woodland","Mediterranean
+        California Mixed Evergreen Forest","Mediterranean California Mixed Oak Woodland","North
+        Pacific Dry Douglas-fir-(Madrone) Forest and Woodland","North Pacific Oak
+        Woodland","Edwards Plateau Limestone Shrubland","Allegheny-Cumberland Dry
+        Oak Forest and Woodland - Hardwood","Allegheny-Cumberland Dry Oak Forest and
+        Woodland - Pine Modifier","Central and Southern Appalachian Montane Oak Forest","Central
+        and Southern Appalachian Northern Hardwood Forest","Central Appalachian Oak
+        and Pine Forest","Crosstimbers Oak Forest and Woodland","East Gulf Coastal
+        Plain Black Belt Calcareous Prairie and Woodland - Woodland Modifier","East
+        Gulf Coastal Plain Northern Dry Upland Hardwood Forest","East Gulf Coastal
+        Plain Northern Loess Plain Oak-Hickory Upland - Hardwood Modifier","East Gulf
+        Coastal Plain Northern Loess Plain Oak-Hickory Upland - Juniper Modifier","East-Central
+        Texas Plains Post Oak Savanna and Woodland","Lower Mississippi River Dune
+        Woodland and Forest","Mississippi River Alluvial Plain Dry-Mesic Loess Slope
+        Forest","North-Central Interior Dry Oak Forest and Woodland","North-Central
+        Interior Dry-Mesic Oak Forest and Woodland","Northeastern Interior Dry Oak
+        Forest - Mixed Modifier","Northeastern Interior Dry Oak Forest - Virginia/Pitch
+        Pine Modifier","Northeastern Interior Dry Oak Forest-Hardwood Modifier","Northeastern
+        Interior Dry-Mesic Oak Forest","Northern Atlantic Coastal Plain Dry Hardwood
+        Forest","Crowley''s Ridge Sand Forest","Ouachita Montane Oak Forest","Ozark-Ouachita
+        Dry Oak Woodland","Ozark-Ouachita Dry-Mesic Oak Forest","Southern and Central
+        Appalachian Oak Forest","Southern and Central Appalachian Oak Forest - Xeric","Southern
+        Interior Low Plateau Dry-Mesic Oak Forest","Southern Ridge and Valley Dry
+        Calcareous Forest","Southern Ridge and Valley Dry Calcareous Forest - Pine
+        modifier","East Gulf Coastal Plain Northern Dry Upland Hardwood Forest - Offsite
+        Pine Modifier","Managed Tree Plantation","Ruderal forest","Southern Piedmont
+        Dry Oak-(Pine) Forest - Loblolly Pine Modifier","Acadian Low-Elevation Spruce-Fir-Hardwood
+        Forest","Acadian-Appalachian Montane Spruce-Fir Forest","Appalachian Hemlock-Hardwood
+        Forest","Central and Southern Appalachian Spruce-Fir Forest","0","Laurentian-Acadian
+        Northern Hardwoods Forest","Laurentian-Acadian Northern Pine-(Oak) Forest","Laurentian-Acadian
+        Pine-Hemlock-Hardwood Forest","Paleozoic Plateau Bluff and Talus","Southern
+        Appalachian Northern Hardwood Forest","Atlantic Coastal Plain Dry and Dry-Mesic
+        Oak Forest","Atlantic Coastal Plain Fall-line Sandhills Longleaf Pine Woodland
+        - Offsite Hardwood","East Gulf Coastal Plain Interior Shortleaf Pine-Oak Forest
+        - Hardwood Modifier","East Gulf Coastal Plain Interior Shortleaf Pine-Oak
+        Forest - Mixed Modifier","Ozark-Ouachita Shortleaf Pine-Bluestem Woodland","Ozark-Ouachita
+        Shortleaf Pine-Oak Forest and Woodland","Southeastern Interior Longleaf Pine
+        Woodland","Southern Appalachian Low Mountain Pine Forest","Southern Piedmont
+        Dry Oak-(Pine) Forest","Southern Piedmont Dry Oak-(Pine) Forest - Hardwood
+        Modifier","Southern Piedmont Dry Oak-(Pine) Forest - Mixed Modifier","Southern
+        Piedmont Dry Oak-Heath Forest - Mixed Modifier","Eastern Great Plains Tallgrass
+        Aspen Parkland","Northwestern Great Plains Aspen Forest and Parkland","Northwestern
+        Great Plains Shrubland","Western Great Plains Dry Bur Oak Forest and Woodland","Western
+        Great Plains Wooded Draw and Ravine","Southern Atlantic Coastal Plain Mesic
+        Hardwood Forest","East Gulf Coastal Plain Northern Loess Bluff Forest","East
+        Gulf Coastal Plain Northern Mesic Hardwood Forest","North-Central Interior
+        Beech-Maple Forest","North-Central Interior Maple-Basswood Forest","Ozark-Ouachita
+        Mesic Hardwood Forest","South-Central Interior Mesophytic Forest","Southern
+        and Central Appalachian Cove Forest","Crowley''s Ridge Mesic Loess Slope Forest","Southern
+        Piedmont Mesic Forest","Appalachian Shale Barrens","Atlantic Coastal Plain
+        Northern Maritime Forest","Laurentian Pine-Oak Barrens","Northeastern Interior
+        Pine Barrens","Northern Atlantic Coastal Plain Pitch Pine Barrens","Southern
+        Appalachian Montane Pine Forest and Woodland","East Cascades Mesic Montane
+        Mixed-Conifer Forest and Woodland","Middle Rocky Mountain Montane Douglas-fir
+        Forest and Woodland","Northern Rocky Mountain Dry-Mesic Montane Mixed Conifer
+        Forest","Northern Rocky Mountain Foothill Conifer Wooded Steppe","Northern
+        Rocky Mountain Mesic Montane Mixed Conifer Forest","Northern Rocky Mountain
+        Ponderosa Pine Woodland and Savanna","Northern Rocky Mountain Western Larch
+        Savanna","Northwestern Great Plains - Black Hills Ponderosa Pine Woodland
+        and Savanna","Rocky Mountain Foothill Limber Pine-Juniper Woodland","Inter-Mountain
+        Basins Aspen-Mixed Conifer Forest and Woodland","Inter-Mountain Basins Subalpine
+        Limber-Bristlecone Pine Woodland","Northern Rocky Mountain Subalpine Woodland
+        and Parkland","Rocky Mountain Aspen Forest and Woodland","Rocky Mountain Lodgepole
+        Pine Forest","Rocky Mountain Poor-Site Lodgepole Pine Forest","Rocky Mountain
+        Subalpine Dry-Mesic Spruce-Fir Forest and Woodland","Rocky Mountain Subalpine
+        Mesic Spruce-Fir Forest and Woodland","Rocky Mountain Subalpine-Montane Limber-Bristlecone
+        Pine Woodland","Rocky Mountain Bigtooth Maple Ravine Woodland","Southern Rocky
+        Mountain Dry-Mesic Montane Mixed Conifer Forest and Woodland","Southern Rocky
+        Mountain Mesic Montane Mixed Conifer Forest and Woodland","Southern Rocky
+        Mountain Ponderosa Pine Savanna","Southern Rocky Mountain Ponderosa Pine Woodland","California
+        Montane Jeffrey Pine-(Ponderosa Pine) Woodland","Klamath-Siskiyou Lower Montane
+        Serpentine Mixed Conifer Woodland","Klamath-Siskiyou Upper Montane Serpentine
+        Mixed Conifer Woodland","Mediterranean California Dry-Mesic Mixed Conifer
+        Forest and Woodland","Mediterranean California Mesic Mixed Conifer Forest
+        and Woodland","Sierran-Intermontane Desert Western White Pine-White Fir Woodland","California
+        Coastal Redwood Forest","North Pacific Broadleaf Landslide Forest and Shrubland","North
+        Pacific Dry-Mesic Silver Fir-Western Hemlock-Douglas-fir Forest","North Pacific
+        Hypermaritime Sitka Spruce Forest","North Pacific Hypermaritime Western Red-cedar-Western
+        Hemlock Forest","North Pacific Lowland Mixed Hardwood-Conifer Forest and Woodland","North
+        Pacific Maritime Dry-Mesic Douglas-fir-Western Hemlock Forest","North Pacific
+        Maritime Mesic-Wet Douglas-fir-Western Hemlock Forest","North Pacific Mesic
+        Western Hemlock-Silver Fir Forest","North Pacific Wooded Volcanic Flowage","Mediterranean
+        California Red Fir Forest","Mediterranean California Subalpine Woodland","North
+        Pacific Maritime Mesic Subalpine Parkland","North Pacific Mountain Hemlock
+        Forest","Northern California Mesic Subalpine Woodland","Northern Pacific Mesic
+        Subalpine Woodland","Sierra Nevada Subalpine Lodgepole Pine Forest and Woodland","Columbia
+        Plateau Western Juniper Woodland and Savanna","Great Basin Pinyon-Juniper
+        Woodland","Inter-Mountain Basins Curl-leaf Mountain Mahogany Woodland and
+        Shrubland","Inter-Mountain Basins Juniper Savanna","Colorado Plateau Pinyon-Juniper
+        Shrubland","Colorado Plateau Pinyon-Juniper Woodland","Southern Rocky Mountain
+        Juniper Woodland and Savanna","Southern Rocky Mountain Pinyon-Juniper Woodland","Northwestern
+        Great Plains Floodplain","Northwestern Great Plains Riparian","Western Great
+        Plains Floodplain","Western Great Plains Floodplain Systems","Western Great
+        Plains Riparian Woodland and Shrubland","Central Appalachian Floodplain -
+        Forest Modifier","Central Appalachian Riparian - Forest Modifier","Central
+        Interior and Appalachian Floodplain Systems","Central Interior and Appalachian
+        Riparian Systems","Laurentian-Acadian Floodplain Systems","Ozark-Ouachita
+        Riparian","South-Central Interior Large Floodplain","South-Central Interior
+        Large Floodplain - Forest Modifier","South-Central Interior Small Stream and
+        Riparian","North-Central Interior and Appalachian Rich Swamp","0","0","Laurentian-Acadian
+        Swamp Systems","North-Central Interior Wet Flatwoods","0","South-Central Interior
+        / Upper Coastal Plain Wet Flatwoods","0","Southern Piedmont/Ridge and Valley
+        Upland Depression Swamp","Atlantic Coastal Plain Blackwater Stream Floodplain
+        Forest - Forest Modifier","Atlantic Coastal Plain Brownwater Stream Floodplain
+        Forest","Atlantic Coastal Plain Northern Tidal Wooded Swamp","Atlantic Coastal
+        Plain Small Blackwater River Floodplain Forest","Atlantic Coastal Plain Small
+        Brownwater River Floodplain Forest","Atlantic Coastal Plain Southern Tidal
+        Wooded Swamp","East Gulf Coastal Plain Large River Floodplain Forest - Forest
+        Modifier","East Gulf Coastal Plain Small Stream and River Floodplain Forest","East
+        Gulf Coastal Plain Tidal Wooded Swamp","0","Southeastern Great Plains Riparian
+        Forest","Southeastern Great Plains Floodplain Forest","Mississippi River Bottomland
+        Depression","Mississippi River Floodplain and Riparian Forest","Mississippi
+        River Low Floodplain (Bottomland) Forest","Mississippi River Riparian Forest","Red
+        River Large Floodplain Forest","Southern Coastal Plain Blackwater River Floodplain
+        Forest","Southern Piedmont Large Floodplain Forest - Forest Modifier","Southern
+        Piedmont Small Floodplain and Riparian Forest","West Gulf Coastal Plain Large
+        River Floodplain Forest","West Gulf Coastal Plain Near-Coast Large River Swamp","West
+        Gulf Coastal Plain Small Stream and River Forest","Atlantic Coastal Plain
+        Streamhead Seepage Swamp -  Pocosin -  and Baygall","Gulf and Atlantic Coastal
+        Plain Swamp Systems","Southern Coastal Plain Hydric Hammock","Southern Coastal
+        Plain Seepage Swamp and Baygall","West Gulf Coastal Plain Seepage Swamp and
+        Baygall","Atlantic Coastal Plain Nonriverine Swamp and Wet Hardwood Forest  -
+        Taxodium/Nyssa Modifier","Atlantic Coastal Plain Nonriverine Swamp and Wet
+        Hardwood Forest - Oak Dominated Modifier","East Gulf Coastal Plain Southern
+        Loblolly-Hardwood Flatwoods","Lower Mississippi River Bottomland Depressions
+        - Forest Modifier","Lower Mississippi River Flatwoods","Northern Atlantic
+        Coastal Plain Basin Swamp and Wet Hardwood Forest","Southern Coastal Plain
+        Nonriverine Basin Swamp","Southern Coastal Plain Nonriverine Basin Swamp -
+        Okefenokee Bay/Gum Modifier","Southern Coastal Plain Nonriverine Basin Swamp
+        - Okefenokee Pine Modifier","Southern Coastal Plain Nonriverine Basin Swamp
+        - Okefenokee Taxodium Modifier","West Gulf Coastal Plain Nonriverine Wet Hardwood
+        Flatwoods","West Gulf Coastal Plain Pine-Hardwood Flatwoods","Edwards Plateau
+        Riparian","Atlantic Coastal Plain Clay-Based Carolina Bay Forested Wetland","Atlantic
+        Coastal Plain Clay-Based Carolina Bay Herbaceous Wetland","Atlantic Coastal
+        Plain Southern Wet Pine Savanna and Flatwoods","Central Atlantic Coastal Plain
+        Wet Longleaf Pine Savanna and Flatwoods","Central Florida Pine Flatwoods","East
+        Gulf Coastal Plain Near-Coast Pine Flatwoods","East Gulf Coastal Plain Near-Coast
+        Pine Flatwoods - Open Understory Modifier","East Gulf Coastal Plain Near-Coast
+        Pine Flatwoods - Scrub/Shrub Understory Modifier","South Florida Pine Flatwoods","Southern
+        Coastal Plain Nonriverine Cypress Dome","West Gulf Coastal Plain Wet Longleaf
+        Pine Savanna and Flatwoods","Columbia Basin Foothill Riparian Woodland and
+        Shrubland","Great Basin Foothill and Lower Montane Riparian Woodland and Shrubland","0","Northern
+        Rocky Mountain Conifer Swamp","Northern Rocky Mountain Lower Montane Riparian
+        Woodland and Shrubland","Rocky Mountain Lower Montane Riparian Woodland and
+        Shrubland","Rocky Mountain Montane Riparian Systems","Rocky Mountain Subalpine-Montane
+        Riparian Woodland","North Pacific Hardwood-Conifer Swamp","North Pacific Lowland
+        Riparian Forest and Shrubland","North Pacific Montane Riparian Woodland and
+        Shrubland","North Pacific Shrub Swamp","California Central Valley Riparian
+        Woodland and Shrubland","Mediterranean California Foothill and Lower Montane
+        Riparian Woodland","Mediterranean California Serpentine Foothill and Lower
+        Montane Riparian Woodland and Seep","North American Warm Desert Lower Montane
+        Riparian Woodland and Shrubland","North American Warm Desert Riparian Systems","North
+        American Warm Desert Riparian Woodland and Shrubland","Tamaulipan Floodplain","Tamaulipan
+        Riparian Systems","Boreal Aspen-Birch Forest","Boreal Jack Pine-Black Spruce
+        Forest","Boreal White Spruce-Fir-Hardwood Forest","Boreal-Laurentian Conifer
+        Acidic Swamp and Treed Poor Fen","Eastern Boreal Floodplain","South Florida
+        Shell Hash Beach","Southeast Florida Beach","Southwest Florida Beach","South
+        Florida Everglades Sawgrass Marsh","South Florida Freshwater Slough and Gator
+        Hole","South Florida Wet Marl Prairie","California Maritime Chaparral","California
+        Mesic Chaparral","California Xeric Serpentine Chaparral","Klamath-Siskiyou
+        Xeromorphic Serpentine Savanna and Chaparral","Mediterranean California Mesic
+        Serpentine Woodland and Chaparral","Northern and Central California Dry-Mesic
+        Chaparral","Southern California Dry-Mesic Chaparral","Southern California
+        Coastal Scrub","California Central Valley and Southern Coastal Grassland","California
+        Mesic Serpentine Grassland","Columbia Basin Foothill and Canyon Dry Grassland","Columbia
+        Basin Palouse Prairie","North Pacific Alpine and Subalpine Dry Grassland","North
+        Pacific Montane Grassland","North Pacific Montane Shrubland","Northern Rocky
+        Mountain Lower Montane, Foothill and Valley Grassland","Northern Rocky Mountain
+        Montane-Foothill Deciduous Shrubland","Northern Rocky Mountain Subalpine Deciduous
+        Shrubland","Northern Rocky Mountain Subalpine-Upper Montane Grassland","Southern
+        Rocky Mountain Montane-Subalpine Grassland","Rocky Mountain Gambel Oak-Mixed
+        Montane Shrubland","Rocky Mountain Lower Montane-Foothill Shrubland","California
+        Northern Coastal Grassland","North Pacific Herbaceous Bald and Bluff","North
+        Pacific Hypermaritime Shrub and Herbaceous Headland","Willamette Valley Upland
+        Prairie and Savanna","Mediterranean California Subalpine Meadow","Rocky Mountain
+        Subalpine-Montane Mesic Meadow","Central Mixedgrass Prairie","Northwestern
+        Great Plains Mixedgrass Prairie","Western Great Plains Foothill and Piedmont
+        Grassland","Western Great Plains Tallgrass Prairie","Western Great Plains
+        Sand Prairie","Western Great Plains Sandhill Steppe","Western Great Plains
+        Mesquite Woodland and Shrubland","Western Great Plains Shortgrass Prairie","Arkansas
+        Valley Prairie and Woodland","Central Tallgrass Prairie","North-Central Interior
+        Oak Savanna","North-Central Interior Sand and Gravel Tallgrass Prairie","North-Central
+        Oak Barrens","Northern Tallgrass Prairie","Southeastern Great Plains Tallgrass
+        Prairie","Texas Blackland Tallgrass Prairie","Texas-Louisiana Coastal Prairie","Central
+        Appalachian Pine-Oak Rocky Woodland","Southern Appalachian Grass and Shrub
+        Bald","Southern Appalachian Grass and Shrub Bald - Herbaceous Modifier","Southern
+        Appalachian Grass and Shrub Bald - Shrub Modifier","Central Appalachian Alkaline
+        Glade and Woodland","Central Interior Highlands Calcareous Glade and Barrens","Central
+        Interior Highlands Dry Acidic Glade and Barrens","Cumberland Sandstone Glade
+        and Barrens","Great Lakes Alvar","Nashville Basin Limestone Glade","Southern
+        Ridge and Valley / Cumberland Dry Calcareous Forest","Southern Piedmont Glade
+        and Barrens","East Gulf Coastal Plain Black Belt Calcareous Prairie and Woodland
+        - Herbaceous Modifier","East Gulf Coastal Plain Jackson Prairie and Woodland","Eastern
+        Highland Rim Prairie and Barrens - Dry Modifier","Coahuilan Chaparral","Madrean
+        Oriental Chaparral","Mogollon Chaparral","Sonora-Mojave Semi-Desert Chaparral","California
+        Montane Woodland and Chaparral","Great Basin Semi-Desert Chaparral","Florida
+        Dry Prairie","Florida Peninsula Inland Scrub","West Gulf Coastal Plain Catahoula
+        Barrens","West Gulf Coastal Plain Nepheline Syenite Glade","East Gulf Coastal
+        Plain Jackson Plain Dry Flatwoods - Open Understory Modifier","West Gulf Coastal
+        Plain Northern Calcareous Prairie","West Gulf Coastal Plain Southern Calcareous
+        Prairie","Acadian-Appalachian Subalpine Woodland and Heath-Krummholz","Atlantic
+        and Gulf Coastal Plain Interdunal Wetland","Atlantic Coastal Plain Southern
+        Dune and Maritime Grassland","Central and Upper Texas Coast Dune and Coastal
+        Grassland","East Gulf Coastal Plain Dune and Coastal Grassland","Great Lakes
+        Dune","Northern Atlantic Coastal Plain Dune and Swale","Northern Atlantic
+        Coastal Plain Heathland and Grassland","South Texas Dune and Coastal Grassland","South
+        Texas Sand Sheet Grassland","Southwest Florida Dune and Coastal Grassland","North
+        Pacific Coastal Cliff and Bluff","North Pacific Maritime Coastal Sand Dune
+        and Strand","Northern California Coastal Scrub","Mediterranean California
+        Coastal Bluff","Mediterranean California Northern Coastal Dune","Mediterranean
+        California Southern Coastal Dune","Atlantic Coastal Plain Northern Sandy Beach","Atlantic
+        Coastal Plain Sea Island Beach","Atlantic Coastal Plain Southern Beach","Florida
+        Panhandle Beach Vegetation","Louisiana Beach","Northern Atlantic Coastal Plain
+        Sandy Beach","Texas Coastal Bend Beach","Upper Texas Coast Beach","0","Mediterranean
+        California Serpentine Fen","Mediterranean California Subalpine-Montane Fen","North
+        Pacific Bog and Fen","Rocky Mountain Subalpine-Montane Fen","Atlantic Coastal
+        Plain Peatland Pocosin","Southern and Central Appalachian Bog and Fen","Atlantic
+        Coastal Plain Central Fresh-Oligohaline Tidal Marsh","Atlantic Coastal Plain
+        Embayed Region Tidal Freshwater Marsh","Atlantic Coastal Plain Northern Fresh
+        and Oligohaline Tidal Marsh","Florida Big Bend Fresh-Oligohaline Tidal Marsh","Atlantic
+        Coastal Plain Depression Pondshore","Atlantic Coastal Plain Large Natural
+        Lakeshore","Central Florida Herbaceous Pondshore","Central Florida Herbaceous
+        Seep","East Gulf Coastal Plain Savanna and Wet Prairie","East Gulf Coastal
+        Plain Depression Pondshore","Floridian Highlands Freshwater Marsh","Southern
+        Coastal Plain Herbaceous Seepage Bog","Southern Coastal Plain Nonriverine
+        Basin Swamp - Okefenokee Clethra Modifier","Southern Coastal Plain Nonriverine
+        Basin Swamp - Okefenokee Nupea Modifier","Texas-Louisiana Coastal Prairie
+        Slough","Central Interior and Appalachian Shrub-Herbaceous Wetland Systems","Great
+        Lakes Coastal Marsh Systems","0","0","Laurentian-Acadian Shrub-Herbaceous
+        Wetland Systems","0","Eastern Great Plains Wet Meadow, Prairie  and Marsh","Great
+        Lakes Wet-Mesic Lakeplain Prairie","Great Plains Prairie Pothole","Western
+        Great Plains Closed Depression Wetland","Western Great Plains Depressional
+        Wetland Systems","Western Great Plains Open Freshwater Depression Wetland","Cumberland
+        Riverscour","Inter-Mountain Basins Interdunal Swale Wetland","North Pacific
+        Avalanche Chute Shrubland","North Pacific Intertidal Freshwater Wetland","Temperate
+        Pacific Freshwater Emergent Marsh","Temperate Pacific Freshwater Mudflat","Columbia
+        Plateau Vernal Pool","Northern California Claypan Vernal Pool","Northern Rocky
+        Mountain Wooded Vernal Pool","Columbia Plateau Silver Sagebrush Seasonally
+        Flooded Shrub-Steppe","Rocky Mountain Alpine-Montane Wet Meadow","Rocky Mountain
+        Subalpine-Montane Riparian Shrubland","Temperate Pacific Montane Wet Meadow","Willamette
+        Valley Wet Prairie","Chihuahuan-Sonoran Desert Bottomland and Swale Grassland","North
+        American Arid West Emergent Marsh","North American Warm Desert Riparian Mesquite
+        Bosque","Western Great Plains Saline Depression Wetland","Acadian Salt Marsh
+        and Estuary Systems","Atlantic Coastal Plain Central Salt and Brackish Tidal
+        Marsh","Atlantic Coastal Plain Embayed Region Tidal Salt and Brackish Marsh","Atlantic
+        Coastal Plain Indian River Lagoon Tidal Marsh","Atlantic Coastal Plain Northern
+        Tidal Salt Marsh","Florida Big Bend Salt-Brackish Tidal Marsh","Gulf and Atlantic
+        Coastal Plain Tidal Marsh Systems","Mississippi Sound Salt and Brackish Tidal
+        Marsh","Texas Saline Coastal Prairie","Temperate Pacific Tidal Salt and Brackish
+        Marsh","Inter-Mountain Basins Alkaline Closed Depression","Inter-Mountain
+        Basins Greasewood Flat","Inter-Mountain Basins Playa","North American Warm
+        Desert Playa","Apacherian-Chihuahuan Mesquite Upland Scrub","Apacherian-Chihuahuan
+        Semi-Desert Grassland and Steppe","Chihuahuan Creosotebush, Mixed Desert and
+        Thorn Scrub","Chihuahuan Gypsophilous Grassland and Steppe","Chihuahuan Loamy
+        Plains Desert Grassland","Chihuahuan Mixed Desert and Thorn Scrub","Chihuahuan
+        Sandy Plains Semi-Desert Grassland","Chihuahuan Stabilized Coppice Dune and
+        Sand Flat Scrub","Chihuahuan Succulent Desert Scrub","Madrean Juniper Savanna","Mojave
+        Mid-Elevation Mixed Desert Scrub","North American Warm Desert Active and Stabilized
+        Dune","Sonora-Mojave Creosotebush-White Bursage Desert Scrub","Sonoran Mid-Elevation
+        Desert Scrub","Sonoran Paloverde-Mixed Cacti Desert Scrub","Chihuahuan Mixed
+        Salt Desert Scrub","Sonora-Mojave Mixed Salt Desert Scrub","North American
+        Warm Desert Wash","South Texas Lomas","Tamaulipan Calcareous Thornscrub","Tamaulipan
+        Clay Grassland","Tamaulipan Mesquite Upland Scrub","Tamaulipan Mixed Deciduous
+        Thornscrub","Tamaulipan Savanna Grassland","Inter-Mountain Basins Mat Saltbush
+        Shrubland","Inter-Mountain Basins Mixed Salt Desert Scrub","Inter-Mountain
+        Basins Wash","Columbia Plateau Steppe and Grassland","Great Basin Xeric Mixed
+        Sagebrush Shrubland","Inter-Mountain Basins Big Sagebrush Shrubland","Inter-Mountain
+        Basins Big Sagebrush Steppe","Inter-Mountain Basins Montane Sagebrush Steppe","Colorado
+        Plateau Mixed Low Sagebrush Shrubland","Columbia Plateau Low Sagebrush Steppe","Columbia
+        Plateau Scabland Shrubland","Wyoming Basins Dwarf Sagebrush Shrubland and
+        Steppe","Colorado Plateau Blackbrush-Mormon-tea Shrubland","Inter-Mountain
+        Basins Semi-Desert Grassland","Inter-Mountain Basins Semi-Desert Shrub Steppe","Southern
+        Colorado Plateau Sand Shrubland","Acadian-Appalachian Alpine Tundra","Rocky
+        Mountain Alpine Dwarf-Shrubland","Rocky Mountain Alpine Fell-Field","Rocky
+        Mountain Alpine Turf","Mediterranean California Alpine Dry Tundra","Mediterranean
+        California Alpine Fell-Field","North Pacific Dry and Mesic Alpine Dwarf-Shrubland,
+        Fell-field and Meadow","Rocky Mountain Alpine Tundra/Fell-field/Dwarf-shrub
+        Map Unit","Temperate Pacific Intertidal Mudflat","Mediterranean California
+        Eelgrass Bed","North Pacific Maritime Eelgrass Bed","South-Central Interior
+        Large Floodplain - Herbaceous Modifier","East Gulf Coastal Plain Large River
+        Floodplain Forest - Herbaceous Modifier","Temperate Pacific Freshwater Aquatic
+        Bed","Central California Coast Ranges Cliff and Canyon","Mediterranean California
+        Serpentine Barrens","Southern California Coast Ranges Cliff and Canyon","Central
+        Interior Acidic Cliff and Talus","Central Interior Calcareous Cliff and Talus","East
+        Gulf Coastal Plain Dry Chalk Bluff","North-Central Appalachian Acidic Cliff
+        and Talus","North-Central Appalachian Circumneutral Cliff and Talus","Southern
+        Appalachian Montane Cliff","Southern Interior Acid Cliff","Southern Interior
+        Calcareous Cliff","Southern Piedmont Cliff","Southern Appalachian Granitic
+        Dome","Southern Appalachian Rocky Summit","Southern Piedmont Granite Flatrock","Rocky
+        Mountain Cliff, Canyon and Massive Bedrock","Klamath-Siskiyou Cliff and Outcrop","North
+        Pacific Montane Massive Bedrock, Cliff and Talus","North Pacific Serpentine
+        Barren","North Pacific Active Volcanic Rock and Cinder Land","Sierra Nevada
+        Cliff and Canyon","Western Great Plains Badland","Southwestern Great Plains
+        Canyon","Western Great Plains Cliff and Outcrop","North American Warm Desert
+        Badland","North American Warm Desert Bedrock Cliff and Outcrop","North American
+        Warm Desert Pavement","North American Warm Desert Volcanic Rockland","Colorado
+        Plateau Mixed Bedrock Canyon and Tableland","Columbia Plateau Ash and Tuff
+        Badland","Geysers and Hot Springs","Inter-Mountain Basins Active and Stabilized
+        Dune","Inter-Mountain Basins Cliff and Canyon","Inter-Mountain Basins Shale
+        Badland","Inter-Mountain Basins Volcanic Rock and Cinder Land","Rocky Mountain
+        Alpine Bedrock and Scree","Mediterranean California Alpine Bedrock and Scree","North
+        Pacific Alpine and Subalpine Bedrock and Scree","Unconsolidated Shore","Undifferentiated
+        Barren Land","North American Alpine Ice Field","Orchards Vineyards and Other
+        High Structure Agriculture","Cultivated Cropland","Pasture/Hay","Introduced
+        Upland Vegetation - Annual Grassland","Introduced Upland Vegetation - Perennial
+        Grassland and Forbland","Modified/Managed Southern Tall Grassland","Introduced
+        Upland Vegetation - Shrub","Introduced Riparian and Wetland Vegetation","Introduced
+        Upland Vegetation - Treed","0","Disturbed, Non-specific","Recently Logged
+        Areas","Harvested Forest - Grass/Forb Regeneration","Harvested Forest-Shrub
+        Regeneration","Harvested Forest - Northwestern Conifer Regeneration","Recently
+        Burned","Recently burned grassland","Recently burned shrubland","Recently
+        burned forest","Disturbed/Successional - Grass/Forb Regeneration","Disturbed/Successional
+        - Shrub Regeneration","Disturbed/Successional - Recently Chained Pinyon-Juniper","Open
+        Water (Aquaculture)","Open Water (Brackish/Salt)","Open Water (Fresh)","Quarries,
+        Mines, Gravel Pits and Oil Wells","Developed, Open Space","Developed, Low
+        Intensity","Developed, Medium Intensity","Developed, High Intensity"]}]},"description":"The
+        [USGS GAP/LANDFIRE National Terrestrial Ecosystems data](https://www.sciencebase.gov/catalog/item/573cc51be4b0dae0d5e4b0c5),
+        based on the [NatureServe Terrestrial Ecological Systems](https://www.natureserve.org/products/terrestrial-ecological-systems-united-states),
+        are the foundation of the most detailed, consistent map of vegetation available
+        for the United States.  These data facilitate planning and management for
+        biological diversity on a regional and national scale.\n\nThis dataset includes
+        the [land cover](https://www.usgs.gov/core-science-systems/science-analytics-and-synthesis/gap/science/land-cover)
+        component of the GAP/LANDFIRE project.\n\n","item_assets":{"data":{"type":"image/tiff;
+        application=geotiff; profile=cloud-optimized","roles":["data"],"title":"GeoTIFF
+        data","file:values":[{"values":[0],"summary":"0"},{"values":[1],"summary":"South
+        Florida Bayhead Swamp"},{"values":[2],"summary":"South Florida Cypress Dome"},{"values":[3],"summary":"South
+        Florida Dwarf Cypress Savanna"},{"values":[4],"summary":"South Florida Mangrove
+        Swamp"},{"values":[5],"summary":"South Florida Hardwood Hammock"},{"values":[6],"summary":"Southeast
+        Florida Coastal Strand and Maritime Hammock"},{"values":[7],"summary":"Southwest
+        Florida Coastal Strand and Maritime Hammock"},{"values":[8],"summary":"South
+        Florida Pine Rockland"},{"values":[9],"summary":"Atlantic Coastal Plain Fall-line
+        Sandhills Longleaf Pine Woodland - Open Understory"},{"values":[10],"summary":"Atlantic
+        Coastal Plain Fall-line Sandhills Longleaf Pine Woodland - Scrub/Shrub Understory"},{"values":[11],"summary":"Atlantic
+        Coastal Plain Upland Longleaf Pine Woodland"},{"values":[12],"summary":"Atlantic
+        Coastal Plain Xeric River Dune"},{"values":[13],"summary":"East Gulf Coastal
+        Plain Interior Upland Longleaf Pine Woodland - Open Understory Modifier"},{"values":[14],"summary":"East
+        Gulf Coastal Plain Interior Upland Longleaf Pine Woodland - Scrub/Shrub Modifier"},{"values":[15],"summary":"Florida
+        Longleaf Pine Sandhill - Scrub/Shrub Understory Modifier"},{"values":[16],"summary":"Florida
+        Longleaf Pine Sandhill- Open Understory Modifier"},{"values":[17],"summary":"West
+        Gulf Coastal Plain Upland Longleaf Pine Forest and Woodland"},{"values":[18],"summary":"Atlantic
+        Coastal Plain Central Maritime Forest"},{"values":[19],"summary":"Atlantic
+        Coastal Plain Southern Maritime Forest"},{"values":[20],"summary":"Central
+        and South Texas Coastal Fringe Forest and Woodland"},{"values":[21],"summary":"East
+        Gulf Coastal Plain Limestone Forest"},{"values":[22],"summary":"East Gulf
+        Coastal Plain Maritime Forest"},{"values":[23],"summary":"East Gulf Coastal
+        Plain Southern Loess Bluff Forest"},{"values":[24],"summary":"East Gulf Coastal
+        Plain Southern Mesic Slope Forest"},{"values":[25],"summary":"Mississippi
+        Delta Maritime Forest"},{"values":[26],"summary":"Southern Coastal Plain Dry
+        Upland Hardwood Forest"},{"values":[27],"summary":"Southern Coastal Plain
+        Oak Dome and Hammock"},{"values":[28],"summary":"West Gulf Coastal Plain Chenier
+        and Upper Texas Coastal Fringe Forest and Woodland"},{"values":[29],"summary":"West
+        Gulf Coastal Plain Mesic Hardwood Forest"},{"values":[30],"summary":"East-Central
+        Texas Plains Pine Forest and Woodland"},{"values":[31],"summary":"West Gulf
+        Coastal Plain Pine-Hardwood Forest"},{"values":[32],"summary":"West Gulf Coastal
+        Plain Sandhill Oak and Shortleaf Pine Forest and Woodland"},{"values":[33],"summary":"Atlantic
+        Coastal Plain Fall-Line Sandhills Longleaf Pine Woodland - Loblolly Modifier"},{"values":[34],"summary":"Deciduous
+        Plantations"},{"values":[35],"summary":"East Gulf Coastal Plain Interior Upland
+        Longleaf Pine Woodland - Loblolly Modifier"},{"values":[36],"summary":"East
+        Gulf Coastal Plain Interior Upland Longleaf Pine Woodland - Offsite Hardwood
+        Modifier"},{"values":[37],"summary":"East Gulf Coastal Plain Near-Coast Pine
+        Flatwoods - Offsite Hardwood Modifier"},{"values":[38],"summary":"Evergreen
+        Plantation or Managed Pine"},{"values":[39],"summary":"California Central
+        Valley Mixed Oak Savanna"},{"values":[40],"summary":"California Coastal Closed-Cone
+        Conifer Forest and Woodland"},{"values":[41],"summary":"California Coastal
+        Live Oak Woodland and Savanna"},{"values":[42],"summary":"California Lower
+        Montane Blue Oak-Foothill Pine Woodland and Savanna"},{"values":[43],"summary":"Central
+        and Southern California Mixed Evergreen Woodland"},{"values":[44],"summary":"Mediterranean
+        California Lower Montane Black Oak-Conifer Forest and Woodland"},{"values":[45],"summary":"Southern
+        California Oak Woodland and Savanna"},{"values":[46],"summary":"Madrean Encinal"},{"values":[47],"summary":"Madrean
+        Pinyon-Juniper Woodland"},{"values":[48],"summary":"Madrean Pine-Oak Forest
+        and Woodland"},{"values":[49],"summary":"Madrean Upper Montane Conifer-Oak
+        Forest and Woodland"},{"values":[50],"summary":"Edwards Plateau Dry-Mesic
+        Slope Forest and Woodland"},{"values":[51],"summary":"Edwards Plateau Limestone
+        Savanna and Woodland"},{"values":[52],"summary":"Edwards Plateau Mesic Canyon"},{"values":[53],"summary":"Llano
+        Uplift Acidic Forest, Woodland and Glade"},{"values":[54],"summary":"East
+        Cascades Oak-Ponderosa Pine Forest and Woodland"},{"values":[55],"summary":"Mediterranean
+        California Mixed Evergreen Forest"},{"values":[56],"summary":"Mediterranean
+        California Mixed Oak Woodland"},{"values":[57],"summary":"North Pacific Dry
+        Douglas-fir-(Madrone) Forest and Woodland"},{"values":[58],"summary":"North
+        Pacific Oak Woodland"},{"values":[59],"summary":"Edwards Plateau Limestone
+        Shrubland"},{"values":[60],"summary":"Allegheny-Cumberland Dry Oak Forest
+        and Woodland - Hardwood"},{"values":[61],"summary":"Allegheny-Cumberland Dry
+        Oak Forest and Woodland - Pine Modifier"},{"values":[62],"summary":"Central
+        and Southern Appalachian Montane Oak Forest"},{"values":[63],"summary":"Central
+        and Southern Appalachian Northern Hardwood Forest"},{"values":[64],"summary":"Central
+        Appalachian Oak and Pine Forest"},{"values":[65],"summary":"Crosstimbers Oak
+        Forest and Woodland"},{"values":[66],"summary":"East Gulf Coastal Plain Black
+        Belt Calcareous Prairie and Woodland - Woodland Modifier"},{"values":[67],"summary":"East
+        Gulf Coastal Plain Northern Dry Upland Hardwood Forest"},{"values":[68],"summary":"East
+        Gulf Coastal Plain Northern Loess Plain Oak-Hickory Upland - Hardwood Modifier"},{"values":[69],"summary":"East
+        Gulf Coastal Plain Northern Loess Plain Oak-Hickory Upland - Juniper Modifier"},{"values":[70],"summary":"East-Central
+        Texas Plains Post Oak Savanna and Woodland"},{"values":[71],"summary":"Lower
+        Mississippi River Dune Woodland and Forest"},{"values":[72],"summary":"Mississippi
+        River Alluvial Plain Dry-Mesic Loess Slope Forest"},{"values":[73],"summary":"North-Central
+        Interior Dry Oak Forest and Woodland"},{"values":[74],"summary":"North-Central
+        Interior Dry-Mesic Oak Forest and Woodland"},{"values":[75],"summary":"Northeastern
+        Interior Dry Oak Forest - Mixed Modifier"},{"values":[76],"summary":"Northeastern
+        Interior Dry Oak Forest - Virginia/Pitch Pine Modifier"},{"values":[77],"summary":"Northeastern
+        Interior Dry Oak Forest-Hardwood Modifier"},{"values":[78],"summary":"Northeastern
+        Interior Dry-Mesic Oak Forest"},{"values":[79],"summary":"Northern Atlantic
+        Coastal Plain Dry Hardwood Forest"},{"values":[80],"summary":"Crowley''s Ridge
+        Sand Forest"},{"values":[81],"summary":"Ouachita Montane Oak Forest"},{"values":[82],"summary":"Ozark-Ouachita
+        Dry Oak Woodland"},{"values":[83],"summary":"Ozark-Ouachita Dry-Mesic Oak
+        Forest"},{"values":[84],"summary":"Southern and Central Appalachian Oak Forest"},{"values":[85],"summary":"Southern
+        and Central Appalachian Oak Forest - Xeric"},{"values":[86],"summary":"Southern
+        Interior Low Plateau Dry-Mesic Oak Forest"},{"values":[87],"summary":"Southern
+        Ridge and Valley Dry Calcareous Forest"},{"values":[88],"summary":"Southern
+        Ridge and Valley Dry Calcareous Forest - Pine modifier"},{"values":[89],"summary":"East
+        Gulf Coastal Plain Northern Dry Upland Hardwood Forest - Offsite Pine Modifier"},{"values":[90],"summary":"Managed
+        Tree Plantation"},{"values":[91],"summary":"Ruderal forest"},{"values":[92],"summary":"Southern
+        Piedmont Dry Oak-(Pine) Forest - Loblolly Pine Modifier"},{"values":[93],"summary":"Acadian
+        Low-Elevation Spruce-Fir-Hardwood Forest"},{"values":[94],"summary":"Acadian-Appalachian
+        Montane Spruce-Fir Forest"},{"values":[95],"summary":"Appalachian Hemlock-Hardwood
+        Forest"},{"values":[96],"summary":"Central and Southern Appalachian Spruce-Fir
+        Forest"},{"values":[97],"summary":"0"},{"values":[98],"summary":"Laurentian-Acadian
+        Northern Hardwoods Forest"},{"values":[99],"summary":"Laurentian-Acadian Northern
+        Pine-(Oak) Forest"},{"values":[100],"summary":"Laurentian-Acadian Pine-Hemlock-Hardwood
+        Forest"},{"values":[101],"summary":"Paleozoic Plateau Bluff and Talus"},{"values":[102],"summary":"Southern
+        Appalachian Northern Hardwood Forest"},{"values":[103],"summary":"Atlantic
+        Coastal Plain Dry and Dry-Mesic Oak Forest"},{"values":[104],"summary":"Atlantic
+        Coastal Plain Fall-line Sandhills Longleaf Pine Woodland - Offsite Hardwood"},{"values":[105],"summary":"East
+        Gulf Coastal Plain Interior Shortleaf Pine-Oak Forest - Hardwood Modifier"},{"values":[106],"summary":"East
+        Gulf Coastal Plain Interior Shortleaf Pine-Oak Forest - Mixed Modifier"},{"values":[107],"summary":"Ozark-Ouachita
+        Shortleaf Pine-Bluestem Woodland"},{"values":[108],"summary":"Ozark-Ouachita
+        Shortleaf Pine-Oak Forest and Woodland"},{"values":[109],"summary":"Southeastern
+        Interior Longleaf Pine Woodland"},{"values":[110],"summary":"Southern Appalachian
+        Low Mountain Pine Forest"},{"values":[111],"summary":"Southern Piedmont Dry
+        Oak-(Pine) Forest"},{"values":[112],"summary":"Southern Piedmont Dry Oak-(Pine)
+        Forest - Hardwood Modifier"},{"values":[113],"summary":"Southern Piedmont
+        Dry Oak-(Pine) Forest - Mixed Modifier"},{"values":[114],"summary":"Southern
+        Piedmont Dry Oak-Heath Forest - Mixed Modifier"},{"values":[115],"summary":"Eastern
+        Great Plains Tallgrass Aspen Parkland"},{"values":[116],"summary":"Northwestern
+        Great Plains Aspen Forest and Parkland"},{"values":[117],"summary":"Northwestern
+        Great Plains Shrubland"},{"values":[118],"summary":"Western Great Plains Dry
+        Bur Oak Forest and Woodland"},{"values":[119],"summary":"Western Great Plains
+        Wooded Draw and Ravine"},{"values":[120],"summary":"Southern Atlantic Coastal
+        Plain Mesic Hardwood Forest"},{"values":[121],"summary":"East Gulf Coastal
+        Plain Northern Loess Bluff Forest"},{"values":[122],"summary":"East Gulf Coastal
+        Plain Northern Mesic Hardwood Forest"},{"values":[123],"summary":"North-Central
+        Interior Beech-Maple Forest"},{"values":[124],"summary":"North-Central Interior
+        Maple-Basswood Forest"},{"values":[125],"summary":"Ozark-Ouachita Mesic Hardwood
+        Forest"},{"values":[126],"summary":"South-Central Interior Mesophytic Forest"},{"values":[127],"summary":"Southern
+        and Central Appalachian Cove Forest"},{"values":[128],"summary":"Crowley''s
+        Ridge Mesic Loess Slope Forest"},{"values":[129],"summary":"Southern Piedmont
+        Mesic Forest"},{"values":[130],"summary":"Appalachian Shale Barrens"},{"values":[131],"summary":"Atlantic
+        Coastal Plain Northern Maritime Forest"},{"values":[132],"summary":"Laurentian
+        Pine-Oak Barrens"},{"values":[133],"summary":"Northeastern Interior Pine Barrens"},{"values":[134],"summary":"Northern
+        Atlantic Coastal Plain Pitch Pine Barrens"},{"values":[135],"summary":"Southern
+        Appalachian Montane Pine Forest and Woodland"},{"values":[136],"summary":"East
+        Cascades Mesic Montane Mixed-Conifer Forest and Woodland"},{"values":[137],"summary":"Middle
+        Rocky Mountain Montane Douglas-fir Forest and Woodland"},{"values":[138],"summary":"Northern
+        Rocky Mountain Dry-Mesic Montane Mixed Conifer Forest"},{"values":[139],"summary":"Northern
+        Rocky Mountain Foothill Conifer Wooded Steppe"},{"values":[140],"summary":"Northern
+        Rocky Mountain Mesic Montane Mixed Conifer Forest"},{"values":[141],"summary":"Northern
+        Rocky Mountain Ponderosa Pine Woodland and Savanna"},{"values":[142],"summary":"Northern
+        Rocky Mountain Western Larch Savanna"},{"values":[143],"summary":"Northwestern
+        Great Plains - Black Hills Ponderosa Pine Woodland and Savanna"},{"values":[144],"summary":"Rocky
+        Mountain Foothill Limber Pine-Juniper Woodland"},{"values":[145],"summary":"Inter-Mountain
+        Basins Aspen-Mixed Conifer Forest and Woodland"},{"values":[146],"summary":"Inter-Mountain
+        Basins Subalpine Limber-Bristlecone Pine Woodland"},{"values":[147],"summary":"Northern
+        Rocky Mountain Subalpine Woodland and Parkland"},{"values":[148],"summary":"Rocky
+        Mountain Aspen Forest and Woodland"},{"values":[149],"summary":"Rocky Mountain
+        Lodgepole Pine Forest"},{"values":[150],"summary":"Rocky Mountain Poor-Site
+        Lodgepole Pine Forest"},{"values":[151],"summary":"Rocky Mountain Subalpine
+        Dry-Mesic Spruce-Fir Forest and Woodland"},{"values":[152],"summary":"Rocky
+        Mountain Subalpine Mesic Spruce-Fir Forest and Woodland"},{"values":[153],"summary":"Rocky
+        Mountain Subalpine-Montane Limber-Bristlecone Pine Woodland"},{"values":[154],"summary":"Rocky
+        Mountain Bigtooth Maple Ravine Woodland"},{"values":[155],"summary":"Southern
+        Rocky Mountain Dry-Mesic Montane Mixed Conifer Forest and Woodland"},{"values":[156],"summary":"Southern
+        Rocky Mountain Mesic Montane Mixed Conifer Forest and Woodland"},{"values":[157],"summary":"Southern
+        Rocky Mountain Ponderosa Pine Savanna"},{"values":[158],"summary":"Southern
+        Rocky Mountain Ponderosa Pine Woodland"},{"values":[159],"summary":"California
+        Montane Jeffrey Pine-(Ponderosa Pine) Woodland"},{"values":[160],"summary":"Klamath-Siskiyou
+        Lower Montane Serpentine Mixed Conifer Woodland"},{"values":[161],"summary":"Klamath-Siskiyou
+        Upper Montane Serpentine Mixed Conifer Woodland"},{"values":[162],"summary":"Mediterranean
+        California Dry-Mesic Mixed Conifer Forest and Woodland"},{"values":[163],"summary":"Mediterranean
+        California Mesic Mixed Conifer Forest and Woodland"},{"values":[164],"summary":"Sierran-Intermontane
+        Desert Western White Pine-White Fir Woodland"},{"values":[165],"summary":"California
+        Coastal Redwood Forest"},{"values":[166],"summary":"North Pacific Broadleaf
+        Landslide Forest and Shrubland"},{"values":[167],"summary":"North Pacific
+        Dry-Mesic Silver Fir-Western Hemlock-Douglas-fir Forest"},{"values":[168],"summary":"North
+        Pacific Hypermaritime Sitka Spruce Forest"},{"values":[169],"summary":"North
+        Pacific Hypermaritime Western Red-cedar-Western Hemlock Forest"},{"values":[170],"summary":"North
+        Pacific Lowland Mixed Hardwood-Conifer Forest and Woodland"},{"values":[171],"summary":"North
+        Pacific Maritime Dry-Mesic Douglas-fir-Western Hemlock Forest"},{"values":[172],"summary":"North
+        Pacific Maritime Mesic-Wet Douglas-fir-Western Hemlock Forest"},{"values":[173],"summary":"North
+        Pacific Mesic Western Hemlock-Silver Fir Forest"},{"values":[174],"summary":"North
+        Pacific Wooded Volcanic Flowage"},{"values":[175],"summary":"Mediterranean
+        California Red Fir Forest"},{"values":[176],"summary":"Mediterranean California
+        Subalpine Woodland"},{"values":[177],"summary":"North Pacific Maritime Mesic
+        Subalpine Parkland"},{"values":[178],"summary":"North Pacific Mountain Hemlock
+        Forest"},{"values":[179],"summary":"Northern California Mesic Subalpine Woodland"},{"values":[180],"summary":"Northern
+        Pacific Mesic Subalpine Woodland"},{"values":[181],"summary":"Sierra Nevada
+        Subalpine Lodgepole Pine Forest and Woodland"},{"values":[182],"summary":"Columbia
+        Plateau Western Juniper Woodland and Savanna"},{"values":[183],"summary":"Great
+        Basin Pinyon-Juniper Woodland"},{"values":[184],"summary":"Inter-Mountain
+        Basins Curl-leaf Mountain Mahogany Woodland and Shrubland"},{"values":[185],"summary":"Inter-Mountain
+        Basins Juniper Savanna"},{"values":[186],"summary":"Colorado Plateau Pinyon-Juniper
+        Shrubland"},{"values":[187],"summary":"Colorado Plateau Pinyon-Juniper Woodland"},{"values":[188],"summary":"Southern
+        Rocky Mountain Juniper Woodland and Savanna"},{"values":[189],"summary":"Southern
+        Rocky Mountain Pinyon-Juniper Woodland"},{"values":[190],"summary":"Northwestern
+        Great Plains Floodplain"},{"values":[191],"summary":"Northwestern Great Plains
+        Riparian"},{"values":[192],"summary":"Western Great Plains Floodplain"},{"values":[193],"summary":"Western
+        Great Plains Floodplain Systems"},{"values":[194],"summary":"Western Great
+        Plains Riparian Woodland and Shrubland"},{"values":[195],"summary":"Central
+        Appalachian Floodplain - Forest Modifier"},{"values":[196],"summary":"Central
+        Appalachian Riparian - Forest Modifier"},{"values":[197],"summary":"Central
+        Interior and Appalachian Floodplain Systems"},{"values":[198],"summary":"Central
+        Interior and Appalachian Riparian Systems"},{"values":[199],"summary":"Laurentian-Acadian
+        Floodplain Systems"},{"values":[200],"summary":"Ozark-Ouachita Riparian"},{"values":[201],"summary":"South-Central
+        Interior Large Floodplain"},{"values":[202],"summary":"South-Central Interior
+        Large Floodplain - Forest Modifier"},{"values":[203],"summary":"South-Central
+        Interior Small Stream and Riparian"},{"values":[204],"summary":"North-Central
+        Interior and Appalachian Rich Swamp"},{"values":[205],"summary":"0"},{"values":[206],"summary":"0"},{"values":[207],"summary":"Laurentian-Acadian
+        Swamp Systems"},{"values":[208],"summary":"North-Central Interior Wet Flatwoods"},{"values":[209],"summary":"0"},{"values":[210],"summary":"South-Central
+        Interior / Upper Coastal Plain Wet Flatwoods"},{"values":[211],"summary":"0"},{"values":[212],"summary":"Southern
+        Piedmont/Ridge and Valley Upland Depression Swamp"},{"values":[213],"summary":"Atlantic
+        Coastal Plain Blackwater Stream Floodplain Forest - Forest Modifier"},{"values":[214],"summary":"Atlantic
+        Coastal Plain Brownwater Stream Floodplain Forest"},{"values":[215],"summary":"Atlantic
+        Coastal Plain Northern Tidal Wooded Swamp"},{"values":[216],"summary":"Atlantic
+        Coastal Plain Small Blackwater River Floodplain Forest"},{"values":[217],"summary":"Atlantic
+        Coastal Plain Small Brownwater River Floodplain Forest"},{"values":[218],"summary":"Atlantic
+        Coastal Plain Southern Tidal Wooded Swamp"},{"values":[219],"summary":"East
+        Gulf Coastal Plain Large River Floodplain Forest - Forest Modifier"},{"values":[220],"summary":"East
+        Gulf Coastal Plain Small Stream and River Floodplain Forest"},{"values":[221],"summary":"East
+        Gulf Coastal Plain Tidal Wooded Swamp"},{"values":[222],"summary":"0"},{"values":[223],"summary":"Southeastern
+        Great Plains Riparian Forest"},{"values":[224],"summary":"Southeastern Great
+        Plains Floodplain Forest"},{"values":[225],"summary":"Mississippi River Bottomland
+        Depression"},{"values":[226],"summary":"Mississippi River Floodplain and Riparian
+        Forest"},{"values":[227],"summary":"Mississippi River Low Floodplain (Bottomland)
+        Forest"},{"values":[228],"summary":"Mississippi River Riparian Forest"},{"values":[229],"summary":"Red
+        River Large Floodplain Forest"},{"values":[230],"summary":"Southern Coastal
+        Plain Blackwater River Floodplain Forest"},{"values":[231],"summary":"Southern
+        Piedmont Large Floodplain Forest - Forest Modifier"},{"values":[232],"summary":"Southern
+        Piedmont Small Floodplain and Riparian Forest"},{"values":[233],"summary":"West
+        Gulf Coastal Plain Large River Floodplain Forest"},{"values":[234],"summary":"West
+        Gulf Coastal Plain Near-Coast Large River Swamp"},{"values":[235],"summary":"West
+        Gulf Coastal Plain Small Stream and River Forest"},{"values":[236],"summary":"Atlantic
+        Coastal Plain Streamhead Seepage Swamp -  Pocosin -  and Baygall"},{"values":[237],"summary":"Gulf
+        and Atlantic Coastal Plain Swamp Systems"},{"values":[238],"summary":"Southern
+        Coastal Plain Hydric Hammock"},{"values":[239],"summary":"Southern Coastal
+        Plain Seepage Swamp and Baygall"},{"values":[240],"summary":"West Gulf Coastal
+        Plain Seepage Swamp and Baygall"},{"values":[241],"summary":"Atlantic Coastal
+        Plain Nonriverine Swamp and Wet Hardwood Forest  - Taxodium/Nyssa Modifier"},{"values":[242],"summary":"Atlantic
+        Coastal Plain Nonriverine Swamp and Wet Hardwood Forest - Oak Dominated Modifier"},{"values":[243],"summary":"East
+        Gulf Coastal Plain Southern Loblolly-Hardwood Flatwoods"},{"values":[244],"summary":"Lower
+        Mississippi River Bottomland Depressions - Forest Modifier"},{"values":[245],"summary":"Lower
+        Mississippi River Flatwoods"},{"values":[246],"summary":"Northern Atlantic
+        Coastal Plain Basin Swamp and Wet Hardwood Forest"},{"values":[247],"summary":"Southern
+        Coastal Plain Nonriverine Basin Swamp"},{"values":[248],"summary":"Southern
+        Coastal Plain Nonriverine Basin Swamp - Okefenokee Bay/Gum Modifier"},{"values":[249],"summary":"Southern
+        Coastal Plain Nonriverine Basin Swamp - Okefenokee Pine Modifier"},{"values":[250],"summary":"Southern
+        Coastal Plain Nonriverine Basin Swamp - Okefenokee Taxodium Modifier"},{"values":[251],"summary":"West
+        Gulf Coastal Plain Nonriverine Wet Hardwood Flatwoods"},{"values":[252],"summary":"West
+        Gulf Coastal Plain Pine-Hardwood Flatwoods"},{"values":[253],"summary":"Edwards
+        Plateau Riparian"},{"values":[254],"summary":"Atlantic Coastal Plain Clay-Based
+        Carolina Bay Forested Wetland"},{"values":[255],"summary":"Atlantic Coastal
+        Plain Clay-Based Carolina Bay Herbaceous Wetland"},{"values":[256],"summary":"Atlantic
+        Coastal Plain Southern Wet Pine Savanna and Flatwoods"},{"values":[257],"summary":"Central
+        Atlantic Coastal Plain Wet Longleaf Pine Savanna and Flatwoods"},{"values":[258],"summary":"Central
+        Florida Pine Flatwoods"},{"values":[259],"summary":"East Gulf Coastal Plain
+        Near-Coast Pine Flatwoods"},{"values":[260],"summary":"East Gulf Coastal Plain
+        Near-Coast Pine Flatwoods - Open Understory Modifier"},{"values":[261],"summary":"East
+        Gulf Coastal Plain Near-Coast Pine Flatwoods - Scrub/Shrub Understory Modifier"},{"values":[262],"summary":"South
+        Florida Pine Flatwoods"},{"values":[263],"summary":"Southern Coastal Plain
+        Nonriverine Cypress Dome"},{"values":[264],"summary":"West Gulf Coastal Plain
+        Wet Longleaf Pine Savanna and Flatwoods"},{"values":[265],"summary":"Columbia
+        Basin Foothill Riparian Woodland and Shrubland"},{"values":[266],"summary":"Great
+        Basin Foothill and Lower Montane Riparian Woodland and Shrubland"},{"values":[267],"summary":"0"},{"values":[268],"summary":"Northern
+        Rocky Mountain Conifer Swamp"},{"values":[269],"summary":"Northern Rocky Mountain
+        Lower Montane Riparian Woodland and Shrubland"},{"values":[270],"summary":"Rocky
+        Mountain Lower Montane Riparian Woodland and Shrubland"},{"values":[271],"summary":"Rocky
+        Mountain Montane Riparian Systems"},{"values":[272],"summary":"Rocky Mountain
+        Subalpine-Montane Riparian Woodland"},{"values":[273],"summary":"North Pacific
+        Hardwood-Conifer Swamp"},{"values":[274],"summary":"North Pacific Lowland
+        Riparian Forest and Shrubland"},{"values":[275],"summary":"North Pacific Montane
+        Riparian Woodland and Shrubland"},{"values":[276],"summary":"North Pacific
+        Shrub Swamp"},{"values":[277],"summary":"California Central Valley Riparian
+        Woodland and Shrubland"},{"values":[278],"summary":"Mediterranean California
+        Foothill and Lower Montane Riparian Woodland"},{"values":[279],"summary":"Mediterranean
+        California Serpentine Foothill and Lower Montane Riparian Woodland and Seep"},{"values":[280],"summary":"North
+        American Warm Desert Lower Montane Riparian Woodland and Shrubland"},{"values":[281],"summary":"North
+        American Warm Desert Riparian Systems"},{"values":[282],"summary":"North American
+        Warm Desert Riparian Woodland and Shrubland"},{"values":[283],"summary":"Tamaulipan
+        Floodplain"},{"values":[284],"summary":"Tamaulipan Riparian Systems"},{"values":[285],"summary":"Boreal
+        Aspen-Birch Forest"},{"values":[286],"summary":"Boreal Jack Pine-Black Spruce
+        Forest"},{"values":[287],"summary":"Boreal White Spruce-Fir-Hardwood Forest"},{"values":[288],"summary":"Boreal-Laurentian
+        Conifer Acidic Swamp and Treed Poor Fen"},{"values":[289],"summary":"Eastern
+        Boreal Floodplain"},{"values":[290],"summary":"South Florida Shell Hash Beach"},{"values":[291],"summary":"Southeast
+        Florida Beach"},{"values":[292],"summary":"Southwest Florida Beach"},{"values":[293],"summary":"South
+        Florida Everglades Sawgrass Marsh"},{"values":[294],"summary":"South Florida
+        Freshwater Slough and Gator Hole"},{"values":[295],"summary":"South Florida
+        Wet Marl Prairie"},{"values":[296],"summary":"California Maritime Chaparral"},{"values":[297],"summary":"California
+        Mesic Chaparral"},{"values":[298],"summary":"California Xeric Serpentine Chaparral"},{"values":[299],"summary":"Klamath-Siskiyou
+        Xeromorphic Serpentine Savanna and Chaparral"},{"values":[300],"summary":"Mediterranean
+        California Mesic Serpentine Woodland and Chaparral"},{"values":[301],"summary":"Northern
+        and Central California Dry-Mesic Chaparral"},{"values":[302],"summary":"Southern
+        California Dry-Mesic Chaparral"},{"values":[303],"summary":"Southern California
+        Coastal Scrub"},{"values":[304],"summary":"California Central Valley and Southern
+        Coastal Grassland"},{"values":[305],"summary":"California Mesic Serpentine
+        Grassland"},{"values":[306],"summary":"Columbia Basin Foothill and Canyon
+        Dry Grassland"},{"values":[307],"summary":"Columbia Basin Palouse Prairie"},{"values":[308],"summary":"North
+        Pacific Alpine and Subalpine Dry Grassland"},{"values":[309],"summary":"North
+        Pacific Montane Grassland"},{"values":[310],"summary":"North Pacific Montane
+        Shrubland"},{"values":[311],"summary":"Northern Rocky Mountain Lower Montane,
+        Foothill and Valley Grassland"},{"values":[312],"summary":"Northern Rocky
+        Mountain Montane-Foothill Deciduous Shrubland"},{"values":[313],"summary":"Northern
+        Rocky Mountain Subalpine Deciduous Shrubland"},{"values":[314],"summary":"Northern
+        Rocky Mountain Subalpine-Upper Montane Grassland"},{"values":[315],"summary":"Southern
+        Rocky Mountain Montane-Subalpine Grassland"},{"values":[316],"summary":"Rocky
+        Mountain Gambel Oak-Mixed Montane Shrubland"},{"values":[317],"summary":"Rocky
+        Mountain Lower Montane-Foothill Shrubland"},{"values":[318],"summary":"California
+        Northern Coastal Grassland"},{"values":[319],"summary":"North Pacific Herbaceous
+        Bald and Bluff"},{"values":[320],"summary":"North Pacific Hypermaritime Shrub
+        and Herbaceous Headland"},{"values":[321],"summary":"Willamette Valley Upland
+        Prairie and Savanna"},{"values":[322],"summary":"Mediterranean California
+        Subalpine Meadow"},{"values":[323],"summary":"Rocky Mountain Subalpine-Montane
+        Mesic Meadow"},{"values":[324],"summary":"Central Mixedgrass Prairie"},{"values":[325],"summary":"Northwestern
+        Great Plains Mixedgrass Prairie"},{"values":[326],"summary":"Western Great
+        Plains Foothill and Piedmont Grassland"},{"values":[327],"summary":"Western
+        Great Plains Tallgrass Prairie"},{"values":[328],"summary":"Western Great
+        Plains Sand Prairie"},{"values":[329],"summary":"Western Great Plains Sandhill
+        Steppe"},{"values":[330],"summary":"Western Great Plains Mesquite Woodland
+        and Shrubland"},{"values":[331],"summary":"Western Great Plains Shortgrass
+        Prairie"},{"values":[332],"summary":"Arkansas Valley Prairie and Woodland"},{"values":[333],"summary":"Central
+        Tallgrass Prairie"},{"values":[334],"summary":"North-Central Interior Oak
+        Savanna"},{"values":[335],"summary":"North-Central Interior Sand and Gravel
+        Tallgrass Prairie"},{"values":[336],"summary":"North-Central Oak Barrens"},{"values":[337],"summary":"Northern
+        Tallgrass Prairie"},{"values":[338],"summary":"Southeastern Great Plains Tallgrass
+        Prairie"},{"values":[339],"summary":"Texas Blackland Tallgrass Prairie"},{"values":[340],"summary":"Texas-Louisiana
+        Coastal Prairie"},{"values":[341],"summary":"Central Appalachian Pine-Oak
+        Rocky Woodland"},{"values":[342],"summary":"Southern Appalachian Grass and
+        Shrub Bald"},{"values":[343],"summary":"Southern Appalachian Grass and Shrub
+        Bald - Herbaceous Modifier"},{"values":[344],"summary":"Southern Appalachian
+        Grass and Shrub Bald - Shrub Modifier"},{"values":[345],"summary":"Central
+        Appalachian Alkaline Glade and Woodland"},{"values":[346],"summary":"Central
+        Interior Highlands Calcareous Glade and Barrens"},{"values":[347],"summary":"Central
+        Interior Highlands Dry Acidic Glade and Barrens"},{"values":[348],"summary":"Cumberland
+        Sandstone Glade and Barrens"},{"values":[349],"summary":"Great Lakes Alvar"},{"values":[350],"summary":"Nashville
+        Basin Limestone Glade"},{"values":[351],"summary":"Southern Ridge and Valley
+        / Cumberland Dry Calcareous Forest"},{"values":[352],"summary":"Southern Piedmont
+        Glade and Barrens"},{"values":[353],"summary":"East Gulf Coastal Plain Black
+        Belt Calcareous Prairie and Woodland - Herbaceous Modifier"},{"values":[354],"summary":"East
+        Gulf Coastal Plain Jackson Prairie and Woodland"},{"values":[355],"summary":"Eastern
+        Highland Rim Prairie and Barrens - Dry Modifier"},{"values":[356],"summary":"Coahuilan
+        Chaparral"},{"values":[357],"summary":"Madrean Oriental Chaparral"},{"values":[358],"summary":"Mogollon
+        Chaparral"},{"values":[359],"summary":"Sonora-Mojave Semi-Desert Chaparral"},{"values":[360],"summary":"California
+        Montane Woodland and Chaparral"},{"values":[361],"summary":"Great Basin Semi-Desert
+        Chaparral"},{"values":[362],"summary":"Florida Dry Prairie"},{"values":[363],"summary":"Florida
+        Peninsula Inland Scrub"},{"values":[364],"summary":"West Gulf Coastal Plain
+        Catahoula Barrens"},{"values":[365],"summary":"West Gulf Coastal Plain Nepheline
+        Syenite Glade"},{"values":[366],"summary":"East Gulf Coastal Plain Jackson
+        Plain Dry Flatwoods - Open Understory Modifier"},{"values":[367],"summary":"West
+        Gulf Coastal Plain Northern Calcareous Prairie"},{"values":[368],"summary":"West
+        Gulf Coastal Plain Southern Calcareous Prairie"},{"values":[369],"summary":"Acadian-Appalachian
+        Subalpine Woodland and Heath-Krummholz"},{"values":[370],"summary":"Atlantic
+        and Gulf Coastal Plain Interdunal Wetland"},{"values":[371],"summary":"Atlantic
+        Coastal Plain Southern Dune and Maritime Grassland"},{"values":[372],"summary":"Central
+        and Upper Texas Coast Dune and Coastal Grassland"},{"values":[373],"summary":"East
+        Gulf Coastal Plain Dune and Coastal Grassland"},{"values":[374],"summary":"Great
+        Lakes Dune"},{"values":[375],"summary":"Northern Atlantic Coastal Plain Dune
+        and Swale"},{"values":[376],"summary":"Northern Atlantic Coastal Plain Heathland
+        and Grassland"},{"values":[377],"summary":"South Texas Dune and Coastal Grassland"},{"values":[378],"summary":"South
+        Texas Sand Sheet Grassland"},{"values":[379],"summary":"Southwest Florida
+        Dune and Coastal Grassland"},{"values":[380],"summary":"North Pacific Coastal
+        Cliff and Bluff"},{"values":[381],"summary":"North Pacific Maritime Coastal
+        Sand Dune and Strand"},{"values":[382],"summary":"Northern California Coastal
+        Scrub"},{"values":[383],"summary":"Mediterranean California Coastal Bluff"},{"values":[384],"summary":"Mediterranean
+        California Northern Coastal Dune"},{"values":[385],"summary":"Mediterranean
+        California Southern Coastal Dune"},{"values":[386],"summary":"Atlantic Coastal
+        Plain Northern Sandy Beach"},{"values":[387],"summary":"Atlantic Coastal Plain
+        Sea Island Beach"},{"values":[388],"summary":"Atlantic Coastal Plain Southern
+        Beach"},{"values":[389],"summary":"Florida Panhandle Beach Vegetation"},{"values":[390],"summary":"Louisiana
+        Beach"},{"values":[391],"summary":"Northern Atlantic Coastal Plain Sandy Beach"},{"values":[392],"summary":"Texas
+        Coastal Bend Beach"},{"values":[393],"summary":"Upper Texas Coast Beach"},{"values":[394],"summary":"0"},{"values":[395],"summary":"Mediterranean
+        California Serpentine Fen"},{"values":[396],"summary":"Mediterranean California
+        Subalpine-Montane Fen"},{"values":[397],"summary":"North Pacific Bog and Fen"},{"values":[398],"summary":"Rocky
+        Mountain Subalpine-Montane Fen"},{"values":[399],"summary":"Atlantic Coastal
+        Plain Peatland Pocosin"},{"values":[400],"summary":"Southern and Central Appalachian
+        Bog and Fen"},{"values":[401],"summary":"Atlantic Coastal Plain Central Fresh-Oligohaline
+        Tidal Marsh"},{"values":[402],"summary":"Atlantic Coastal Plain Embayed Region
+        Tidal Freshwater Marsh"},{"values":[403],"summary":"Atlantic Coastal Plain
+        Northern Fresh and Oligohaline Tidal Marsh"},{"values":[404],"summary":"Florida
+        Big Bend Fresh-Oligohaline Tidal Marsh"},{"values":[405],"summary":"Atlantic
+        Coastal Plain Depression Pondshore"},{"values":[406],"summary":"Atlantic Coastal
+        Plain Large Natural Lakeshore"},{"values":[407],"summary":"Central Florida
+        Herbaceous Pondshore"},{"values":[408],"summary":"Central Florida Herbaceous
+        Seep"},{"values":[409],"summary":"East Gulf Coastal Plain Savanna and Wet
+        Prairie"},{"values":[410],"summary":"East Gulf Coastal Plain Depression Pondshore"},{"values":[411],"summary":"Floridian
+        Highlands Freshwater Marsh"},{"values":[412],"summary":"Southern Coastal Plain
+        Herbaceous Seepage Bog"},{"values":[413],"summary":"Southern Coastal Plain
+        Nonriverine Basin Swamp - Okefenokee Clethra Modifier"},{"values":[414],"summary":"Southern
+        Coastal Plain Nonriverine Basin Swamp - Okefenokee Nupea Modifier"},{"values":[415],"summary":"Texas-Louisiana
+        Coastal Prairie Slough"},{"values":[416],"summary":"Central Interior and Appalachian
+        Shrub-Herbaceous Wetland Systems"},{"values":[417],"summary":"Great Lakes
+        Coastal Marsh Systems"},{"values":[418],"summary":"0"},{"values":[419],"summary":"0"},{"values":[420],"summary":"Laurentian-Acadian
+        Shrub-Herbaceous Wetland Systems"},{"values":[421],"summary":"0"},{"values":[422],"summary":"Eastern
+        Great Plains Wet Meadow, Prairie  and Marsh"},{"values":[423],"summary":"Great
+        Lakes Wet-Mesic Lakeplain Prairie"},{"values":[424],"summary":"Great Plains
+        Prairie Pothole"},{"values":[425],"summary":"Western Great Plains Closed Depression
+        Wetland"},{"values":[426],"summary":"Western Great Plains Depressional Wetland
+        Systems"},{"values":[427],"summary":"Western Great Plains Open Freshwater
+        Depression Wetland"},{"values":[428],"summary":"Cumberland Riverscour"},{"values":[429],"summary":"Inter-Mountain
+        Basins Interdunal Swale Wetland"},{"values":[430],"summary":"North Pacific
+        Avalanche Chute Shrubland"},{"values":[431],"summary":"North Pacific Intertidal
+        Freshwater Wetland"},{"values":[432],"summary":"Temperate Pacific Freshwater
+        Emergent Marsh"},{"values":[433],"summary":"Temperate Pacific Freshwater Mudflat"},{"values":[434],"summary":"Columbia
+        Plateau Vernal Pool"},{"values":[435],"summary":"Northern California Claypan
+        Vernal Pool"},{"values":[436],"summary":"Northern Rocky Mountain Wooded Vernal
+        Pool"},{"values":[437],"summary":"Columbia Plateau Silver Sagebrush Seasonally
+        Flooded Shrub-Steppe"},{"values":[438],"summary":"Rocky Mountain Alpine-Montane
+        Wet Meadow"},{"values":[439],"summary":"Rocky Mountain Subalpine-Montane Riparian
+        Shrubland"},{"values":[440],"summary":"Temperate Pacific Montane Wet Meadow"},{"values":[441],"summary":"Willamette
+        Valley Wet Prairie"},{"values":[442],"summary":"Chihuahuan-Sonoran Desert
+        Bottomland and Swale Grassland"},{"values":[443],"summary":"North American
+        Arid West Emergent Marsh"},{"values":[444],"summary":"North American Warm
+        Desert Riparian Mesquite Bosque"},{"values":[445],"summary":"Western Great
+        Plains Saline Depression Wetland"},{"values":[446],"summary":"Acadian Salt
+        Marsh and Estuary Systems"},{"values":[447],"summary":"Atlantic Coastal Plain
+        Central Salt and Brackish Tidal Marsh"},{"values":[448],"summary":"Atlantic
+        Coastal Plain Embayed Region Tidal Salt and Brackish Marsh"},{"values":[449],"summary":"Atlantic
+        Coastal Plain Indian River Lagoon Tidal Marsh"},{"values":[450],"summary":"Atlantic
+        Coastal Plain Northern Tidal Salt Marsh"},{"values":[451],"summary":"Florida
+        Big Bend Salt-Brackish Tidal Marsh"},{"values":[452],"summary":"Gulf and Atlantic
+        Coastal Plain Tidal Marsh Systems"},{"values":[453],"summary":"Mississippi
+        Sound Salt and Brackish Tidal Marsh"},{"values":[454],"summary":"Texas Saline
+        Coastal Prairie"},{"values":[455],"summary":"Temperate Pacific Tidal Salt
+        and Brackish Marsh"},{"values":[456],"summary":"Inter-Mountain Basins Alkaline
+        Closed Depression"},{"values":[457],"summary":"Inter-Mountain Basins Greasewood
+        Flat"},{"values":[458],"summary":"Inter-Mountain Basins Playa"},{"values":[459],"summary":"North
+        American Warm Desert Playa"},{"values":[460],"summary":"Apacherian-Chihuahuan
+        Mesquite Upland Scrub"},{"values":[461],"summary":"Apacherian-Chihuahuan Semi-Desert
+        Grassland and Steppe"},{"values":[462],"summary":"Chihuahuan Creosotebush,
+        Mixed Desert and Thorn Scrub"},{"values":[463],"summary":"Chihuahuan Gypsophilous
+        Grassland and Steppe"},{"values":[464],"summary":"Chihuahuan Loamy Plains
+        Desert Grassland"},{"values":[465],"summary":"Chihuahuan Mixed Desert and
+        Thorn Scrub"},{"values":[466],"summary":"Chihuahuan Sandy Plains Semi-Desert
+        Grassland"},{"values":[467],"summary":"Chihuahuan Stabilized Coppice Dune
+        and Sand Flat Scrub"},{"values":[468],"summary":"Chihuahuan Succulent Desert
+        Scrub"},{"values":[469],"summary":"Madrean Juniper Savanna"},{"values":[470],"summary":"Mojave
+        Mid-Elevation Mixed Desert Scrub"},{"values":[471],"summary":"North American
+        Warm Desert Active and Stabilized Dune"},{"values":[472],"summary":"Sonora-Mojave
+        Creosotebush-White Bursage Desert Scrub"},{"values":[473],"summary":"Sonoran
+        Mid-Elevation Desert Scrub"},{"values":[474],"summary":"Sonoran Paloverde-Mixed
+        Cacti Desert Scrub"},{"values":[475],"summary":"Chihuahuan Mixed Salt Desert
+        Scrub"},{"values":[476],"summary":"Sonora-Mojave Mixed Salt Desert Scrub"},{"values":[477],"summary":"North
+        American Warm Desert Wash"},{"values":[478],"summary":"South Texas Lomas"},{"values":[479],"summary":"Tamaulipan
+        Calcareous Thornscrub"},{"values":[480],"summary":"Tamaulipan Clay Grassland"},{"values":[481],"summary":"Tamaulipan
+        Mesquite Upland Scrub"},{"values":[482],"summary":"Tamaulipan Mixed Deciduous
+        Thornscrub"},{"values":[483],"summary":"Tamaulipan Savanna Grassland"},{"values":[484],"summary":"Inter-Mountain
+        Basins Mat Saltbush Shrubland"},{"values":[485],"summary":"Inter-Mountain
+        Basins Mixed Salt Desert Scrub"},{"values":[486],"summary":"Inter-Mountain
+        Basins Wash"},{"values":[487],"summary":"Columbia Plateau Steppe and Grassland"},{"values":[488],"summary":"Great
+        Basin Xeric Mixed Sagebrush Shrubland"},{"values":[489],"summary":"Inter-Mountain
+        Basins Big Sagebrush Shrubland"},{"values":[490],"summary":"Inter-Mountain
+        Basins Big Sagebrush Steppe"},{"values":[491],"summary":"Inter-Mountain Basins
+        Montane Sagebrush Steppe"},{"values":[492],"summary":"Colorado Plateau Mixed
+        Low Sagebrush Shrubland"},{"values":[493],"summary":"Columbia Plateau Low
+        Sagebrush Steppe"},{"values":[494],"summary":"Columbia Plateau Scabland Shrubland"},{"values":[495],"summary":"Wyoming
+        Basins Dwarf Sagebrush Shrubland and Steppe"},{"values":[496],"summary":"Colorado
+        Plateau Blackbrush-Mormon-tea Shrubland"},{"values":[497],"summary":"Inter-Mountain
+        Basins Semi-Desert Grassland"},{"values":[498],"summary":"Inter-Mountain Basins
+        Semi-Desert Shrub Steppe"},{"values":[499],"summary":"Southern Colorado Plateau
+        Sand Shrubland"},{"values":[500],"summary":"Acadian-Appalachian Alpine Tundra"},{"values":[501],"summary":"Rocky
+        Mountain Alpine Dwarf-Shrubland"},{"values":[502],"summary":"Rocky Mountain
+        Alpine Fell-Field"},{"values":[503],"summary":"Rocky Mountain Alpine Turf"},{"values":[504],"summary":"Mediterranean
+        California Alpine Dry Tundra"},{"values":[505],"summary":"Mediterranean California
+        Alpine Fell-Field"},{"values":[506],"summary":"North Pacific Dry and Mesic
+        Alpine Dwarf-Shrubland, Fell-field and Meadow"},{"values":[507],"summary":"Rocky
+        Mountain Alpine Tundra/Fell-field/Dwarf-shrub Map Unit"},{"values":[508],"summary":"Temperate
+        Pacific Intertidal Mudflat"},{"values":[509],"summary":"Mediterranean California
+        Eelgrass Bed"},{"values":[510],"summary":"North Pacific Maritime Eelgrass
+        Bed"},{"values":[511],"summary":"South-Central Interior Large Floodplain -
+        Herbaceous Modifier"},{"values":[512],"summary":"East Gulf Coastal Plain Large
+        River Floodplain Forest - Herbaceous Modifier"},{"values":[513],"summary":"Temperate
+        Pacific Freshwater Aquatic Bed"},{"values":[514],"summary":"Central California
+        Coast Ranges Cliff and Canyon"},{"values":[515],"summary":"Mediterranean California
+        Serpentine Barrens"},{"values":[516],"summary":"Southern California Coast
+        Ranges Cliff and Canyon"},{"values":[517],"summary":"Central Interior Acidic
+        Cliff and Talus"},{"values":[518],"summary":"Central Interior Calcareous Cliff
+        and Talus"},{"values":[519],"summary":"East Gulf Coastal Plain Dry Chalk Bluff"},{"values":[520],"summary":"North-Central
+        Appalachian Acidic Cliff and Talus"},{"values":[521],"summary":"North-Central
+        Appalachian Circumneutral Cliff and Talus"},{"values":[522],"summary":"Southern
+        Appalachian Montane Cliff"},{"values":[523],"summary":"Southern Interior Acid
+        Cliff"},{"values":[524],"summary":"Southern Interior Calcareous Cliff"},{"values":[525],"summary":"Southern
+        Piedmont Cliff"},{"values":[526],"summary":"Southern Appalachian Granitic
+        Dome"},{"values":[527],"summary":"Southern Appalachian Rocky Summit"},{"values":[528],"summary":"Southern
+        Piedmont Granite Flatrock"},{"values":[529],"summary":"Rocky Mountain Cliff,
+        Canyon and Massive Bedrock"},{"values":[530],"summary":"Klamath-Siskiyou Cliff
+        and Outcrop"},{"values":[531],"summary":"North Pacific Montane Massive Bedrock,
+        Cliff and Talus"},{"values":[532],"summary":"North Pacific Serpentine Barren"},{"values":[533],"summary":"North
+        Pacific Active Volcanic Rock and Cinder Land"},{"values":[534],"summary":"Sierra
+        Nevada Cliff and Canyon"},{"values":[535],"summary":"Western Great Plains
+        Badland"},{"values":[536],"summary":"Southwestern Great Plains Canyon"},{"values":[537],"summary":"Western
+        Great Plains Cliff and Outcrop"},{"values":[538],"summary":"North American
+        Warm Desert Badland"},{"values":[539],"summary":"North American Warm Desert
+        Bedrock Cliff and Outcrop"},{"values":[540],"summary":"North American Warm
+        Desert Pavement"},{"values":[541],"summary":"North American Warm Desert Volcanic
+        Rockland"},{"values":[542],"summary":"Colorado Plateau Mixed Bedrock Canyon
+        and Tableland"},{"values":[543],"summary":"Columbia Plateau Ash and Tuff Badland"},{"values":[544],"summary":"Geysers
+        and Hot Springs"},{"values":[545],"summary":"Inter-Mountain Basins Active
+        and Stabilized Dune"},{"values":[546],"summary":"Inter-Mountain Basins Cliff
+        and Canyon"},{"values":[547],"summary":"Inter-Mountain Basins Shale Badland"},{"values":[548],"summary":"Inter-Mountain
+        Basins Volcanic Rock and Cinder Land"},{"values":[549],"summary":"Rocky Mountain
+        Alpine Bedrock and Scree"},{"values":[550],"summary":"Mediterranean California
+        Alpine Bedrock and Scree"},{"values":[551],"summary":"North Pacific Alpine
+        and Subalpine Bedrock and Scree"},{"values":[552],"summary":"Unconsolidated
+        Shore"},{"values":[553],"summary":"Undifferentiated Barren Land"},{"values":[554],"summary":"North
+        American Alpine Ice Field"},{"values":[555],"summary":"Orchards Vineyards
+        and Other High Structure Agriculture"},{"values":[556],"summary":"Cultivated
+        Cropland"},{"values":[557],"summary":"Pasture/Hay"},{"values":[558],"summary":"Introduced
+        Upland Vegetation - Annual Grassland"},{"values":[559],"summary":"Introduced
+        Upland Vegetation - Perennial Grassland and Forbland"},{"values":[560],"summary":"Modified/Managed
+        Southern Tall Grassland"},{"values":[561],"summary":"Introduced Upland Vegetation
+        - Shrub"},{"values":[562],"summary":"Introduced Riparian and Wetland Vegetation"},{"values":[563],"summary":"Introduced
+        Upland Vegetation - Treed"},{"values":[564],"summary":"0"},{"values":[565],"summary":"Disturbed,
+        Non-specific"},{"values":[566],"summary":"Recently Logged Areas"},{"values":[567],"summary":"Harvested
+        Forest - Grass/Forb Regeneration"},{"values":[568],"summary":"Harvested Forest-Shrub
+        Regeneration"},{"values":[569],"summary":"Harvested Forest - Northwestern
+        Conifer Regeneration"},{"values":[570],"summary":"Recently Burned"},{"values":[571],"summary":"Recently
+        burned grassland"},{"values":[572],"summary":"Recently burned shrubland"},{"values":[573],"summary":"Recently
+        burned forest"},{"values":[574],"summary":"Disturbed/Successional - Grass/Forb
+        Regeneration"},{"values":[575],"summary":"Disturbed/Successional - Shrub Regeneration"},{"values":[576],"summary":"Disturbed/Successional
+        - Recently Chained Pinyon-Juniper"},{"values":[577],"summary":"Open Water
+        (Aquaculture)"},{"values":[578],"summary":"Open Water (Brackish/Salt)"},{"values":[579],"summary":"Open
+        Water (Fresh)"},{"values":[580],"summary":"Quarries, Mines, Gravel Pits and
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+        specimen-related data from natural history museums, observations from citizen
+        science networks, and automated environmental surveys. While these data are
+        constantly changing at [GBIF.org](https://www.gbif.org), periodic snapshots
+        are taken and made available here. \n\nData are stored in [Parquet](https://parquet.apache.org/)
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+        to [terms from the Darwin Core standard](https://dwc.tdwg.org/terms/), and
+        have been interpreted by GBIF''s systems to align taxonomy, location, dates,
+        etc.  Additional information may be retrieved using the [GBIF API](https://www.gbif.org/developer/summary).\n\nPlease
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+        for information about how to cite GBIF data in publications.. For analyses
+        using the whole dataset, please use the following citation:\n\n> GBIF.org
+        ([Date]) GBIF Occurrence Data [DOI of dataset]\n\nFor analyses where data
+        are significantly filtered, please track the datasetKeys used and use a \"[derived
+        dataset](https://www.gbif.org/citation-guidelines#derivedDatasets)\" record
+        for citing the data.\n\nThe [GBIF data blog](https://data-blog.gbif.org/categories/gbif/)
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+        UUID for the [dataset](https://www.gbif.org/developer/registry#datasets) containing
+        this occurrence"},{"name":"occurrenceid","type":"byte_array","description":"See
+        [dwc:occurrenceID](https://dwc.tdwg.org/terms/#occurrenceID)."},{"name":"kingdom","type":"byte_array","description":"See
+        [dwc:kingdom](https://dwc.tdwg.org/terms/#kingdom).  This field has been aligned
+        with the [GBIF backbone taxonomy](https://doi.org/10.15468/39omei)."},{"name":"phylum","type":"byte_array","description":"See
+        [dwc:phylum](https://dwc.tdwg.org/terms/#phylum).  This field has been aligned
+        with the GBIF backbone taxonomy."},{"name":"class","type":"byte_array","description":"See
+        [dwc:class](https://dwc.tdwg.org/terms/#class).  This field has been aligned
+        with the GBIF backbone taxonomy."},{"name":"order","type":"byte_array","description":"See
+        [dwc:order](https://dwc.tdwg.org/terms/#order).  This field has been aligned
+        with the GBIF backbone taxonomy."},{"name":"family","type":"byte_array","description":"See
+        [dwc:family](https://dwc.tdwg.org/terms/#family).  This field has been aligned
+        with the GBIF backbone taxonomy."},{"name":"genus","type":"byte_array","description":"See
+        [dwc:genus](https://dwc.tdwg.org/terms/#genus).  This field has been aligned
+        with the GBIF backbone taxonomy."},{"name":"species","type":"byte_array","description":"See
+        [dwc:species](https://dwc.tdwg.org/terms/#species).  This field has been aligned
+        with the GBIF backbone taxonomy."},{"name":"infraspecificepithet","type":"byte_array","description":"See
+        [dwc:infraspecificEpithet](https://dwc.tdwg.org/terms/#infraspecificEpithet).  This
+        field has been aligned with the GBIF backbone taxonomy."},{"name":"taxonrank","type":"byte_array","description":"See
+        [dwc:taxonRank](https://dwc.tdwg.org/terms/#taxonRank).  This field has been
+        aligned with the GBIF backbone taxonomy."},{"name":"scientificname","type":"byte_array","description":"See
+        [dwc:scientificName](https://dwc.tdwg.org/terms/#scientificName).  This field
+        has been aligned with the GBIF backbone taxonomy."},{"name":"verbatimscientificname","type":"byte_array","description":"The
+        scientific name as provided by the data publisher"},{"name":"verbatimscientificnameauthorship","type":"byte_array","description":"The
+        scientific name authorship provided by the data publisher."},{"name":"countrycode","type":"byte_array","description":"See
+        [dwc:countryCode](https://dwc.tdwg.org/terms/#countryCode).  GBIF''s interpretation
+        has set this to an ISO 3166-2 code."},{"name":"locality","type":"byte_array","description":"See
+        [dwc:locality](https://dwc.tdwg.org/terms/#locality)."},{"name":"stateprovince","type":"byte_array","description":"See
+        [dwc:stateProvince](https://dwc.tdwg.org/terms/#stateProvince)."},{"name":"occurrencestatus","type":"byte_array","description":"See
+        [dwc:occurrenceStatus](https://dwc.tdwg.org/terms/#occurrenceStatus). Either
+        the value `PRESENT` or `ABSENT`.  **Many users will wish to filter for `PRESENT`
+        data.**"},{"name":"individualcount","type":"int32","description":"See [dwc:individualCount](https://dwc.tdwg.org/terms/#individualCount)."},{"name":"publishingorgkey","type":"byte_array","description":"GBIF''s
+        UUID for the [organization](https://www.gbif.org/developer/registry#organizations)
+        publishing this occurrence."},{"name":"decimallatitude","type":"double","description":"See
+        [dwc:decimalLatitude](https://dwc.tdwg.org/terms/#decimalLatitude).  GBIF''s
+        interpretation has normalized this to a WGS84 coordinate."},{"name":"decimallongitude","type":"double","description":"See
+        [dwc:decimalLongitude](https://dwc.tdwg.org/terms/#decimalLongitude).  GBIF''s
+        interpretation has normalized this to a WGS84 coordinate."},{"name":"coordinateuncertaintyinmeters","type":"double","description":"See
+        [dwc:coordinateUncertaintyInMeters](https://dwc.tdwg.org/terms/#coordinateUncertaintyInMeters)."},{"name":"coordinateprecision","type":"double","description":"See
+        [dwc:coordinatePrecision](https://dwc.tdwg.org/terms/#coordinatePrecision)."},{"name":"elevation","type":"double","description":"See
+        [dwc:elevation](https://dwc.tdwg.org/terms/#elevation).  If provided by the
+        data publisher, GBIF''s interpretation has normalized this value to metres."},{"name":"elevationaccuracy","type":"double","description":"See
+        [dwc:elevationAccuracy](https://dwc.tdwg.org/terms/#elevationAccuracy).  If
+        provided by the data publisher, GBIF''s interpretation has normalized this
+        value to metres."},{"name":"depth","type":"double","description":"See [dwc:depth](https://dwc.tdwg.org/terms/#depth).  If
+        provided by the data publisher, GBIF''s interpretation has normalized this
+        value to metres."},{"name":"depthaccuracy","type":"double","description":"See
+        [dwc:depthAccuracy](https://dwc.tdwg.org/terms/#depthAccuracy).  If provided
+        by the data publisher, GBIF''s interpretation has normalized this value to
+        metres."},{"name":"eventdate","type":"byte_array","description":"See [dwc:eventDate](https://dwc.tdwg.org/terms/#eventDate).  GBIF''s
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+        time."},{"name":"day","type":"int32","description":"See [dwc:day](https://dwc.tdwg.org/terms/#day)."},{"name":"month","type":"int32","description":"See
+        [dwc:month](https://dwc.tdwg.org/terms/#month)."},{"name":"year","type":"int32","description":"See
+        [dwc:year](https://dwc.tdwg.org/terms/#year)."},{"name":"taxonkey","type":"int32","description":"The
+        numeric identifier for the [taxon](https://www.gbif.org/developer/species#nameUsages)
+        in GBIF''s backbone taxonomy corresponding to `scientificname`."},{"name":"specieskey","type":"int32","description":"The
+        numeric identifier for the taxon in GBIF''s backbone taxonomy corresponding
+        to `species`."},{"name":"basisofrecord","type":"byte_array","description":"See
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+        `MACHINE_OBSERVATION`, `MATERIAL_SAMPLE`, `LITERATURE`, `UNKNOWN`."},{"name":"institutioncode","type":"byte_array","description":"See
+        [dwc:institutionCode](https://dwc.tdwg.org/terms/#institutionCode)."},{"name":"collectioncode","type":"byte_array","description":"See
+        [dwc:collectionCode](https://dwc.tdwg.org/terms/#collectionCode)."},{"name":"catalognumber","type":"byte_array","description":"See
+        [dwc:catalogNumber](https://dwc.tdwg.org/terms/#catalogNumber)."},{"name":"recordnumber","type":"byte_array","description":"See
+        [dwc:recordNumber](https://dwc.tdwg.org/terms/#recordNumber)."},{"name":"identifiedby","type":"byte_array","description":"See
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+        [dwc:dateIdentified](https://dwc.tdwg.org/terms/#dateIdentified). An ISO 8601
+        date."},{"name":"license","type":"byte_array","description":"See [dwc:license](https://dwc.tdwg.org/terms/#license).
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+        [dwc:typeStatus](https://dwc.tdwg.org/terms/#typeStatus)."},{"name":"establishmentmeans","type":"byte_array","description":"See
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+        It marked the 24th census in U.S. history and the first time that households
+        were invited to respond to the census online.\n\nThe tables included on the
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+        at various levels of cartographic aggregation.\n","item_assets":{"data":{"type":"application/x-parquet","roles":["data"],"title":"Dataset
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+        file contains data for legal and statistical [American Indian/Alaska Native
+        Areas/Hawaiian Home Lands (AIANNH)](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_1)
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+        Indian Tribal Subdivisions (AITSN)","description":"This file contains data
+        on [American Indian Tribal Subdivisions](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_1).
+        These areas are the legally defined subdivisions of American Indian Reservations
+        (AIR), Oklahoma Tribal Statistical Areas (OTSA), and Off-Reservation Trust
+        Land (ORTL).","msft:item_name":"cb_2020_us_aitsn_500k"},{"name":"Alaska Native
+        Regional Corporations (ANRC)","description":"This file contains data on [Alaska
+        Native Regional Corporations](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_1),
+        which are corporations created according to the Alaska Native Claims Settlement
+        Act. ","msft:item_name":"cb_2020_02_anrc_500k"},{"name":"Tribal Block Groups
+        (TBG)","description":"This file includes data on [Tribal Block Groups](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_26),
+        which are subdivisions of Tribal Census Tracts. These block groups can extend
+        over multiple AIRs and ORTLs due to areas not meeting Block Group minimum
+        population thresholds.","msft:item_name":"cb_2020_us_tbg_500k"},{"name":"Tribal
+        Census Tracts (TTRACT)","description":"This file includes data on [Tribal
+        Census Tracts](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_27)
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+        by federally recognized tribal government officials in partnership with the
+        Census Bureau. Due to population thresholds, the Tracts may consist of multiple
+        non-contiguous areas.","msft:item_name":"cb_2020_us_ttract_500k"},{"name":"Census
+        Block Groups (BG)","description":"This file contains data on [Census Block
+        Groups](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_4).
+        These groups are the second smallest geographic grouping. They consist of
+        clusters of blocks within the same census tract that share the same first
+        digit of their 4-character census block number. Census Block Groups generally
+        contain between 600 and 3,000 people and generally cover contiguous areas.","msft:item_name":"cb_2020_us_bg_500k"},{"name":"Census
+        Tracts (TRACT)","description":"This file contains data on [Census Tracts](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_13)
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+        or equivalent entity. Tract population size is generally between 1,200 and
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+        Districts: 116th Congress (CD116)","description":"This file contains data
+        on the [Congressional Districts](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_9)
+        for the 116th Congress. ","msft:item_name":"cb_2020_us_cd116_500k"},{"name":"Consolidated
+        Cities (CONCITY)","description":"This file contains data on [Consolidated
+        Cities](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_8).
+        These are areas where one or several other incorporated places in a county
+        or Minor Civil Division are included in a consolidated government but still
+        exist as separate legal entities.","msft:item_name":"cb_2020_us_concity_500k"},{"name":"Counties
+        (COUNTY)","description":"This file contains data on [Counties and Equivalent
+        Entities](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_12).
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+        \"counties,\" but other terms such as \"Parishes,\" \"Municipios,\" or \"Independent
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+        divisions vary from state to state and include Barrios, Purchases, Townships,
+        and other types of legal and statistical entities. ","msft:item_name":"cb_2020_us_cousub_500k"},{"name":"Divisions
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+        and encompasses several states per division.","msft:item_name":"cb_2020_us_division_500k"},{"name":"Core
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+        Statistical Areas](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_7),
+        which are areas that consist of two or more adjacent CBSAs that have significant
+        employment interchanges.","msft:item_name":"cb_2020_us_csa_500k"},{"name":"Metropolitan
+        Divisions (METDIV)","description":"This file contains data on [Metropolitan
+        Divisions](https://www.census.gov/programs-surveys/geography/about/glossary.html#par_textimage_7).
+        These areas are groupings of counties or equivalent entities within a metropolitan
+        statistical area with a core of 2.5 million inhabitants and one or more main
+        counties that represent employment centers, plus adjacent counties with commuting
+        ties.","msft:item_name":"cb_2020_us_metdiv_500k"},{"name":"New England City
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+        forecast system. Users should consult the [ECMWF Forecast User Guide](https://confluence.ecmwf.int/display/FUG/1+Introduction)
+        for detailed information on each of the products.\\n\\n## Overview of products\\n\\nThe
+        following diagram shows the publishing schedule of the various products.\\n\\n<a
+        href=\\\"https://ai4edatasetspublicassets.blob.core.windows.net/assets/aod_docs/ecmwf-forecast-coverage.png\\\"><img
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+        width=\\\"100%\\\"/></a>\\n\\nThe vertical axis shows the various products,
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+        and `reference time`. The horizontal axis shows *forecast times* in 3-hour
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+        products\\\") and\\n  * `waef`: [ensemble forecast](https://confluence.ecmwf.int/display/FUG/ENS+-+Ensemble+Forecasts),
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+        the reference datetime) depending on the reference time.\\n\\nVisit the [ECMWF's
+        User Guide](https://confluence.ecmwf.int/display/UDOC/ECMWF+Open+Data+-+Real+Time)
+        for more details on each of the various products.\\n\\nAssets are available
+        for the previous 30 days.\\n\\n## Asset overview\\n\\nThe data are provided
+        as [GRIB2 files](https://confluence.ecmwf.int/display/CKB/What+are+GRIB+files+and+how+can+I+read+them).\\nAdditionally,
+        [index files](https://confluence.ecmwf.int/display/UDOC/ECMWF+Open+Data+-+Real+Time#ECMWFOpenDataRealTime-IndexFilesIndexfiles)
+        are provided, which can be used to read subsets of the data from Azure Blob
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+        access the data.\\n\\n## STAC metadata\\n\\nThe Planetary Computer provides
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+        every item has the same\\n`bbox` and `geometry`.\\n\\nA few custom properties
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+        the data to items of interest:\\n\\n* `ecmwf:stream`: The forecasting system
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+        The full set of values is available in the Collection's summaries.\\n* `ecmwf:step`:
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+        listed and described on this page are available to the public and their use
+        is governed by the [Creative Commons CC-4.0-BY license and the ECMWF Terms
+        of Use](https://apps.ecmwf.int/datasets/licences/general/). This means that
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+        ECMWF dataset: \\n\\n1. Copyright statement: Copyright \\\"\xA9 [year] European
+        Centre for Medium-Range Weather Forecasts (ECMWF)\\\".\\n2. Source [www.ecmwf.int](http://www.ecmwf.int/)\\n3.
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+        4.0 International (CC BY 4.0). [https://creativecommons.org/licenses/by/4.0/](https://creativecommons.org/licenses/by/4.0/)\\n4.
+        Disclaimer: ECMWF does not accept any liability whatsoever for any error or
+        omission in the data, their availability, or for any loss or damage arising
+        from their use.\\n5. Where applicable, an indication if the material has been
+        modified and an indication of previous modifications.\\n\\nThe following wording
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+        statement: Copyright \\\"This service is based on data and products of the
+        European Centre for Medium-Range Weather Forecasts (ECMWF)\\\".\\n2. Source
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+        from their use.\\n5. Where applicable, an indication if the material has been
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+        more, see the [ECMWF's User Guide](https://confluence.ecmwf.int/display/UDOC/ECMWF+Open+Data+-+Real+Time)
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+        Collection](https://planetarycomputer.microsoft.com/dataset/sentinel-1-rtc)
+        collection is a global radiometrically terrain corrected dataset derived from
+        Sentinel-1 GRD. Additionally, users can terrain-correct on the fly using [any
+        DEM available on the Planetary Computer](https://planetarycomputer.microsoft.com/catalog?tags=DEM).
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+        precipitation. The data is provided in 1/24 degree lat/lon (nominal 5x5 kilometer)
+        grids for the Continental United States (CONUS). \n\nNClimGrid data is available
+        in monthly and daily temporal intervals, with the daily data further differentiated
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+        [Project Eclipse](https://www.microsoft.com/en-us/research/project/project-eclipse/)
+        Network is a low-cost air quality sensing network for cities and a research
+        project led by the [Urban Innovation Group]( https://www.microsoft.com/en-us/research/urban-innovation-research/)
+        at Microsoft Research.\\n\\nProject Eclipse currently includes over 100 locations
+        in Chicago, Illinois, USA.\\n\\nThis network was deployed starting in July,
+        2021, through a collaboration with the City of Chicago, the Array of Things
+        Project, JCDecaux Chicago, and the Environmental Law and Policy Center as
+        well as local environmental justice organizations in the city. [This talk](
+        https://www.microsoft.com/en-us/research/video/technology-demo-project-eclipse-hyperlocal-air-quality-monitoring-for-cities/)
+        documents the network design and data calibration strategy.\\n\\n## Storage
+        resources\\n\\nData are stored in [Parquet](https://parquet.apache.org/) files
+        in Azure Blob Storage in the West Europe Azure region, in the following blob
+        container:\\n\\n`https://ai4edataeuwest.blob.core.windows.net/eclipse`\\n\\nWithin
+        that container, the periodic occurrence snapshots are stored in `Chicago/YYYY-MM-DD`,
+        where `YYYY-MM-DD` corresponds to the date of the snapshot.\\nEach snapshot
+        contains a sensor readings from the next 7-days in Parquet format starting
+        with date on the folder name YYYY-MM-DD.\\nTherefore, the data files for the
+        first snapshot are at\\n\\n`https://ai4edataeuwest.blob.core.windows.net/eclipse/chicago/2022-01-01/data_*.parquet\\n\\nThe
+        Parquet file schema is as described below. \\n\\n## Additional Documentation\\n\\nFor
+        details on Calibration of Pm2.5, O3 and NO2, please see [this PDF](https://ai4edatasetspublicassets.blob.core.windows.net/assets/aod_docs/Calibration_Doc_v1.1.pdf).\\n\\n##
+        License and attribution\\nPlease cite: Daepp, Cabral, Ranganathan et al. (2022)
+        [Eclipse: An End-to-End Platform for Low-Cost, Hyperlocal Environmental Sensing
+        in Cities. ACM/IEEE Information Processing in Sensor Networks. Milan, Italy.](https://www.microsoft.com/en-us/research/uploads/prod/2022/05/ACM_2022-IPSN_FINAL_Eclipse.pdf)\\n\\n##
+        Contact\\n\\nFor questions about this dataset, contact [`msrurbanops@microsoft.com`](mailto:msrurbanops@microsoft.com?subject=eclipse%20question)
+        \\n\\n\\n## Learn more\\n\\nThe [Eclipse Project](https://www.microsoft.com/en-us/research/urban-innovation-research/)
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+        produces the dataset (v2.1) for the ESA Climate Change Initiative."},{"url":"https://brockmann-consult.de","name":"Brockmann
+        Consult","roles":["processor"],"description":"Brockmann Consult is responsible
+        for the required pre-processing and the distribution of the dataset (v2.1)."},{"url":"http://esa-landcover-cci.org","name":"ESA
+        Climate Change Initiative","roles":["licensor"],"description":"The ESA Climate
+        Change Initiative (CCI) is leading the product creation."},{"url":"https://copernicus.eu","name":"Copernicus","roles":["licensor"],"description":"Hosts
+        the data on the Copernicus Climate Data Store (CDS)."},{"url":"https://planetarycomputer.microsoft.com","name":"Microsoft","roles":["host"]}],"summaries":{"esa_cci_lc:version":["2.0.7cds","2.1.1"]},"description":"The
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+        provides consistent global annual land cover maps at 300m spatial resolution
+        from 1992 to 2020. The land cover classes are defined using the United Nations
+        Food and Agriculture Organization''s (UN FAO) [Land Cover Classification System](https://www.fao.org/land-water/land/land-governance/land-resources-planning-toolbox/category/details/en/c/1036361/)
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+        to document the reliability of the classification and change detection. \n\nThe
+        data in this Collection are the original NetCDF files accessed from the [Copernicus
+        Climate Data Store](https://cds.climate.copernicus.eu/#!/home). We recommend
+        users use the [`esa-cci-lc` Collection](planetarycomputer.microsoft.com/dataset/esa-cci-lc),
+        which provides the data as Cloud Optimized GeoTIFFs.","item_assets":{"netcdf":{"type":"application/netcdf","roles":["data","quality"],"title":"ESA
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+        U.S. Fish and Wildlife Service is the principal federal agency tasked with
+        providing information to the public on the extent and status of the nation''s
+        wetland and deepwater habitats, as well as changes to these habitats over
+        time."},{"url":"https://planetarycomputer.microsoft.com","name":"Microsoft","roles":["host"]}],"summaries":{"fws_nwi:state":["Alabama","Alaska","Arizona","Arkansas","California","Colorado","Connecticut","Delaware","District
+        of Columbia","Florida","Georgia","Hawaii","Idaho","Illinois","Indiana","Iowa","Kansas","Kentucky","Louisiana","Maine","Maryland","Massachusetts","Michigan","Minnesota","Mississippi","Missouri","Montana","Nebraska","Nevada","New
+        Hampshire","New Jersey","New Mexico","New York","North Carolina","North Dakota","Ohio","Oklahoma","Oregon","Pacific
+        Trust Islands","Pennsylvania","Puerto Rico and Virgin Islands","Rhode Island","South
+        Carolina","South Dakota","Tennessee","Texas","Utah","Vermont","Virginia","Washington","West
+        Virginia","Wisconsin","Wyoming"],"fws_nwi:content":["riparian","historic_wetlands","wetlands"],"fws_nwi:state_code":["AL","AK","AZ","AR","CA","CO","CT","DE","DC","FL","GA","HI","ID","IL","IN","IA","KS","KY","LA","ME","MD","MA","MI","MN","MS","MO","MT","NE","NV","NH","NJ","NM","NY","NC","ND","OH","OK","OR","PacTrust","PA","PRVI","RI","SC","SD","TN","TX","UT","VT","VA","WA","WV","WI","WY"]},"description":"The
+        Wetlands Data Layer is the product of over 45 years of work by the National
+        Wetlands Inventory (NWI) and its collaborators and currently contains more
+        than 35 million wetland and deepwater features. This dataset, covering the
+        conterminous United States, Hawaii, Puerto Rico, the Virgin Islands, Guam,
+        the major Northern Mariana Islands and Alaska, continues to grow at a rate
+        of 50 to 100 million acres annually as data are updated.\n\n**NOTE:** Due
+        to the variation in use and analysis of this data by the end user, each  state''s
+        wetlands data extends beyond the state boundary. Each state includes wetlands
+        data that intersect the 1:24,000 quadrangles that contain part of that state
+        (1:2,000,000 source data). This allows the user to clip the data to their
+        specific analysis datasets. Beware that two adjacent states will contain some
+        of the same data along their borders.\n\nFor more information, visit the National
+        Wetlands Inventory [homepage](https://www.fws.gov/program/national-wetlands-inventory).\n\n##
+        STAC Metadata\n\nIn addition to the `zip` asset in every STAC item, each item
+        has its own assets unique to its wetlands. In general, each item will have
+        several assets, each linking to a [geoparquet](https://github.com/opengeospatial/geoparquet)
+        asset with data for the entire region or a sub-region within that state. Use
+        the `cloud-optimized` [role](https://github.com/radiantearth/stac-spec/blob/master/item-spec/item-spec.md#asset-roles)
+        to select just the geoparquet assets. See the Example Notebook for more.","item_assets":{"zip":{"type":"application/zip","roles":["data","archive","source"]}},"stac_version":"1.0.0","msft:container":"fws-nwi","stac_extensions":["https://stac-extensions.github.io/item-assets/v1.0.0/schema.json"],"msft:storage_account":"ai4edataeuwest","msft:short_description":"Vector
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+        States Geological Survey","roles":["producer","processor","licensor"]},{"url":"https://planetarycomputer.microsoft.com","name":"Microsoft","roles":["processor","host"]}],"summaries":{"usgs_lcmap:vertical_tile":{"maximum":20,"minimum":0},"usgs_lcmap:horizontal_tile":{"maximum":32,"minimum":1}},"description":"The
+        [Land Change Monitoring, Assessment, and Projection](https://www.usgs.gov/special-topics/lcmap)
+        (LCMAP) product provides land cover mapping and change monitoring from the
+        U.S. Geological Survey''s [Earth Resources Observation and Science](https://www.usgs.gov/centers/eros)
+        (EROS) Center. LCMAP''s Science Products are developed by applying time-series
+        modeling on a per-pixel basis to [Landsat Analysis Ready Data](https://www.usgs.gov/landsat-missions/landsat-us-analysis-ready-data)
+        (ARD) using an implementation of the [Continuous Change Detection and Classification](https://doi.org/10.1016/j.rse.2014.01.011)
+        (CCDC) algorithm. All available clear (non-cloudy) U.S. Landsat ARD observations
+        are fit to a harmonic model to predict future Landsat-like surface reflectance.
+        Where Landsat surface reflectance observations differ significantly from those
+        predictions, a change is identified. Attributes of the resulting model sequences
+        (e.g., start/end dates, residuals, model coefficients) are then used to produce
+        a set of land surface change products and as inputs to the subsequent classification
+        to thematic land cover. \n\nThis [STAC](https://stacspec.org/en) Collection
+        contains [LCMAP CONUS Collection 1.3](https://www.usgs.gov/special-topics/lcmap/collection-13-conus-science-products),
+        which was released in August 2022 for years 1985-2021. The data are tiled
+        according to the Landsat ARD tile grid and consist of [Cloud Optimized GeoTIFFs](https://www.cogeo.org/)
+        (COGs) and corresponding metadata files. Note that the provided COGs differ
+        slightly from those in the USGS source data. They have been reprocessed to
+        add overviews, \"nodata\" values where appropriate, and an updated projection
+        definition.\n","item_assets":{"dates":{"type":"text/plain","roles":["metadata"],"title":"Landsat
+        Observation Dates","description":"Landsat observation dates used as input
+        to the CCDC algorithm."},"lcpri":{"type":"image/tiff; application=geotiff;
+        profile=cloud-optimized","roles":["data"],"title":"Primary Land Cover","description":"Land
+        cover classification consisting of eight general land cover types. The most
+        likely land cover according to the modeling process.","raster:bands":[{"nodata":0,"sampling":"area","data_type":"uint8","spatial_resolution":30}],"classification:classes":[{"name":"nodata","value":0,"color_hint":"000000","description":"No
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+        in days, since the last identified Spectral Change (SCTIME).","raster:bands":[{"sampling":"area","data_type":"uint16","spatial_resolution":30}]},"scstab":{"type":"image/tiff;
+        application=geotiff; profile=cloud-optimized","roles":["data"],"title":"Spectral
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+        a pixel has been in its current spectral state as of July 1st. Current spectral
+        state can refer to both during stable time series segments or a period outside
+        of stable time series segments.","raster:bands":[{"sampling":"area","data_type":"uint16","spatial_resolution":30}]},"sctime":{"type":"image/tiff;
+        application=geotiff; profile=cloud-optimized","roles":["data"],"title":"Time
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+        within the current product year as the day of year the change occurred.","raster:bands":[{"sampling":"area","data_type":"uint16","spatial_resolution":30}]},"lcpconf":{"type":"image/tiff;
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+        series model identified as transition from a Grass/Shrub class to a Tree Cover
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+        series model identified as transition from a Tree Cover class to a Grass/Shrub
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+        Level 1 classification schema, see LCMAP Science Product Guide for more information)."},{"values":[202],"summary":"Insufficient
+        data available to extend most recent time series model past July 1st of current
+        year. Land cover assigned the last identified cover class from earlier year."},{"values":[211],"summary":"July
+        1st falls in a gap between two stable time series models of the same land
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+        later model."},{"values":[213],"summary":"Insufficient data available to establish
+        a stable time series model at the beginning of the time series prior to July
+        1st of the current year. Primary Land Cover assigned the primary land cover
+        class of 1st subsequent model."},{"values":[214],"summary":"Insufficient data
+        available to establish a new stable time series model following a break near
+        the end of the time series prior to July 1st of the current year. Primary
+        Land Cover assigned the last identified primary land cover class from earlier
+        year."}],"raster:bands":[{"nodata":0,"sampling":"area","data_type":"uint8","spatial_resolution":30}]},"lcsconf":{"type":"image/tiff;
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+        of Primary."},{"values":[152],"summary":"Time series model identified as transition
+        from a Tree Cover class to a Grass/Shrub class in Primary Land Cover. Primary
+        Land Cover class assignment based on secondary analysis and Secondary Land
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+        Cover assigned the land cover class present in NLCD-2001 (cross-walked to
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+        data available to extend most recent time series model past July 1st of current
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+        two stable time series models of the same secondary land cover class. Secondary
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+        land cover classes. If July 1st is before the ''break date'' of the earlier
+        model, Secondary Land Cover is assigned the secondary land cover class of
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+        land cover class of the subsequent model."},{"values":[213],"summary":"Insufficient
+        data available to establish a stable time series model at the beginning of
+        the time series prior to July 1st of the current year. Secondary Land Cover
+        assigned the secondary land cover class of 1st subsequent model."},{"values":[214],"summary":"Insufficient
+        data available to establish a new stable time series model following a break
+        near the end of the time series prior to July 1st of the current year. Secondary
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+        A.L., Zelenak, D., Reker, R.R., and Rover, J., 2020, Lessons learned implementing
+        an operational continuous United States national land change monitoring capability-The
+        Land Change Monitoring, Assessment, and Projection (LCMAP) approach: Remote
+        Sensing of Environment, v. 238, article 111356"},{"doi":"10.1016/j.rse.2014.01.011","citation":"Zhu,
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+        (LCMAP) product provides land cover mapping and change monitoring from the
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+        (EROS) Center. LCMAP''s Science Products are developed by applying time-series
+        modeling on a per-pixel basis to [Landsat Analysis Ready Data](https://www.usgs.gov/landsat-missions/landsat-us-analysis-ready-data)
+        (ARD) using an implementation of the [Continuous Change Detection and Classification](https://doi.org/10.1016/j.rse.2014.01.011)
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+        (e.g., start/end dates, residuals, model coefficients) are then used to produce
+        a set of land surface change products and as inputs to the subsequent classification
+        to thematic land cover. \n\nThis [STAC](https://stacspec.org/en) Collection
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+        which was released in January 2022 for years 2000-2020. The data are tiled
+        according to the Landsat ARD tile grid and consist of [Cloud Optimized GeoTIFFs](https://www.cogeo.org/)
+        (COGs) and corresponding metadata files. Note that the provided COGs differ
+        slightly from those in the USGS source data. They have been reprocessed to
+        add overviews, \"nodata\" values where appropriate, and an updated projection
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+        a stable time series model at the beginning of the time series prior to July
+        1st of the current year. Primary Land Cover assigned the primary land cover
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+        provide a continuous grid of temperature and precipitation data across the
+        contiguous United States (CONUS). The grids are derived from NOAA's [NClimGrid
+        dataset](https://planetarycomputer.microsoft.com/dataset/group/noaa-nclimgrid),
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+        match that of NClimGrid. Monthly, seasonal, and annual gridded normals are
+        computed from simple averages of the NClimGrid data and are provided for three
+        time-periods: 1901\u20132020, 1991\u20132020, and 2006\u20132020. Daily gridded
+        normals are smoothed for a smooth transition from one day to another and are
+        provided for two time-periods: 1991\u20132020, and 2006\u20132020.\\n\\nNOAA
+        produces Climate Normals in accordance with the [World Meteorological Organization](https://public.wmo.int/en)
+        (WMO), of which the United States is a member. The WMO requires each member
+        nation to compute 30-year meteorological quantity averages at least every
+        30 years, and recommends an update each decade, in part to incorporate newer
+        weather stations. The 1991\u20132020 U.S. Climate Normals are the latest in
+        a series of decadal normals first produced in the 1950s. \\n\\nThis Collection
+        contains gridded data for the following frequencies and time periods:\\n\\n-
+        Annual, seasonal, and monthly normals\\n    - 100-year (1901\u20132000)\\n
+        \   - 30-year (1991\u20132020)\\n    - 15-year (2006\u20132020)\\n- Daily
+        normals\\n    - 30-year (1991\u20132020)\\n    - 15-year (2006\u20132020)\\n\\nThe
+        data in this Collection have been converted from the original NetCDF format
+        to Cloud Optimized GeoTIFFs (COGs). The source NetCDF files are delivered
+        to Azure as part of the [NOAA Open Data Dissemination (NODD) Program](https://www.noaa.gov/information-technology/open-data-dissemination).\\n\\n##
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+        fields that can be used to further filter the data.\\n\\n* `noaa_climate_normals:period`:
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+        or \\\"2006-2020\\\".\\n* `noaa_climate_normals:frequency`: Climate normal
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+        Time step index, e.g., month of year (1-12).\\n\\nThe `description` field
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+        description.\\n\\nThe STAC keys for most assets consist of two abbreviations.
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+        over the time period    |\\n| tmax         | Maximum temperature over the
+        time period |\\n| tmin         | Minimum temperature over the time period
+        |\\n\\nAnd an \\\"aggregation\\\":\\n\\n| Abbreviation |                                  Description
+        \                                  |\\n| ------------ | ------------------------------------------------------------------------------
+        |\\n| max          | Maximum of the variable over the time period                                   |\\n|
+        min          | Minimum of the variable over the time period                                   |\\n|
+        std          | Standard deviation of the value over the time period                           |\\n|
+        flag         | An count of the number of inputs (months, years, etc.) to calculate
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+        World Climate Research Programme's [6th Coupled Model Intercomparison Project
+        (CMIP6)](https://www.wcrp-climate.org/wgcm-cmip/wgcm-cmip6) represents an
+        enormous advance in the quality, detail, and scope of climate modeling.\\n\\nThe
+        [Global Downscaled Projections for Climate Impacts Research](https://github.com/ClimateImpactLab/downscaleCMIP6)
+        dataset makes this modeling more applicable to understanding the impacts of
+        changes in the climate on humans and society with two key developments: trend-preserving
+        bias correction and downscaling. In this dataset, the [Climate Impact Lab](https://impactlab.org)
+        provides global, daily minimum and maximum air temperature at the surface
+        (`tasmin` and `tasmax`) and daily cumulative surface precipitation (`pr`)
+        corresponding to the CMIP6 historical, ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5
+        scenarios for 25 global climate models on a 1/4-degree regular global grid.\\n\\n##
+        Accessing the data\\n\\nGDPCIR data can be accessed on the Microsoft Planetary
+        Computer. The dataset is made of of three collections, distinguished by data
+        license:\\n* [Public domain (CC0-1.0) collection](https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0)\\n*
+        [Attribution (CC BY 4.0) collection](https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by)\\n*
+        [Attribution-ShareAlike (CC BY SA 4.0) collection](https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by-sa)\\n\\nEach
+        modeling center with bias corrected and downscaled data in this collection
+        falls into one of these license categories - see the [table below](/dataset/cil-gdpcir-cc-by-sa#available-institutions-models-and-scenarios-by-license-collection)
+        to see which model is in each collection, and see the section below on [Citing,
+        Licensing, and using data produced by this project](/dataset/cil-gdpcir-cc-by-sa#citing-licensing-and-using-data-produced-by-this-project)
+        for citations and additional information about each license.\\n\\n## Data
+        format & contents\\n\\nThe data is stored as partitioned zarr stores (see
+        [https://zarr.readthedocs.io](https://zarr.readthedocs.io)), each of which
+        includes thousands of data and metadata files covering the full time span
+        of the experiment. Historical zarr stores contain just over 50 GB, while SSP
+        zarr stores contain nearly 70GB. Each store is stored as a 32-bit float, with
+        dimensions time (daily datetime), lat (float latitude), and lon (float longitude).
+        The data is chunked at each interval of 365 days and 90 degree interval of
+        latitude and longitude. Therefore, each chunk is `(365, 360, 360)`, with each
+        chunk occupying approximately 179MB in memory.\\n\\nHistorical data is daily,
+        excluding leap days, from Jan 1, 1950 to Dec 31, 2014; SSP data is daily,
+        excluding leap days, from Jan 1, 2015 to either Dec 31, 2099 or Dec 31, 2100,
+        depending on data availability in the source GCM.\\n\\nThe spatial domain
+        covers all 0.25-degree grid cells, indexed by the grid center, with grid edges
+        on the quarter-degree, using a -180 to 180 longitude convention. Thus, the
+        \u201Clon\u201D coordinate extends from -179.875 to 179.875, and the \u201Clat\u201D
+        coordinate extends from -89.875 to 89.875, with intermediate values at each
+        0.25-degree increment between (e.g. -179.875, -179.625, -179.375, etc).\\n\\n##
+        Available institutions, models, and scenarios by license collection\\n\\n|
+        Modeling institution |   Source model    |           Available experiments
+        \           |   License collection   |\\n| -------------------- | -----------------
+        | ------------------------------------------ | ---------------------- |\\n|
+        CAS                  | FGOALS-g3 [^1]    | SSP2-4.5, SSP3-7.0, and SSP5-8.5
+        \          | Public domain datasets |\\n| INM                  | INM-CM4-8
+        \        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | Public domain datasets
+        |\\n| INM                  | INM-CM5-0         | SSP1-2.6, SSP2-4.5, SSP3-7.0,
+        and SSP5-8.5 | Public domain datasets |\\n| BCC                  | BCC-CSM2-MR
+        \      | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n|
+        CMCC                 | CMCC-CM2-SR5      | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5
+        \    | CC-BY-40]              |\\n| CMCC                 | CMCC-ESM2         |
+        ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-40]              |\\n|
+        CSIRO-ARCCSS         | ACCESS-CM2        | SSP2-4.5 and SSP3-7.0                      |
+        CC-BY-40]              |\\n| CSIRO                | ACCESS-ESM1-5     | SSP1-2.6,
+        SSP2-4.5, and SSP3-7.0           | CC-BY-40]              |\\n| MIROC                |
+        MIROC-ES2L        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40]
+        \             |\\n| MIROC                | MIROC6            | SSP1-2.6, SSP2-4.5,
+        SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n| MOHC                 |
+        HadGEM3-GC31-LL   | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40]
+        \             |\\n| MOHC                 | UKESM1-0-LL       | SSP1-2.6, SSP2-4.5,
+        SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n| MPI-M                |
+        MPI-ESM1-2-LR     | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40]
+        \             |\\n| MPI-M/DKRZ [^2]      | MPI-ESM1-2-HR     | SSP1-2.6 and
+        SSP5-8.5                      | CC-BY-40]              |\\n| NCC                  |
+        NorESM2-LM        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40]
+        \             |\\n| NCC                  | NorESM2-MM        | SSP1-2.6, SSP2-4.5,
+        SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n| NOAA-GFDL            |
+        GFDL-CM4          | SSP2-4.5 and SSP5-8.5                      | CC-BY-40]
+        \             |\\n| NOAA-GFDL            | GFDL-ESM4         | SSP1-2.6, SSP2-4.5,
+        SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n| NUIST                |
+        NESM3             | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40]
+        \             |\\n| EC-Earth-Consortium  | EC-Earth3         | ssp1-2.6, ssp2-4.5,
+        ssp3-7.0, and ssp5-8.5 | CC-BY-40]              |\\n| EC-Earth-Consortium
+        \ | EC-Earth3-AerChem | ssp370                                     | CC-BY-40]
+        \             |\\n| EC-Earth-Consortium  | EC-Earth3-CC      | ssp245 and
+        ssp585                          | CC-BY-40]              |\\n| EC-Earth-Consortium
+        \ | EC-Earth3-Veg     | ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40]
+        \             |\\n| EC-Earth-Consortium  | EC-Earth3-Veg-LR  | ssp1-2.6, ssp2-4.5,
+        ssp3-7.0, and ssp5-8.5 | CC-BY-40]              |\\n| CCCma                |
+        CanESM5           | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-SA-40]
+        \          |\\n\\n*Notes:*\\n\\n[^1]: At the time of running, no ssp1-2.6
+        precipitation data was available. Therefore, we provide `tasmin` and `tamax`
+        for this model and experiment, but not `pr`. All other model/experiment combinations
+        in the above table include all three variables.\\n\\n[^2]: The institution
+        which ran MPI-ESM1-2-HR\u2019s historical (CMIP) simulations is `MPI-M`, while
+        the future (ScenarioMIP) simulations were run by `DKRZ`. Therefore, the institution
+        component of `MPI-ESM1-2-HR` filepaths differ between `historical` and `SSP`
+        scenarios.\\n\\n## Project methods\\n\\nThis project makes use of statistical
+        bias correction and downscaling algorithms, which are specifically designed
+        to accurately represent changes in the extremes. For this reason, we selected
+        Quantile Delta Mapping (QDM), following the method introduced by [Cannon et
+        al. (2015)](https://doi.org/10.1175/JCLI-D-14-00754.1), which preserves quantile-specific
+        trends from the GCM while fitting the full distribution for a given day-of-year
+        to a reference dataset (ERA5).\\n\\nWe then introduce a similar method tailored
+        to increase spatial resolution while preserving extreme behavior, Quantile-Preserving
+        Localized-Analog Downscaling (QPLAD).\\n\\nTogether, these methods provide
+        a robust means to handle both the central and tail behavior seen in climate
+        model output, while aligning the full distribution to a state-of-the-art reanalysis
+        dataset and providing the spatial granularity needed to study surface impacts.\\n\\nFor
+        further documentation, see [Global downscaled projections for climate impacts
+        research (GDPCIR): preserving extremes for modeling future climate impacts](https://egusphere.copernicus.org/preprints/2023/egusphere-2022-1513/)
+        (EGUsphere, 2022 [preprint]).\\n\\n## Citing, licensing, and using data produced
+        by this project\\n\\nProjects making use of the data produced as part of the
+        Climate Impact Lab Global Downscaled Projections for Climate Impacts Research
+        (CIL GDPCIR) project are requested to cite both this project and the source
+        datasets from which these results are derived. Additionally, the use of data
+        derived from some GCMs *requires* citations, and some modeling centers impose
+        licensing restrictions & requirements on derived works. See each GCM's license
+        info in the links below for more information.\\n\\n### CIL GDPCIR\\n\\nUsers
+        are requested to cite this project in derived works. Our method documentation
+        paper may be cited using the following:\\n\\n> Gergel, D. R., Malevich, S.
+        B., McCusker, K. E., Tenezakis, E., Delgado, M. T., Fish, M. A., and Kopp,
+        R. E.: Global downscaled projections for climate impacts research (GDPCIR):
+        preserving extremes for modeling future climate impacts, EGUsphere [preprint],
+        https://doi.org/10.5194/egusphere-2022-1513, 2023. \\n\\nThe code repository
+        may be cited using the following:\\n\\n> Diana Gergel, Kelly McCusker, Brewster
+        Malevich, Emile Tenezakis, Meredith Fish, Michael Delgado (2022). ClimateImpactLab/downscaleCMIP6:
+        (v1.0.0). Zenodo. https://doi.org/10.5281/zenodo.6403794\\n\\n### ERA5\\n\\nAdditionally,
+        we request you cite the historical dataset used in bias correction and downscaling,
+        ERA5. See the [ECMWF guide to citing a dataset on the Climate Data Store](https://confluence.ecmwf.int/display/CKB/How+to+acknowledge+and+cite+a+Climate+Data+Store+%28CDS%29+catalogue+entry+and+the+data+published+as+part+of+it):\\n\\n>
+        Hersbach, H, et al. The ERA5 global reanalysis. Q J R Meteorol Soc.2020; 146:
+        1999\u20132049. DOI: [10.1002/qj.3803](https://doi.org/10.1002/qj.3803)\\n>\\n>
+        Mu\xF1oz Sabater, J., (2019): ERA5-Land hourly data from 1981 to present.
+        Copernicus Climate Change Service (C3S) Climate Data Store (CDS). (Accessed
+        on June 4, 2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n>\\n>
+        Mu\xF1oz Sabater, J., (2021): ERA5-Land hourly data from 1950 to 1980. Copernicus
+        Climate Change Service (C3S) Climate Data Store (CDS). (Accessed on June 4,
+        2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n\\n###
+        GCM-specific citations & licenses\\n\\nThe CMIP6 simulation data made available
+        through the Earth System Grid Federation (ESGF) are subject to Creative Commons
+        [BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/) or [BY-NC-SA
+        4.0](https://creativecommons.org/licenses/by-nc-sa/4.0/) licenses. The Climate
+        Impact Lab has reached out to each of the modeling institutions to request
+        waivers from these terms so the outputs of this project may be used with fewer
+        restrictions, and has been granted permission to release the data using the
+        licenses listed here.\\n\\n#### Public Domain Datasets\\n\\nThe following
+        bias corrected and downscaled model simulations are available in the public
+        domain using a [CC0 1.0 Universal Public Domain Declaration](https://creativecommons.org/publicdomain/zero/1.0/).
+        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0.\\n\\n*
+        **FGOALS-g3**\\n\\n  License description: [data_licenses/FGOALS-g3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/FGOALS-g3.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output
+        prepared for CMIP6 CMIP*. Version 20190826. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.1783\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output prepared for CMIP6
+        ScenarioMIP*. SSP1-2.6 version 20190818; SSP2-4.5 version 20190818; SSP3-7.0
+        version 20190820; SSP5-8.5 tasmax version 20190819; SSP5-8.5 tasmin version
+        20190819; SSP5-8.5 pr version 20190818. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2056\\n\\n\\n*
+        **INM-CM4-8**\\n\\n  License description: [data_licenses/INM-CM4-8.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM4-8.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
+        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
+        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
+        *INM INM-CM4-8 model output prepared for CMIP6 CMIP*. Version 20190530. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1422\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
+        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
+        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM4-8
+        model output prepared for CMIP6 ScenarioMIP*. Version 20190603. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12321\\n\\n\\n* **INM-CM5-0**\\n\\n
+        \ License description: [data_licenses/INM-CM5-0.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM5-0.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
+        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
+        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
+        *INM INM-CM5-0 model output prepared for CMIP6 CMIP*. Version 20190610. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1423\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
+        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
+        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM5-0
+        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20190619; SSP2-4.5
+        version 20190619; SSP3-7.0 version 20190618; SSP5-8.5 version 20190724. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12322\\n\\n\\n####
+        CC-BY-4.0\\n\\nThe following bias corrected and downscaled model simulations
+        are licensed under a [Creative Commons Attribution 4.0 International License](https://creativecommons.org/licenses/by/4.0/).
+        Note that this license requires citation of the source model output (included
+        here). Please see https://creativecommons.org/licenses/by/4.0/ for more information.
+        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by.\\n\\n*
+        **ACCESS-CM2**\\n\\n  License description: [data_licenses/ACCESS-CM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-CM2.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler,
+        Russell; Harman, Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell,
+        Siobhan; Rashid, Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire;
+        Vohralik, Peter; Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman,
+        Roger; Dias, Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen,
+        Aidan; Savita, Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans,
+        Ben; Richards, Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon;
+        Snow, Kate; Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2
+        model output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid
+        Federation. https://doi.org/10.22033/ESGF/CMIP6.2281\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler, Russell; Harman,
+        Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell, Siobhan; Rashid,
+        Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire; Vohralik, Peter;
+        Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman, Roger; Dias,
+        Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen, Aidan; Savita,
+        Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans, Ben; Richards,
+        Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon; Snow, Kate;
+        Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2 model output
+        prepared for CMIP6 ScenarioMIP*. Version 20191108. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.2285\\n\\n\\n* **ACCESS-ESM1-5**\\n\\n
+        \ License description: [data_licenses/ACCESS-ESM1-5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-ESM1-5.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew;
+        Law, Rachel; Bodman, Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter;
+        Srbinovsky, Jhan; Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan,
+        Arnold; O'Farrell, Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5
+        model output prepared for CMIP6 CMIP*. Version 20191115. Earth System Grid
+        Federation. https://doi.org/10.22033/ESGF/CMIP6.2288\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew; Law, Rachel; Bodman,
+        Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter; Srbinovsky, Jhan;
+        Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan, Arnold; O'Farrell,
+        Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5 model output prepared
+        for CMIP6 ScenarioMIP*. Version 20191115. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2291\\n\\n\\n*
+        **BCC-CSM2-MR**\\n\\n  License description: [data_licenses/BCC-CSM2-MR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/BCC-CSM2-MR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Xin, Xiaoge; Zhang, Jie; Zhang, Fang; Wu, Tongwen;
+        Shi, Xueli; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang;
+        Wei, Min **(2018)**. *BCC BCC-CSM2MR model output prepared for CMIP6 CMIP*.
+        Version 20181126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1725\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Xin, Xiaoge; Wu, Tongwen; Shi, Xueli; Zhang,
+        Fang; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang; Wei,
+        Min **(2019)**. *BCC BCC-CSM2MR model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20190315; SSP2-4.5 version 20190318; SSP3-7.0 version 20190318;
+        SSP5-8.5 version 20190318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1732\\n\\n\\n*
+        **CMCC-CM2-SR5**\\n\\n  License description: [data_licenses/CMCC-CM2-SR5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-CM2-SR5.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC
+        CMCC-CM2-SR5 model output prepared for CMIP6 CMIP*. Version 20200616. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1362\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC CMCC-CM2-SR5
+        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20200717; SSP2-4.5
+        version 20200617; SSP3-7.0 version 20200622; SSP5-8.5 version 20200622. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1365\\n\\n\\n*
+        **CMCC-ESM2**\\n\\n  License description: [data_licenses/CMCC-ESM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-ESM2.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n, Momme
+        **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 CMIP*. Version
+        20210114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13164\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n,
+        Momme **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20210126; SSP2-4.5 version 20210129; SSP3-7.0 version 20210202;
+        SSP5-8.5 version 20210126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13168\\n\\n\\n*
+        **EC-Earth3-AerChem**\\n\\n  License description: [data_licenses/EC-Earth3-AerChem.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-AerChem.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
+        EC-Earth3-AerChem model output prepared for CMIP6 CMIP*. Version 20200624.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.639\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
+        *EC-Earth-Consortium EC-Earth3-AerChem model output prepared for CMIP6 ScenarioMIP*.
+        Version 20200827. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.724\\n\\n\\n*
+        **EC-Earth3-CC**\\n\\n  License description: [data_licenses/EC-Earth3-CC.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-CC.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
+        EC-Earth-3-CC model output prepared for CMIP6 CMIP*. Version 20210113. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.640\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2021)**. *EC-Earth-Consortium
+        EC-Earth3-CC model output prepared for CMIP6 ScenarioMIP*. Version 20210113.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.15327\\n\\n\\n*
+        **EC-Earth3-Veg-LR**\\n\\n  License description: [data_licenses/EC-Earth3-Veg-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg-LR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
+        EC-Earth3-Veg-LR model output prepared for CMIP6 CMIP*. Version 20200217.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.643\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
+        *EC-Earth-Consortium EC-Earth3-Veg-LR model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20201201; SSP2-4.5 version 20201123; SSP3-7.0 version 20201123;
+        SSP5-8.5 version 20201201. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.728\\n\\n\\n*
+        **EC-Earth3-Veg**\\n\\n  License description: [data_licenses/EC-Earth3-Veg.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3-Veg model output prepared for CMIP6 CMIP*. Version 20200225. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.642\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3-Veg model output prepared for CMIP6 ScenarioMIP*. Version 20200225.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.727\\n\\n\\n*
+        **EC-Earth3**\\n\\n  License description: [data_licenses/EC-Earth3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3 model output prepared for CMIP6 CMIP*. Version 20200310. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.181\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3 model output prepared for CMIP6 ScenarioMIP*. Version 20200310.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.251\\n\\n\\n*
+        **GFDL-CM4**\\n\\n  License description: [data_licenses/GFDL-CM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-CM4.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh,
+        Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher; Zadeh,
+        Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
+        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Bushuk, Mitchell; Dunne,
+        Krista A.; Dussin, Raphael; Gauthier, Paul PG; Ginoux, Paul; Griffies, Stephen
+        M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu; Malyshev,
+        Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay, Jeffrey;
+        Reichl, Brandon G; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew;
+        Silvers, Levi; Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair;
+        Dunne, John P.; Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly,
+        P.C.D; Shevliakova, Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**.
+        *NOAA-GFDL GFDL-CM4 model output*. Version 20180701. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.1402\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh, Colleen; Nikonov, Serguei;
+        Radhakrishnan, Aparna; Rand, Kristopher; Zadeh, Niki T.; Balaji, V; Durachta,
+        Jeff; Dupuis, Christopher; Menzel, Raymond; Robinson, Thomas; Underwood, Seth;
+        Vahlenkamp, Hans; Dunne, Krista A.; Gauthier, Paul PG; Ginoux, Paul; Griffies,
+        Stephen M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu;
+        Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay,
+        Jeffrey; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew; Silvers, Levi;
+        Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair; Dunne, John P.;
+        Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly, Chris; Shevliakova,
+        Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**. *NOAA-GFDL GFDL-CM4
+        model output prepared for CMIP6 ScenarioMIP*. Version 20180701. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.9242\\n\\n\\n* **GFDL-ESM4**\\n\\n
+        \ License description: [data_licenses/GFDL-ESM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-ESM4.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Krasting, John P.; John, Jasmin G; Blanton, Chris;
+        McHugh, Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher;
+        Zadeh, Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
+        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Dunne, Krista A.; Gauthier,
+        Paul PG; Ginoux, Paul; Griffies, Stephen M.; Hallberg, Robert; Harrison, Matthew;
+        Hurlin, William; Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter,
+        David J; Ploshay, Jeffrey; Reichl, Brandon G; Schwarzkopf, Daniel M; Seman,
+        Charles J; Silvers, Levi; Wyman, Bruce; Zeng, Yujin; Adcroft, Alistair; Dunne,
+        John P.; Dussin, Raphael; Guo, Huan; He, Jian; Held, Isaac M; Horowitz, Larry
+        W.; Lin, Pu; Milly, P.C.D; Shevliakova, Elena; Stock, Charles; Winton, Michael;
+        Wittenberg, Andrew T.; Xie, Yuanyu; Zhao, Ming **(2018)**. *NOAA-GFDL GFDL-ESM4
+        model output prepared for CMIP6 CMIP*. Version 20190726. Earth System Grid
+        Federation. https://doi.org/10.22033/ESGF/CMIP6.1407\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > John, Jasmin G; Blanton, Chris; McHugh, Colleen; Radhakrishnan, Aparna;
+        Rand, Kristopher; Vahlenkamp, Hans; Wilson, Chandin; Zadeh, Niki T.; Dunne,
+        John P.; Dussin, Raphael; Horowitz, Larry W.; Krasting, John P.; Lin, Pu;
+        Malyshev, Sergey; Naik, Vaishali; Ploshay, Jeffrey; Shevliakova, Elena; Silvers,
+        Levi; Stock, Charles; Winton, Michael; Zeng, Yujin **(2018)**. *NOAA-GFDL
+        GFDL-ESM4 model output prepared for CMIP6 ScenarioMIP*. Version 20180701.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1414\\n\\n\\n*
+        **HadGEM3-GC31-LL**\\n\\n  License description: [data_licenses/HadGEM3-GC31-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/HadGEM3-GC31-LL.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Ridley, Jeff; Menary, Matthew; Kuhlbrodt, Till;
+        Andrews, Martin; Andrews, Tim **(2018)**. *MOHC HadGEM3-GC31-LL model output
+        prepared for CMIP6 CMIP*. Version 20190624. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.419\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Good, Peter **(2019)**. *MOHC HadGEM3-GC31-LL model output prepared for
+        CMIP6 ScenarioMIP*. SSP1-2.6 version 20200114; SSP2-4.5 version 20190908;
+        SSP5-8.5 version 20200114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.10845\\n\\n\\n*
+        **MIROC-ES2L**\\n\\n  License description: [data_licenses/MIROC-ES2L.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC-ES2L.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Hajima, Tomohiro; Abe, Manabu; Arakawa, Osamu; Suzuki,
+        Tatsuo; Komuro, Yoshiki; Ogura, Tomoo; Ogochi, Koji; Watanabe, Michio; Yamamoto,
+        Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito, Akinori; Yamazaki,
+        Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya, Michio; Tachiiri,
+        Kaoru **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 CMIP*.
+        Version 20191129. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.902\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Tachiiri, Kaoru; Abe, Manabu; Hajima, Tomohiro;
+        Arakawa, Osamu; Suzuki, Tatsuo; Komuro, Yoshiki; Ogochi, Koji; Watanabe, Michio;
+        Yamamoto, Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito,
+        Akinori; Yamazaki, Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya,
+        Michio **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 ScenarioMIP*.
+        Version 20200318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.936\\n\\n\\n*
+        **MIROC6**\\n\\n  License description: [data_licenses/MIROC6.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC6.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Tatebe, Hiroaki; Watanabe, Masahiro **(2018)**.
+        *MIROC MIROC6 model output prepared for CMIP6 CMIP*. Version 20191016. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.881\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Shiogama, Hideo; Abe, Manabu; Tatebe, Hiroaki **(2019)**.
+        *MIROC MIROC6 model output prepared for CMIP6 ScenarioMIP*. Version 20191016.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.898\\n\\n\\n*
+        **MPI-ESM1-2-HR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-HR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-HR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Jungclaus, Johann; Bittner, Matthias; Wieners, Karl-Hermann;
+        Wachsmann, Fabian; Schupfner, Martin; Legutke, Stephanie; Giorgetta, Marco;
+        Reick, Christian; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz,
+        Thomas; Esch, Monika; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens,
+        J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina;
+        Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster,
+        Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem;
+        Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
+        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
+        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
+        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
+        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-HR model output prepared
+        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.741\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Schupfner, Martin; Wieners, Karl-Hermann;
+        Wachsmann, Fabian; Steger, Christian; Bittner, Matthias; Jungclaus, Johann;
+        Fr\xFCh, Barbara; Pankatz, Klaus; Giorgetta, Marco; Reick, Christian; Legutke,
+        Stephanie; Esch, Monika; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp;
+        Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens, J\xF6rg;
+        Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina; Fiedler,
+        Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster, Silvia;
+        Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem; Matei, Daniela;
+        Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang;
+        Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten; Pincus, Robert; Pohlmann,
+        Holger; Pongratz, Julia; Rast, Sebastian; Schmidt, Hauke; Schnur, Reiner;
+        Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich
+        **(2019)**. *DKRZ MPI-ESM1.2-HR model output prepared for CMIP6 ScenarioMIP*.
+        Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2450\\n\\n\\n*
+        **MPI-ESM1-2-LR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-LR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco; Jungclaus,
+        Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Legutke, Stephanie;
+        Schupfner, Martin; Wachsmann, Fabian; Gayler, Veronika; Haak, Helmuth; de
+        Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song;
+        Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast,
+        Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas;
+        Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke,
+        Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
+        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
+        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
+        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
+        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR model output prepared
+        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.742\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco;
+        Jungclaus, Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Gayler,
+        Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten;
+        von Storch, Jin-Song; Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin;
+        Crueger, Traute; Fast, Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger,
+        Cathy; Jahns, Thomas; Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh,
+        Luis; Marotzke, Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz,
+        Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von
+        Gehlen, Karsten; Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast,
+        Sebastian; Schmidt, Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina;
+        Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR
+        model output prepared for CMIP6 ScenarioMIP*. Version 20190710. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.793\\n\\n\\n* **NESM3**\\n\\n
+        \ License description: [data_licenses/NESM3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NESM3.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Cao, Jian; Wang, Bin **(2019)**. *NUIST NESMv3 model
+        output prepared for CMIP6 CMIP*. Version 20190812. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.2021\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Cao, Jian **(2019)**. *NUIST NESMv3 model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20190806; SSP2-4.5 version 20190805; SSP5-8.5 version 20190811.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2027\\n\\n\\n*
+        **NorESM2-LM**\\n\\n  License description: [data_licenses/NorESM2-LM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-LM.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk
+        Jan Leo; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
+        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
+        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
+        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
+        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
+        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
+        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-LM model
+        output prepared for CMIP6 CMIP*. Version 20190815. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.502\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Toniazzo, Thomas;
+        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
+        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
+        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
+        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
+        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
+        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
+        Michael **(2019)**. *NCC NorESM2-LM model output prepared for CMIP6 ScenarioMIP*.
+        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.604\\n\\n\\n*
+        **NorESM2-MM**\\n\\n  License description: [data_licenses/NorESM2-MM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-MM.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland,
+        \xD8yvind; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
+        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
+        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
+        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
+        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
+        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
+        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-MM model
+        output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.506\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland, \xD8yvind; Toniazzo, Thomas;
+        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
+        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
+        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
+        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
+        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
+        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
+        Michael **(2019)**. *NCC NorESM2-MM model output prepared for CMIP6 ScenarioMIP*.
+        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.608\\n\\n\\n*
+        **UKESM1-0-LL**\\n\\n  License description: [data_licenses/UKESM1-0-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/UKESM1-0-LL.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Tang, Yongming; Rumbold, Steve; Ellis, Rich; Kelley,
+        Douglas; Mulcahy, Jane; Sellar, Alistair; Walton, Jeremy; Jones, Colin **(2019)**.
+        *MOHC UKESM1.0-LL model output prepared for CMIP6 CMIP*. Version 20190627.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1569\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Good, Peter; Sellar, Alistair; Tang, Yongming;
+        Rumbold, Steve; Ellis, Rich; Kelley, Douglas; Kuhlbrodt, Till; Walton, Jeremy
+        **(2019)**. *MOHC UKESM1.0-LL model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20190708; SSP2-4.5 version 20190715; SSP3-7.0 version 20190726;
+        SSP5-8.5 version 20190726. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1567\\n\\n\\n####
+        CC-BY-SA-4.0\\n\\nThe following bias corrected and downscaled model simulations
+        are licensed under a [Creative Commons Attribution-ShareAlike 4.0 International
+        License](https://creativecommons.org/licenses/by-sa/4.0/). Note that this
+        license requires citation of the source model output (included here) and requires
+        that derived works be shared under the same license. Please see https://creativecommons.org/licenses/by-sa/4.0/
+        for more information. Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by-sa.\\n\\n*
+        **CanESM5**\\n\\n  License description: [data_licenses/CanESM5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CanESM5.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Swart, Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav
+        V.; Lazare, Mike; Scinocca, John F.; Gillett, Nathan P.; Anstey, James; Arora,
+        Vivek; Christian, James R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad;
+        Saenko, Oleg A.; Seiler, Christian; Seinen, Clint; Shao, Andrew; Solheim,
+        Larry; von Salzen, Knut; Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**.
+        *CCCma CanESM5 model output prepared for CMIP6 CMIP*. Version 20190429. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1303\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Swart, Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav
+        V.; Lazare, Mike; Scinocca, John F.; Gillett, Nathan P.; Anstey, James; Arora,
+        Vivek; Christian, James R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad;
+        Saenko, Oleg A.; Seiler, Christian; Seinen, Clint; Shao, Andrew; Solheim,
+        Larry; von Salzen, Knut; Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**.
+        *CCCma CanESM5 model output prepared for CMIP6 ScenarioMIP*. Version 20190429.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1317\\n\\n##
+        Acknowledgements\\n\\nThis work is the result of many years worth of work
+        by members of the [Climate Impact Lab](https://impactlab.org), but would not
+        have been possible without many contributions from across the wider scientific
+        and computing communities.\\n\\nSpecifically, we would like to acknowledge
+        the World Climate Research Programme's Working Group on Coupled Modeling,
+        which is responsible for CMIP, and we would like to thank the climate modeling
+        groups for producing and making their model output available. We would particularly
+        like to thank the modeling institutions whose results are included as an input
+        to this repository (listed above) for their contributions to the CMIP6 project
+        and for responding to and granting our requests for license waivers.\\n\\nWe
+        would also like to thank Lamont-Doherty Earth Observatory, the [Pangeo Consortium](https://github.com/pangeo-data)
+        (and especially the [ESGF Cloud Data Working Group](https://pangeo-data.github.io/pangeo-cmip6-cloud/#))
+        and Google Cloud and the Google Public Datasets program for making the [CMIP6
+        Google Cloud collection](https://console.cloud.google.com/marketplace/details/noaa-public/cmip6)
+        possible. In particular we're extremely grateful to [Ryan Abernathey](https://github.com/rabernat),
+        [Naomi Henderson](https://github.com/naomi-henderson), [Charles Blackmon-Luca](https://github.com/charlesbluca),
+        [Aparna Radhakrishnan](https://github.com/aradhakrishnanGFDL), [Julius Busecke](https://github.com/jbusecke),
+        and [Charles Stern](https://github.com/cisaacstern) for the huge amount of
+        work they've done to translate the ESGF CMIP6 netCDF archives into consistently-formattted,
+        analysis-ready zarr stores on Google Cloud.\\n\\nWe're also grateful to the
+        [xclim developers](https://github.com/Ouranosinc/xclim/graphs/contributors)
+        ([DOI: 10.5281/zenodo.2795043](https://doi.org/10.5281/zenodo.2795043)), in
+        particular [Pascal Bourgault](https://github.com/aulemahal), [David Huard](https://github.com/huard),
+        and [Travis Logan](https://github.com/tlogan2000), for implementing the QDM
+        bias correction method in the xclim python package, supporting our QPLAD implementation
+        into the package, and ongoing support in integrating dask into downscaling
+        workflows. For method advice and useful conversations, we would like to thank
+        Keith Dixon, Dennis Adams-Smith, and [Joe Hamman](https://github.com/jhamman).\\n\\n##
+        Financial support\\n\\nThis research has been supported by The Rockefeller
+        Foundation and the Microsoft AI for Earth Initiative.\\n\\n## Additional links:\\n\\n*
+        CIL GDPCIR project homepage: [github.com/ClimateImpactLab/downscaleCMIP6](https://github.com/ClimateImpactLab/downscaleCMIP6)\\n*
+        Project listing on zenodo: https://doi.org/10.5281/zenodo.6403794\\n* Climate
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+        (CMIP6)](https://www.wcrp-climate.org/wgcm-cmip/wgcm-cmip6) represents an
+        enormous advance in the quality, detail, and scope of climate modeling.\\n\\nThe
+        [Global Downscaled Projections for Climate Impacts Research](https://github.com/ClimateImpactLab/downscaleCMIP6)
+        dataset makes this modeling more applicable to understanding the impacts of
+        changes in the climate on humans and society with two key developments: trend-preserving
+        bias correction and downscaling. In this dataset, the [Climate Impact Lab](https://impactlab.org)
+        provides global, daily minimum and maximum air temperature at the surface
+        (`tasmin` and `tasmax`) and daily cumulative surface precipitation (`pr`)
+        corresponding to the CMIP6 historical, ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5
+        scenarios for 25 global climate models on a 1/4-degree regular global grid.\\n\\n##
+        Accessing the data\\n\\nGDPCIR data can be accessed on the Microsoft Planetary
+        Computer. The dataset is made of of three collections, distinguished by data
+        license:\\n* [Public domain (CC0-1.0) collection](https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0)\\n*
+        [Attribution (CC BY 4.0) collection](https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by)\\n\\nEach
+        modeling center with bias corrected and downscaled data in this collection
+        falls into one of these license categories - see the [table below](/dataset/cil-gdpcir-cc0#available-institutions-models-and-scenarios-by-license-collection)
+        to see which model is in each collection, and see the section below on [Citing,
+        Licensing, and using data produced by this project](/dataset/cil-gdpcir-cc0#citing-licensing-and-using-data-produced-by-this-project)
+        for citations and additional information about each license.\\n\\n## Data
+        format & contents\\n\\nThe data is stored as partitioned zarr stores (see
+        [https://zarr.readthedocs.io](https://zarr.readthedocs.io)), each of which
+        includes thousands of data and metadata files covering the full time span
+        of the experiment. Historical zarr stores contain just over 50 GB, while SSP
+        zarr stores contain nearly 70GB. Each store is stored as a 32-bit float, with
+        dimensions time (daily datetime), lat (float latitude), and lon (float longitude).
+        The data is chunked at each interval of 365 days and 90 degree interval of
+        latitude and longitude. Therefore, each chunk is `(365, 360, 360)`, with each
+        chunk occupying approximately 180MB in memory.\\n\\nHistorical data is daily,
+        excluding leap days, from Jan 1, 1950 to Dec 31, 2014; SSP data is daily,
+        excluding leap days, from Jan 1, 2015 to either Dec 31, 2099 or Dec 31, 2100,
+        depending on data availability in the source GCM.\\n\\nThe spatial domain
+        covers all 0.25-degree grid cells, indexed by the grid center, with grid edges
+        on the quarter-degree, using a -180 to 180 longitude convention. Thus, the
+        \u201Clon\u201D coordinate extends from -179.875 to 179.875, and the \u201Clat\u201D
+        coordinate extends from -89.875 to 89.875, with intermediate values at each
+        0.25-degree increment between (e.g. -179.875, -179.625, -179.375, etc).\\n\\n##
+        Available institutions, models, and scenarios by license collection\\n\\n|
+        Modeling institution |   Source model    |           Available experiments
+        \           |   License collection   |\\n| -------------------- | -----------------
+        | ------------------------------------------ | ---------------------- |\\n|
+        CAS                  | FGOALS-g3 [^1]    | SSP2-4.5, SSP3-7.0, and SSP5-8.5
+        \          | Public domain datasets |\\n| INM                  | INM-CM4-8
+        \        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | Public domain datasets
+        |\\n| INM                  | INM-CM5-0         | SSP1-2.6, SSP2-4.5, SSP3-7.0,
+        and SSP5-8.5 | Public domain datasets |\\n| BCC                  | BCC-CSM2-MR
+        \      | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n|
+        CMCC                 | CMCC-CM2-SR5      | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5
+        \    | CC-BY-40               |\\n| CMCC                 | CMCC-ESM2         |
+        ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-40               |\\n|
+        CSIRO-ARCCSS         | ACCESS-CM2        | SSP2-4.5 and SSP3-7.0                      |
+        CC-BY-40               |\\n| CSIRO                | ACCESS-ESM1-5     | SSP1-2.6,
+        SSP2-4.5, and SSP3-7.0           | CC-BY-40               |\\n| MIROC                |
+        MIROC-ES2L        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
+        \              |\\n| MIROC                | MIROC6            | SSP1-2.6,
+        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| MOHC                 |
+        HadGEM3-GC31-LL   | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40
+        \              |\\n| MOHC                 | UKESM1-0-LL       | SSP1-2.6,
+        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| MPI-M                |
+        MPI-ESM1-2-LR     | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
+        \              |\\n| MPI-M/DKRZ [^2]      | MPI-ESM1-2-HR     | SSP1-2.6 and
+        SSP5-8.5                      | CC-BY-40               |\\n| NCC                  |
+        NorESM2-LM        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
+        \              |\\n| NCC                  | NorESM2-MM        | SSP1-2.6,
+        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| NOAA-GFDL
+        \           | GFDL-CM4          | SSP2-4.5 and SSP5-8.5                      |
+        CC-BY-40               |\\n| NOAA-GFDL            | GFDL-ESM4         | SSP1-2.6,
+        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| NUIST                |
+        NESM3             | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40
+        \              |\\n| EC-Earth-Consortium  | EC-Earth3         | ssp1-2.6,
+        ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40               |\\n| EC-Earth-Consortium
+        \ | EC-Earth3-AerChem | ssp370                                     | CC-BY-40
+        \              |\\n| EC-Earth-Consortium  | EC-Earth3-CC      | ssp245 and
+        ssp585                          | CC-BY-40               |\\n| EC-Earth-Consortium
+        \ | EC-Earth3-Veg     | ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40
+        \              |\\n| EC-Earth-Consortium  | EC-Earth3-Veg-LR  | ssp1-2.6,
+        ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40               |\\n| CCCma                |
+        CanESM5           | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-40[^3]
+        \          |\\n\\n*Notes:*\\n\\n[^1]: At the time of running, no ssp1-2.6
+        precipitation data was available. Therefore, we provide `tasmin` and `tamax`
+        for this model and experiment, but not `pr`. All other model/experiment combinations
+        in the above table include all three variables.\\n\\n[^2]: The institution
+        which ran MPI-ESM1-2-HR\u2019s historical (CMIP) simulations is `MPI-M`, while
+        the future (ScenarioMIP) simulations were run by `DKRZ`. Therefore, the institution
+        component of `MPI-ESM1-2-HR` filepaths differ between `historical` and `SSP`
+        scenarios.\\n\\n[^3]: This dataset was previously licensed as [CC BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/),
+        but was relicensed under [CC BY 4.0](https://creativecommons.org/licenses/by/4.0)
+        in March, 2023. \\n\\n## Project methods\\n\\nThis project makes use of statistical
+        bias correction and downscaling algorithms, which are specifically designed
+        to accurately represent changes in the extremes. For this reason, we selected
+        Quantile Delta Mapping (QDM), following the method introduced by [Cannon et
+        al. (2015)](https://doi.org/10.1175/JCLI-D-14-00754.1), which preserves quantile-specific
+        trends from the GCM while fitting the full distribution for a given day-of-year
+        to a reference dataset (ERA5).\\n\\nWe then introduce a similar method tailored
+        to increase spatial resolution while preserving extreme behavior, Quantile-Preserving
+        Localized-Analog Downscaling (QPLAD).\\n\\nTogether, these methods provide
+        a robust means to handle both the central and tail behavior seen in climate
+        model output, while aligning the full distribution to a state-of-the-art reanalysis
+        dataset and providing the spatial granularity needed to study surface impacts.\\n\\nFor
+        further documentation, see [Global downscaled projections for climate impacts
+        research (GDPCIR): preserving extremes for modeling future climate impacts](https://egusphere.copernicus.org/preprints/2023/egusphere-2022-1513/)
+        (EGUsphere, 2022 [preprint]).\\n\\n\\n## Citing, licensing, and using data
+        produced by this project\\n\\nProjects making use of the data produced as
+        part of the Climate Impact Lab Global Downscaled Projections for Climate Impacts
+        Research (CIL GDPCIR) project are requested to cite both this project and
+        the source datasets from which these results are derived. Additionally, the
+        use of data derived from some GCMs *requires* citations, and some modeling
+        centers impose licensing restrictions & requirements on derived works. See
+        each GCM's license info in the links below for more information.\\n\\n###
+        CIL GDPCIR\\n\\nUsers are requested to cite this project in derived works.
+        Our method documentation paper may be cited using the following:\\n\\n> Gergel,
+        D. R., Malevich, S. B., McCusker, K. E., Tenezakis, E., Delgado, M. T., Fish,
+        M. A., and Kopp, R. E.: Global downscaled projections for climate impacts
+        research (GDPCIR): preserving extremes for modeling future climate impacts,
+        EGUsphere [preprint], https://doi.org/10.5194/egusphere-2022-1513, 2023. \\n\\nThe
+        code repository may be cited using the following:\\n\\n> Diana Gergel, Kelly
+        McCusker, Brewster Malevich, Emile Tenezakis, Meredith Fish, Michael Delgado
+        (2022). ClimateImpactLab/downscaleCMIP6: (v1.0.0). Zenodo. https://doi.org/10.5281/zenodo.6403794\\n\\n###
+        ERA5\\n\\nAdditionally, we request you cite the historical dataset used in
+        bias correction and downscaling, ERA5. See the [ECMWF guide to citing a dataset
+        on the Climate Data Store](https://confluence.ecmwf.int/display/CKB/How+to+acknowledge+and+cite+a+Climate+Data+Store+%28CDS%29+catalogue+entry+and+the+data+published+as+part+of+it):\\n\\n>
+        Hersbach, H, et al. The ERA5 global reanalysis. Q J R Meteorol Soc.2020; 146:
+        1999\u20132049. DOI: [10.1002/qj.3803](https://doi.org/10.1002/qj.3803)\\n>\\n>
+        Mu\xF1oz Sabater, J., (2019): ERA5-Land hourly data from 1981 to present.
+        Copernicus Climate Change Service (C3S) Climate Data Store (CDS). (Accessed
+        on June 4, 2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n>\\n>
+        Mu\xF1oz Sabater, J., (2021): ERA5-Land hourly data from 1950 to 1980. Copernicus
+        Climate Change Service (C3S) Climate Data Store (CDS). (Accessed on June 4,
+        2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n\\n###
+        GCM-specific citations & licenses\\n\\nThe CMIP6 simulation data made available
+        through the Earth System Grid Federation (ESGF) are subject to Creative Commons
+        [BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/) or [BY-NC-SA
+        4.0](https://creativecommons.org/licenses/by-nc-sa/4.0/) licenses. The Climate
+        Impact Lab has reached out to each of the modeling institutions to request
+        waivers from these terms so the outputs of this project may be used with fewer
+        restrictions, and has been granted permission to release the data using the
+        licenses listed here.\\n\\n#### Public Domain Datasets\\n\\nThe following
+        bias corrected and downscaled model simulations are available in the public
+        domain using a [CC0 1.0 Universal Public Domain Declaration](https://creativecommons.org/publicdomain/zero/1.0/).
+        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0.\\n\\n*
+        **FGOALS-g3**\\n\\n  License description: [data_licenses/FGOALS-g3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/FGOALS-g3.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output
+        prepared for CMIP6 CMIP*. Version 20190826. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.1783\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output prepared for CMIP6
+        ScenarioMIP*. SSP1-2.6 version 20190818; SSP2-4.5 version 20190818; SSP3-7.0
+        version 20190820; SSP5-8.5 tasmax version 20190819; SSP5-8.5 tasmin version
+        20190819; SSP5-8.5 pr version 20190818. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2056\\n\\n\\n*
+        **INM-CM4-8**\\n\\n  License description: [data_licenses/INM-CM4-8.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM4-8.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
+        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
+        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
+        *INM INM-CM4-8 model output prepared for CMIP6 CMIP*. Version 20190530. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1422\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
+        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
+        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM4-8
+        model output prepared for CMIP6 ScenarioMIP*. Version 20190603. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12321\\n\\n\\n* **INM-CM5-0**\\n\\n
+        \ License description: [data_licenses/INM-CM5-0.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM5-0.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
+        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
+        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
+        *INM INM-CM5-0 model output prepared for CMIP6 CMIP*. Version 20190610. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1423\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
+        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
+        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM5-0
+        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20190619; SSP2-4.5
+        version 20190619; SSP3-7.0 version 20190618; SSP5-8.5 version 20190724. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12322\\n\\n\\n####
+        CC-BY-4.0\\n\\nThe following bias corrected and downscaled model simulations
+        are licensed under a [Creative Commons Attribution 4.0 International License](https://creativecommons.org/licenses/by/4.0/).
+        Note that this license requires citation of the source model output (included
+        here). Please see https://creativecommons.org/licenses/by/4.0/ for more information.
+        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by.\\n\\n*
+        **ACCESS-CM2**\\n\\n  License description: [data_licenses/ACCESS-CM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-CM2.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler,
+        Russell; Harman, Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell,
+        Siobhan; Rashid, Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire;
+        Vohralik, Peter; Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman,
+        Roger; Dias, Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen,
+        Aidan; Savita, Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans,
+        Ben; Richards, Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon;
+        Snow, Kate; Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2
+        model output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid
+        Federation. https://doi.org/10.22033/ESGF/CMIP6.2281\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler, Russell; Harman,
+        Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell, Siobhan; Rashid,
+        Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire; Vohralik, Peter;
+        Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman, Roger; Dias,
+        Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen, Aidan; Savita,
+        Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans, Ben; Richards,
+        Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon; Snow, Kate;
+        Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2 model output
+        prepared for CMIP6 ScenarioMIP*. Version 20191108. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.2285\\n\\n\\n* **ACCESS-ESM1-5**\\n\\n
+        \ License description: [data_licenses/ACCESS-ESM1-5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-ESM1-5.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew;
+        Law, Rachel; Bodman, Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter;
+        Srbinovsky, Jhan; Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan,
+        Arnold; O'Farrell, Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5
+        model output prepared for CMIP6 CMIP*. Version 20191115. Earth System Grid
+        Federation. https://doi.org/10.22033/ESGF/CMIP6.2288\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew; Law, Rachel; Bodman,
+        Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter; Srbinovsky, Jhan;
+        Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan, Arnold; O'Farrell,
+        Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5 model output prepared
+        for CMIP6 ScenarioMIP*. Version 20191115. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2291\\n\\n\\n*
+        **BCC-CSM2-MR**\\n\\n  License description: [data_licenses/BCC-CSM2-MR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/BCC-CSM2-MR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Xin, Xiaoge; Zhang, Jie; Zhang, Fang; Wu, Tongwen;
+        Shi, Xueli; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang;
+        Wei, Min **(2018)**. *BCC BCC-CSM2MR model output prepared for CMIP6 CMIP*.
+        Version 20181126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1725\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Xin, Xiaoge; Wu, Tongwen; Shi, Xueli; Zhang,
+        Fang; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang; Wei,
+        Min **(2019)**. *BCC BCC-CSM2MR model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20190315; SSP2-4.5 version 20190318; SSP3-7.0 version 20190318;
+        SSP5-8.5 version 20190318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1732\\n\\n\\n*
+        **CMCC-CM2-SR5**\\n\\n  License description: [data_licenses/CMCC-CM2-SR5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-CM2-SR5.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC
+        CMCC-CM2-SR5 model output prepared for CMIP6 CMIP*. Version 20200616. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1362\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC CMCC-CM2-SR5
+        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20200717; SSP2-4.5
+        version 20200617; SSP3-7.0 version 20200622; SSP5-8.5 version 20200622. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1365\\n\\n\\n*
+        **CMCC-ESM2**\\n\\n  License description: [data_licenses/CMCC-ESM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-ESM2.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n, Momme
+        **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 CMIP*. Version
+        20210114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13164\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n,
+        Momme **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20210126; SSP2-4.5 version 20210129; SSP3-7.0 version 20210202;
+        SSP5-8.5 version 20210126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13168\\n\\n\\n*
+        **EC-Earth3-AerChem**\\n\\n  License description: [data_licenses/EC-Earth3-AerChem.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-AerChem.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
+        EC-Earth3-AerChem model output prepared for CMIP6 CMIP*. Version 20200624.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.639\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
+        *EC-Earth-Consortium EC-Earth3-AerChem model output prepared for CMIP6 ScenarioMIP*.
+        Version 20200827. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.724\\n\\n\\n*
+        **EC-Earth3-CC**\\n\\n  License description: [data_licenses/EC-Earth3-CC.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-CC.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
+        EC-Earth-3-CC model output prepared for CMIP6 CMIP*. Version 20210113. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.640\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2021)**. *EC-Earth-Consortium
+        EC-Earth3-CC model output prepared for CMIP6 ScenarioMIP*. Version 20210113.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.15327\\n\\n\\n*
+        **EC-Earth3-Veg-LR**\\n\\n  License description: [data_licenses/EC-Earth3-Veg-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg-LR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
+        EC-Earth3-Veg-LR model output prepared for CMIP6 CMIP*. Version 20200217.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.643\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
+        *EC-Earth-Consortium EC-Earth3-Veg-LR model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20201201; SSP2-4.5 version 20201123; SSP3-7.0 version 20201123;
+        SSP5-8.5 version 20201201. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.728\\n\\n\\n*
+        **EC-Earth3-Veg**\\n\\n  License description: [data_licenses/EC-Earth3-Veg.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3-Veg model output prepared for CMIP6 CMIP*. Version 20200225. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.642\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3-Veg model output prepared for CMIP6 ScenarioMIP*. Version 20200225.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.727\\n\\n\\n*
+        **EC-Earth3**\\n\\n  License description: [data_licenses/EC-Earth3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3 model output prepared for CMIP6 CMIP*. Version 20200310. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.181\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3 model output prepared for CMIP6 ScenarioMIP*. Version 20200310.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.251\\n\\n\\n*
+        **GFDL-CM4**\\n\\n  License description: [data_licenses/GFDL-CM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-CM4.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh,
+        Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher; Zadeh,
+        Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
+        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Bushuk, Mitchell; Dunne,
+        Krista A.; Dussin, Raphael; Gauthier, Paul PG; Ginoux, Paul; Griffies, Stephen
+        M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu; Malyshev,
+        Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay, Jeffrey;
+        Reichl, Brandon G; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew;
+        Silvers, Levi; Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair;
+        Dunne, John P.; Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly,
+        P.C.D; Shevliakova, Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**.
+        *NOAA-GFDL GFDL-CM4 model output*. Version 20180701. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.1402\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh, Colleen; Nikonov, Serguei;
+        Radhakrishnan, Aparna; Rand, Kristopher; Zadeh, Niki T.; Balaji, V; Durachta,
+        Jeff; Dupuis, Christopher; Menzel, Raymond; Robinson, Thomas; Underwood, Seth;
+        Vahlenkamp, Hans; Dunne, Krista A.; Gauthier, Paul PG; Ginoux, Paul; Griffies,
+        Stephen M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu;
+        Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay,
+        Jeffrey; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew; Silvers, Levi;
+        Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair; Dunne, John P.;
+        Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly, Chris; Shevliakova,
+        Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**. *NOAA-GFDL GFDL-CM4
+        model output prepared for CMIP6 ScenarioMIP*. Version 20180701. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.9242\\n\\n\\n* **GFDL-ESM4**\\n\\n
+        \ License description: [data_licenses/GFDL-ESM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-ESM4.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Krasting, John P.; John, Jasmin G; Blanton, Chris;
+        McHugh, Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher;
+        Zadeh, Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
+        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Dunne, Krista A.; Gauthier,
+        Paul PG; Ginoux, Paul; Griffies, Stephen M.; Hallberg, Robert; Harrison, Matthew;
+        Hurlin, William; Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter,
+        David J; Ploshay, Jeffrey; Reichl, Brandon G; Schwarzkopf, Daniel M; Seman,
+        Charles J; Silvers, Levi; Wyman, Bruce; Zeng, Yujin; Adcroft, Alistair; Dunne,
+        John P.; Dussin, Raphael; Guo, Huan; He, Jian; Held, Isaac M; Horowitz, Larry
+        W.; Lin, Pu; Milly, P.C.D; Shevliakova, Elena; Stock, Charles; Winton, Michael;
+        Wittenberg, Andrew T.; Xie, Yuanyu; Zhao, Ming **(2018)**. *NOAA-GFDL GFDL-ESM4
+        model output prepared for CMIP6 CMIP*. Version 20190726. Earth System Grid
+        Federation. https://doi.org/10.22033/ESGF/CMIP6.1407\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > John, Jasmin G; Blanton, Chris; McHugh, Colleen; Radhakrishnan, Aparna;
+        Rand, Kristopher; Vahlenkamp, Hans; Wilson, Chandin; Zadeh, Niki T.; Dunne,
+        John P.; Dussin, Raphael; Horowitz, Larry W.; Krasting, John P.; Lin, Pu;
+        Malyshev, Sergey; Naik, Vaishali; Ploshay, Jeffrey; Shevliakova, Elena; Silvers,
+        Levi; Stock, Charles; Winton, Michael; Zeng, Yujin **(2018)**. *NOAA-GFDL
+        GFDL-ESM4 model output prepared for CMIP6 ScenarioMIP*. Version 20180701.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1414\\n\\n\\n*
+        **HadGEM3-GC31-LL**\\n\\n  License description: [data_licenses/HadGEM3-GC31-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/HadGEM3-GC31-LL.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Ridley, Jeff; Menary, Matthew; Kuhlbrodt, Till;
+        Andrews, Martin; Andrews, Tim **(2018)**. *MOHC HadGEM3-GC31-LL model output
+        prepared for CMIP6 CMIP*. Version 20190624. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.419\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Good, Peter **(2019)**. *MOHC HadGEM3-GC31-LL model output prepared for
+        CMIP6 ScenarioMIP*. SSP1-2.6 version 20200114; SSP2-4.5 version 20190908;
+        SSP5-8.5 version 20200114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.10845\\n\\n\\n*
+        **MIROC-ES2L**\\n\\n  License description: [data_licenses/MIROC-ES2L.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC-ES2L.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Hajima, Tomohiro; Abe, Manabu; Arakawa, Osamu; Suzuki,
+        Tatsuo; Komuro, Yoshiki; Ogura, Tomoo; Ogochi, Koji; Watanabe, Michio; Yamamoto,
+        Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito, Akinori; Yamazaki,
+        Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya, Michio; Tachiiri,
+        Kaoru **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 CMIP*.
+        Version 20191129. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.902\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Tachiiri, Kaoru; Abe, Manabu; Hajima, Tomohiro;
+        Arakawa, Osamu; Suzuki, Tatsuo; Komuro, Yoshiki; Ogochi, Koji; Watanabe, Michio;
+        Yamamoto, Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito,
+        Akinori; Yamazaki, Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya,
+        Michio **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 ScenarioMIP*.
+        Version 20200318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.936\\n\\n\\n*
+        **MIROC6**\\n\\n  License description: [data_licenses/MIROC6.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC6.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Tatebe, Hiroaki; Watanabe, Masahiro **(2018)**.
+        *MIROC MIROC6 model output prepared for CMIP6 CMIP*. Version 20191016. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.881\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Shiogama, Hideo; Abe, Manabu; Tatebe, Hiroaki **(2019)**.
+        *MIROC MIROC6 model output prepared for CMIP6 ScenarioMIP*. Version 20191016.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.898\\n\\n\\n*
+        **MPI-ESM1-2-HR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-HR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-HR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Jungclaus, Johann; Bittner, Matthias; Wieners, Karl-Hermann;
+        Wachsmann, Fabian; Schupfner, Martin; Legutke, Stephanie; Giorgetta, Marco;
+        Reick, Christian; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz,
+        Thomas; Esch, Monika; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens,
+        J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina;
+        Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster,
+        Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem;
+        Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
+        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
+        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
+        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
+        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-HR model output prepared
+        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.741\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Schupfner, Martin; Wieners, Karl-Hermann;
+        Wachsmann, Fabian; Steger, Christian; Bittner, Matthias; Jungclaus, Johann;
+        Fr\xFCh, Barbara; Pankatz, Klaus; Giorgetta, Marco; Reick, Christian; Legutke,
+        Stephanie; Esch, Monika; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp;
+        Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens, J\xF6rg;
+        Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina; Fiedler,
+        Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster, Silvia;
+        Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem; Matei, Daniela;
+        Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang;
+        Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten; Pincus, Robert; Pohlmann,
+        Holger; Pongratz, Julia; Rast, Sebastian; Schmidt, Hauke; Schnur, Reiner;
+        Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich
+        **(2019)**. *DKRZ MPI-ESM1.2-HR model output prepared for CMIP6 ScenarioMIP*.
+        Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2450\\n\\n\\n*
+        **MPI-ESM1-2-LR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-LR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco; Jungclaus,
+        Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Legutke, Stephanie;
+        Schupfner, Martin; Wachsmann, Fabian; Gayler, Veronika; Haak, Helmuth; de
+        Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song;
+        Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast,
+        Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas;
+        Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke,
+        Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
+        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
+        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
+        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
+        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR model output prepared
+        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.742\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco;
+        Jungclaus, Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Gayler,
+        Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten;
+        von Storch, Jin-Song; Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin;
+        Crueger, Traute; Fast, Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger,
+        Cathy; Jahns, Thomas; Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh,
+        Luis; Marotzke, Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz,
+        Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von
+        Gehlen, Karsten; Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast,
+        Sebastian; Schmidt, Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina;
+        Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR
+        model output prepared for CMIP6 ScenarioMIP*. Version 20190710. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.793\\n\\n\\n* **NESM3**\\n\\n
+        \ License description: [data_licenses/NESM3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NESM3.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Cao, Jian; Wang, Bin **(2019)**. *NUIST NESMv3 model
+        output prepared for CMIP6 CMIP*. Version 20190812. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.2021\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Cao, Jian **(2019)**. *NUIST NESMv3 model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20190806; SSP2-4.5 version 20190805; SSP5-8.5 version 20190811.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2027\\n\\n\\n*
+        **NorESM2-LM**\\n\\n  License description: [data_licenses/NorESM2-LM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-LM.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk
+        Jan Leo; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
+        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
+        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
+        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
+        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
+        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
+        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-LM model
+        output prepared for CMIP6 CMIP*. Version 20190815. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.502\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Toniazzo, Thomas;
+        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
+        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
+        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
+        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
+        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
+        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
+        Michael **(2019)**. *NCC NorESM2-LM model output prepared for CMIP6 ScenarioMIP*.
+        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.604\\n\\n\\n*
+        **NorESM2-MM**\\n\\n  License description: [data_licenses/NorESM2-MM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-MM.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland,
+        \xD8yvind; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
+        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
+        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
+        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
+        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
+        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
+        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-MM model
+        output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.506\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland, \xD8yvind; Toniazzo, Thomas;
+        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
+        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
+        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
+        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
+        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
+        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
+        Michael **(2019)**. *NCC NorESM2-MM model output prepared for CMIP6 ScenarioMIP*.
+        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.608\\n\\n\\n*
+        **UKESM1-0-LL**\\n\\n  License description: [data_licenses/UKESM1-0-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/UKESM1-0-LL.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Tang, Yongming; Rumbold, Steve; Ellis, Rich; Kelley,
+        Douglas; Mulcahy, Jane; Sellar, Alistair; Walton, Jeremy; Jones, Colin **(2019)**.
+        *MOHC UKESM1.0-LL model output prepared for CMIP6 CMIP*. Version 20190627.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1569\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Good, Peter; Sellar, Alistair; Tang, Yongming;
+        Rumbold, Steve; Ellis, Rich; Kelley, Douglas; Kuhlbrodt, Till; Walton, Jeremy
+        **(2019)**. *MOHC UKESM1.0-LL model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20190708; SSP2-4.5 version 20190715; SSP3-7.0 version 20190726;
+        SSP5-8.5 version 20190726. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1567\\n\\n\\n*
+        **CanESM5**\\n\\n  License description: [data_licenses/CanESM5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CanESM5.txt).
+        Note: this dataset was previously licensed\\n  under CC BY-SA 4.0, but was
+        relicensed as CC BY 4.0 in March, 2023.\\n\\n  CMIP Citation:\\n\\n  > Swart,
+        Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav V.; Lazare, Mike; Scinocca,
+        John F.; Gillett, Nathan P.; Anstey, James; Arora, Vivek; Christian, James
+        R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad; Saenko, Oleg A.; Seiler,
+        Christian; Seinen, Clint; Shao, Andrew; Solheim, Larry; von Salzen, Knut;
+        Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**. *CCCma CanESM5 model
+        output prepared for CMIP6 CMIP*. Version 20190429. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.1303\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Swart, Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav V.; Lazare,
+        Mike; Scinocca, John F.; Gillett, Nathan P.; Anstey, James; Arora, Vivek;
+        Christian, James R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad; Saenko,
+        Oleg A.; Seiler, Christian; Seinen, Clint; Shao, Andrew; Solheim, Larry; von
+        Salzen, Knut; Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**. *CCCma
+        CanESM5 model output prepared for CMIP6 ScenarioMIP*. Version 20190429. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1317\\n\\n## Acknowledgements\\n\\nThis
+        work is the result of many years worth of work by members of the [Climate
+        Impact Lab](https://impactlab.org), but would not have been possible without
+        many contributions from across the wider scientific and computing communities.\\n\\nSpecifically,
+        we would like to acknowledge the World Climate Research Programme's Working
+        Group on Coupled Modeling, which is responsible for CMIP, and we would like
+        to thank the climate modeling groups for producing and making their model
+        output available. We would particularly like to thank the modeling institutions
+        whose results are included as an input to this repository (listed above) for
+        their contributions to the CMIP6 project and for responding to and granting
+        our requests for license waivers.\\n\\nWe would also like to thank Lamont-Doherty
+        Earth Observatory, the [Pangeo Consortium](https://github.com/pangeo-data)
+        (and especially the [ESGF Cloud Data Working Group](https://pangeo-data.github.io/pangeo-cmip6-cloud/#))
+        and Google Cloud and the Google Public Datasets program for making the [CMIP6
+        Google Cloud collection](https://console.cloud.google.com/marketplace/details/noaa-public/cmip6)
+        possible. In particular we're extremely grateful to [Ryan Abernathey](https://github.com/rabernat),
+        [Naomi Henderson](https://github.com/naomi-henderson), [Charles Blackmon-Luca](https://github.com/charlesbluca),
+        [Aparna Radhakrishnan](https://github.com/aradhakrishnanGFDL), [Julius Busecke](https://github.com/jbusecke),
+        and [Charles Stern](https://github.com/cisaacstern) for the huge amount of
+        work they've done to translate the ESGF CMIP6 netCDF archives into consistently-formattted,
+        analysis-ready zarr stores on Google Cloud.\\n\\nWe're also grateful to the
+        [xclim developers](https://github.com/Ouranosinc/xclim/graphs/contributors)
+        ([DOI: 10.5281/zenodo.2795043](https://doi.org/10.5281/zenodo.2795043)), in
+        particular [Pascal Bourgault](https://github.com/aulemahal), [David Huard](https://github.com/huard),
+        and [Travis Logan](https://github.com/tlogan2000), for implementing the QDM
+        bias correction method in the xclim python package, supporting our QPLAD implementation
+        into the package, and ongoing support in integrating dask into downscaling
+        workflows. For method advice and useful conversations, we would like to thank
+        Keith Dixon, Dennis Adams-Smith, and [Joe Hamman](https://github.com/jhamman).\\n\\n##
+        Financial support\\n\\nThis research has been supported by The Rockefeller
+        Foundation and the Microsoft AI for Earth Initiative.\\n\\n## Additional links:\\n\\n*
+        CIL GDPCIR project homepage: [github.com/ClimateImpactLab/downscaleCMIP6](https://github.com/ClimateImpactLab/downscaleCMIP6)\\n*
+        Project listing on zenodo: https://doi.org/10.5281/zenodo.6403794\\n* Climate
+        Impact Lab homepage: [impactlab.org](https://impactlab.org)\",\"item_assets\":{\"pr\":{\"type\":\"application/vnd+zarr\",\"roles\":[\"data\"],\"title\":\"Precipitation\",\"description\":\"Precipitation\"},\"tasmax\":{\"type\":\"application/vnd+zarr\",\"roles\":[\"data\"],\"title\":\"Daily
+        Maximum Near-Surface Air Temperature\",\"description\":\"Daily Maximum Near-Surface
+        Air Temperature\"},\"tasmin\":{\"type\":\"application/vnd+zarr\",\"roles\":[\"data\"],\"title\":\"Daily
+        Minimum Near-Surface Air Temperature\",\"description\":\"Daily Minimum Near-Surface
+        Air Temperature\"}},\"msft:region\":\"westeurope\",\"stac_version\":\"1.0.0\",\"msft:group_id\":\"cil-gdpcir\",\"cube:variables\":{\"pr\":{\"type\":\"data\",\"unit\":\"mm
+        day-1\",\"attrs\":{\"units\":\"mm day-1\"},\"dimensions\":[\"time\",\"lat\",\"lon\"]},\"tasmax\":{\"type\":\"data\",\"unit\":\"K\",\"attrs\":{\"units\":\"K\",\"comment\":\"maximum
+        near-surface (usually, 2 meter) air temperature (add cell_method attribute
+        'time: max')\",\"long_name\":\"Daily Maximum Near-Surface Air Temperature\",\"coordinates\":\"height\",\"cell_methods\":\"area:
+        mean time: maximum (interval: 5 minutes)\",\"cell_measures\":\"area: areacella\",\"original_name\":\"TREFHTMX\",\"standard_name\":\"air_temperature\"},\"dimensions\":[\"time\",\"lat\",\"lon\"],\"description\":\"Daily
+        Maximum Near-Surface Air Temperature\"},\"tasmin\":{\"type\":\"data\",\"unit\":\"K\",\"attrs\":{\"units\":\"K\",\"comment\":\"minimum
+        near-surface (usually, 2 meter) air temperature (add cell_method attribute
+        'time: min')\",\"long_name\":\"Daily Minimum Near-Surface Air Temperature\",\"coordinates\":\"height\",\"cell_methods\":\"area:
+        mean time: minimum (interval: 5 minutes)\",\"cell_measures\":\"area: areacella\",\"original_name\":\"TREFHTMN\",\"standard_name\":\"air_temperature\"},\"dimensions\":[\"time\",\"lat\",\"lon\"],\"description\":\"Daily
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+        Impact Lab\",\"Rhodium Group\",\"Precipitation\",\"Temperature\"],\"providers\":[{\"url\":\"https://impactlab.org/\",\"name\":\"Climate
+        Impact Lab\",\"roles\":[\"producer\"]},{\"url\":\"https://planetarycomputer.microsoft.com/\",\"name\":\"Microsoft\",\"roles\":[\"host\"]}],\"summaries\":{\"cmip6:variable\":[\"pr\",\"tasmax\",\"tasmin\"],\"cmip6:source_id\":[\"BCC-CSM2-MR\",\"ACCESS-ESM1-5\",\"ACCESS-CM2\",\"MIROC-ES2L\",\"MIROC6\",\"NorESM2-LM\",\"NorESM2-MM\",\"GFDL-CM4\",\"GFDL-ESM4\",\"NESM3\",\"MPI-ESM1-2-HR\",\"HadGEM3-GC31-LL\",\"UKESM1-0-LL\",\"MPI-ESM1-2-LR\",\"EC-Earth3\",\"EC-Earth3-AerChem\",\"EC-Earth3-CC\",\"EC-Earth3-Veg\",\"EC-Earth3-Veg-LR\",\"CMCC-CM2-SR5\",\"CMCC-ESM2\"],\"cmip6:experiment_id\":[\"historical\",\"ssp126\",\"ssp245\",\"ssp370\",\"ssp585\"],\"cmip6:institution_id\":[\"BCC\",\"CAS\",\"CCCma\",\"CMCC\",\"CSIRO\",\"CSIRO-ARCCSS\",\"DKRZ\",\"EC-Earth-Consortium\",\"INM\",\"MIROC\",\"MOHC\",\"MPI-M\",\"NCC\",\"NOAA-GFDL\",\"NUIST\"]},\"description\":\"The
+        World Climate Research Programme's [6th Coupled Model Intercomparison Project
+        (CMIP6)](https://www.wcrp-climate.org/wgcm-cmip/wgcm-cmip6) represents an
+        enormous advance in the quality, detail, and scope of climate modeling.\\n\\nThe
+        [Global Downscaled Projections for Climate Impacts Research](https://github.com/ClimateImpactLab/downscaleCMIP6)
+        dataset makes this modeling more applicable to understanding the impacts of
+        changes in the climate on humans and society with two key developments: trend-preserving
+        bias correction and downscaling. In this dataset, the [Climate Impact Lab](https://impactlab.org)
+        provides global, daily minimum and maximum air temperature at the surface
+        (`tasmin` and `tasmax`) and daily cumulative surface precipitation (`pr`)
+        corresponding to the CMIP6 historical, ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5
+        scenarios for 25 global climate models on a 1/4-degree regular global grid.\\n\\n##
+        Accessing the data\\n\\nGDPCIR data can be accessed on the Microsoft Planetary
+        Computer. The dataset is made of of three collections, distinguished by data
+        license:\\n* [Public domain (CC0-1.0) collection](https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0)\\n*
+        [Attribution (CC BY 4.0) collection](https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by)\\n\\nEach
+        modeling center with bias corrected and downscaled data in this collection
+        falls into one of these license categories - see the [table below](/dataset/cil-gdpcir-cc-by#available-institutions-models-and-scenarios-by-license-collection)
+        to see which model is in each collection, and see the section below on [Citing,
+        Licensing, and using data produced by this project](/dataset/cil-gdpcir-cc-by#citing-licensing-and-using-data-produced-by-this-project)
+        for citations and additional information about each license.\\n\\n## Data
+        format & contents\\n\\nThe data is stored as partitioned zarr stores (see
+        [https://zarr.readthedocs.io](https://zarr.readthedocs.io)), each of which
+        includes thousands of data and metadata files covering the full time span
+        of the experiment. Historical zarr stores contain just over 50 GB, while SSP
+        zarr stores contain nearly 70GB. Each store is stored as a 32-bit float, with
+        dimensions time (daily datetime), lat (float latitude), and lon (float longitude).
+        The data is chunked at each interval of 365 days and 90 degree interval of
+        latitude and longitude. Therefore, each chunk is `(365, 360, 360)`, with each
+        chunk occupying approximately 180MB in memory.\\n\\nHistorical data is daily,
+        excluding leap days, from Jan 1, 1950 to Dec 31, 2014; SSP data is daily,
+        excluding leap days, from Jan 1, 2015 to either Dec 31, 2099 or Dec 31, 2100,
+        depending on data availability in the source GCM.\\n\\nThe spatial domain
+        covers all 0.25-degree grid cells, indexed by the grid center, with grid edges
+        on the quarter-degree, using a -180 to 180 longitude convention. Thus, the
+        \u201Clon\u201D coordinate extends from -179.875 to 179.875, and the \u201Clat\u201D
+        coordinate extends from -89.875 to 89.875, with intermediate values at each
+        0.25-degree increment between (e.g. -179.875, -179.625, -179.375, etc).\\n\\n##
+        Available institutions, models, and scenarios by license collection\\n\\n|
+        Modeling institution |   Source model    |           Available experiments
+        \           |   License collection   |\\n| -------------------- | -----------------
+        | ------------------------------------------ | ---------------------- |\\n|
+        CAS                  | FGOALS-g3 [^1]    | SSP2-4.5, SSP3-7.0, and SSP5-8.5
+        \          | Public domain datasets |\\n| INM                  | INM-CM4-8
+        \        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | Public domain datasets
+        |\\n| INM                  | INM-CM5-0         | SSP1-2.6, SSP2-4.5, SSP3-7.0,
+        and SSP5-8.5 | Public domain datasets |\\n| BCC                  | BCC-CSM2-MR
+        \      | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n|
+        CMCC                 | CMCC-CM2-SR5      | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5
+        \    | CC-BY-40               |\\n| CMCC                 | CMCC-ESM2         |
+        ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-40               |\\n|
+        CSIRO-ARCCSS         | ACCESS-CM2        | SSP2-4.5 and SSP3-7.0                      |
+        CC-BY-40               |\\n| CSIRO                | ACCESS-ESM1-5     | SSP1-2.6,
+        SSP2-4.5, and SSP3-7.0           | CC-BY-40               |\\n| MIROC                |
+        MIROC-ES2L        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
+        \              |\\n| MIROC                | MIROC6            | SSP1-2.6,
+        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| MOHC                 |
+        HadGEM3-GC31-LL   | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40
+        \              |\\n| MOHC                 | UKESM1-0-LL       | SSP1-2.6,
+        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| MPI-M                |
+        MPI-ESM1-2-LR     | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
+        \              |\\n| MPI-M/DKRZ [^2]      | MPI-ESM1-2-HR     | SSP1-2.6 and
+        SSP5-8.5                      | CC-BY-40               |\\n| NCC                  |
+        NorESM2-LM        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
+        \              |\\n| NCC                  | NorESM2-MM        | SSP1-2.6,
+        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| NOAA-GFDL
+        \           | GFDL-CM4          | SSP2-4.5 and SSP5-8.5                      |
+        CC-BY-40               |\\n| NOAA-GFDL            | GFDL-ESM4         | SSP1-2.6,
+        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| NUIST                |
+        NESM3             | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40
+        \              |\\n| EC-Earth-Consortium  | EC-Earth3         | ssp1-2.6,
+        ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40               |\\n| EC-Earth-Consortium
+        \ | EC-Earth3-AerChem | ssp370                                     | CC-BY-40
+        \              |\\n| EC-Earth-Consortium  | EC-Earth3-CC      | ssp245 and
+        ssp585                          | CC-BY-40               |\\n| EC-Earth-Consortium
+        \ | EC-Earth3-Veg     | ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40
+        \              |\\n| EC-Earth-Consortium  | EC-Earth3-Veg-LR  | ssp1-2.6,
+        ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40               |\\n| CCCma                |
+        CanESM5           | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-40[^3]
+        \          |\\n\\n*Notes:*\\n\\n[^1]: At the time of running, no ssp1-2.6
+        precipitation data was available. Therefore, we provide `tasmin` and `tamax`
+        for this model and experiment, but not `pr`. All other model/experiment combinations
+        in the above table include all three variables.\\n\\n[^2]: The institution
+        which ran MPI-ESM1-2-HR\u2019s historical (CMIP) simulations is `MPI-M`, while
+        the future (ScenarioMIP) simulations were run by `DKRZ`. Therefore, the institution
+        component of `MPI-ESM1-2-HR` filepaths differ between `historical` and `SSP`
+        scenarios.\\n\\n[^3]: This dataset was previously licensed as [CC BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/),
+        but was relicensed under [CC BY 4.0](https://creativecommons.org/licenses/by/4.0)
+        in March, 2023. \\n\\n## Project methods\\n\\nThis project makes use of statistical
+        bias correction and downscaling algorithms, which are specifically designed
+        to accurately represent changes in the extremes. For this reason, we selected
+        Quantile Delta Mapping (QDM), following the method introduced by [Cannon et
+        al. (2015)](https://doi.org/10.1175/JCLI-D-14-00754.1), which preserves quantile-specific
+        trends from the GCM while fitting the full distribution for a given day-of-year
+        to a reference dataset (ERA5).\\n\\nWe then introduce a similar method tailored
+        to increase spatial resolution while preserving extreme behavior, Quantile-Preserving
+        Localized-Analog Downscaling (QPLAD).\\n\\nTogether, these methods provide
+        a robust means to handle both the central and tail behavior seen in climate
+        model output, while aligning the full distribution to a state-of-the-art reanalysis
+        dataset and providing the spatial granularity needed to study surface impacts.\\n\\nFor
+        further documentation, see [Global downscaled projections for climate impacts
+        research (GDPCIR): preserving extremes for modeling future climate impacts](https://egusphere.copernicus.org/preprints/2023/egusphere-2022-1513/)
+        (EGUsphere, 2022 [preprint]).\\n\\n## Citing, licensing, and using data produced
+        by this project\\n\\nProjects making use of the data produced as part of the
+        Climate Impact Lab Global Downscaled Projections for Climate Impacts Research
+        (CIL GDPCIR) project are requested to cite both this project and the source
+        datasets from which these results are derived. Additionally, the use of data
+        derived from some GCMs *requires* citations, and some modeling centers impose
+        licensing restrictions & requirements on derived works. See each GCM's license
+        info in the links below for more information.\\n\\n### CIL GDPCIR\\n\\nUsers
+        are requested to cite this project in derived works. Our method documentation
+        paper may be cited using the following:\\n\\n> Gergel, D. R., Malevich, S.
+        B., McCusker, K. E., Tenezakis, E., Delgado, M. T., Fish, M. A., and Kopp,
+        R. E.: Global downscaled projections for climate impacts research (GDPCIR):
+        preserving extremes for modeling future climate impacts, EGUsphere [preprint],
+        https://doi.org/10.5194/egusphere-2022-1513, 2023. \\n\\nThe code repository
+        may be cited using the following:\\n\\n> Diana Gergel, Kelly McCusker, Brewster
+        Malevich, Emile Tenezakis, Meredith Fish, Michael Delgado (2022). ClimateImpactLab/downscaleCMIP6:
+        (v1.0.0). Zenodo. https://doi.org/10.5281/zenodo.6403794\\n\\n### ERA5\\n\\nAdditionally,
+        we request you cite the historical dataset used in bias correction and downscaling,
+        ERA5. See the [ECMWF guide to citing a dataset on the Climate Data Store](https://confluence.ecmwf.int/display/CKB/How+to+acknowledge+and+cite+a+Climate+Data+Store+%28CDS%29+catalogue+entry+and+the+data+published+as+part+of+it):\\n\\n>
+        Hersbach, H, et al. The ERA5 global reanalysis. Q J R Meteorol Soc.2020; 146:
+        1999\u20132049. DOI: [10.1002/qj.3803](https://doi.org/10.1002/qj.3803)\\n>\\n>
+        Mu\xF1oz Sabater, J., (2019): ERA5-Land hourly data from 1981 to present.
+        Copernicus Climate Change Service (C3S) Climate Data Store (CDS). (Accessed
+        on June 4, 2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n>\\n>
+        Mu\xF1oz Sabater, J., (2021): ERA5-Land hourly data from 1950 to 1980. Copernicus
+        Climate Change Service (C3S) Climate Data Store (CDS). (Accessed on June 4,
+        2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n\\n###
+        GCM-specific citations & licenses\\n\\nThe CMIP6 simulation data made available
+        through the Earth System Grid Federation (ESGF) are subject to Creative Commons
+        [BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/) or [BY-NC-SA
+        4.0](https://creativecommons.org/licenses/by-nc-sa/4.0/) licenses. The Climate
+        Impact Lab has reached out to each of the modeling institutions to request
+        waivers from these terms so the outputs of this project may be used with fewer
+        restrictions, and has been granted permission to release the data using the
+        licenses listed here.\\n\\n#### Public Domain Datasets\\n\\nThe following
+        bias corrected and downscaled model simulations are available in the public
+        domain using a [CC0 1.0 Universal Public Domain Declaration](https://creativecommons.org/publicdomain/zero/1.0/).
+        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0.\\n\\n*
+        **FGOALS-g3**\\n\\n  License description: [data_licenses/FGOALS-g3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/FGOALS-g3.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output
+        prepared for CMIP6 CMIP*. Version 20190826. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.1783\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output prepared for CMIP6
+        ScenarioMIP*. SSP1-2.6 version 20190818; SSP2-4.5 version 20190818; SSP3-7.0
+        version 20190820; SSP5-8.5 tasmax version 20190819; SSP5-8.5 tasmin version
+        20190819; SSP5-8.5 pr version 20190818. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2056\\n\\n\\n*
+        **INM-CM4-8**\\n\\n  License description: [data_licenses/INM-CM4-8.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM4-8.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
+        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
+        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
+        *INM INM-CM4-8 model output prepared for CMIP6 CMIP*. Version 20190530. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1422\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
+        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
+        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM4-8
+        model output prepared for CMIP6 ScenarioMIP*. Version 20190603. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12321\\n\\n\\n* **INM-CM5-0**\\n\\n
+        \ License description: [data_licenses/INM-CM5-0.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM5-0.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
+        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
+        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
+        *INM INM-CM5-0 model output prepared for CMIP6 CMIP*. Version 20190610. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1423\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
+        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
+        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM5-0
+        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20190619; SSP2-4.5
+        version 20190619; SSP3-7.0 version 20190618; SSP5-8.5 version 20190724. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12322\\n\\n\\n####
+        CC-BY-4.0\\n\\nThe following bias corrected and downscaled model simulations
+        are licensed under a [Creative Commons Attribution 4.0 International License](https://creativecommons.org/licenses/by/4.0/).
+        Note that this license requires citation of the source model output (included
+        here). Please see https://creativecommons.org/licenses/by/4.0/ for more information.
+        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by.\\n\\n*
+        **ACCESS-CM2**\\n\\n  License description: [data_licenses/ACCESS-CM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-CM2.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler,
+        Russell; Harman, Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell,
+        Siobhan; Rashid, Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire;
+        Vohralik, Peter; Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman,
+        Roger; Dias, Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen,
+        Aidan; Savita, Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans,
+        Ben; Richards, Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon;
+        Snow, Kate; Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2
+        model output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid
+        Federation. https://doi.org/10.22033/ESGF/CMIP6.2281\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler, Russell; Harman,
+        Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell, Siobhan; Rashid,
+        Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire; Vohralik, Peter;
+        Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman, Roger; Dias,
+        Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen, Aidan; Savita,
+        Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans, Ben; Richards,
+        Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon; Snow, Kate;
+        Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2 model output
+        prepared for CMIP6 ScenarioMIP*. Version 20191108. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.2285\\n\\n\\n* **ACCESS-ESM1-5**\\n\\n
+        \ License description: [data_licenses/ACCESS-ESM1-5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-ESM1-5.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew;
+        Law, Rachel; Bodman, Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter;
+        Srbinovsky, Jhan; Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan,
+        Arnold; O'Farrell, Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5
+        model output prepared for CMIP6 CMIP*. Version 20191115. Earth System Grid
+        Federation. https://doi.org/10.22033/ESGF/CMIP6.2288\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew; Law, Rachel; Bodman,
+        Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter; Srbinovsky, Jhan;
+        Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan, Arnold; O'Farrell,
+        Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5 model output prepared
+        for CMIP6 ScenarioMIP*. Version 20191115. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2291\\n\\n\\n*
+        **BCC-CSM2-MR**\\n\\n  License description: [data_licenses/BCC-CSM2-MR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/BCC-CSM2-MR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Xin, Xiaoge; Zhang, Jie; Zhang, Fang; Wu, Tongwen;
+        Shi, Xueli; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang;
+        Wei, Min **(2018)**. *BCC BCC-CSM2MR model output prepared for CMIP6 CMIP*.
+        Version 20181126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1725\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Xin, Xiaoge; Wu, Tongwen; Shi, Xueli; Zhang,
+        Fang; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang; Wei,
+        Min **(2019)**. *BCC BCC-CSM2MR model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20190315; SSP2-4.5 version 20190318; SSP3-7.0 version 20190318;
+        SSP5-8.5 version 20190318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1732\\n\\n\\n*
+        **CMCC-CM2-SR5**\\n\\n  License description: [data_licenses/CMCC-CM2-SR5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-CM2-SR5.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC
+        CMCC-CM2-SR5 model output prepared for CMIP6 CMIP*. Version 20200616. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1362\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC CMCC-CM2-SR5
+        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20200717; SSP2-4.5
+        version 20200617; SSP3-7.0 version 20200622; SSP5-8.5 version 20200622. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1365\\n\\n\\n*
+        **CMCC-ESM2**\\n\\n  License description: [data_licenses/CMCC-ESM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-ESM2.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n, Momme
+        **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 CMIP*. Version
+        20210114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13164\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n,
+        Momme **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20210126; SSP2-4.5 version 20210129; SSP3-7.0 version 20210202;
+        SSP5-8.5 version 20210126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13168\\n\\n\\n*
+        **EC-Earth3-AerChem**\\n\\n  License description: [data_licenses/EC-Earth3-AerChem.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-AerChem.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
+        EC-Earth3-AerChem model output prepared for CMIP6 CMIP*. Version 20200624.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.639\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
+        *EC-Earth-Consortium EC-Earth3-AerChem model output prepared for CMIP6 ScenarioMIP*.
+        Version 20200827. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.724\\n\\n\\n*
+        **EC-Earth3-CC**\\n\\n  License description: [data_licenses/EC-Earth3-CC.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-CC.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
+        EC-Earth-3-CC model output prepared for CMIP6 CMIP*. Version 20210113. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.640\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2021)**. *EC-Earth-Consortium
+        EC-Earth3-CC model output prepared for CMIP6 ScenarioMIP*. Version 20210113.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.15327\\n\\n\\n*
+        **EC-Earth3-Veg-LR**\\n\\n  License description: [data_licenses/EC-Earth3-Veg-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg-LR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
+        EC-Earth3-Veg-LR model output prepared for CMIP6 CMIP*. Version 20200217.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.643\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
+        *EC-Earth-Consortium EC-Earth3-Veg-LR model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20201201; SSP2-4.5 version 20201123; SSP3-7.0 version 20201123;
+        SSP5-8.5 version 20201201. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.728\\n\\n\\n*
+        **EC-Earth3-Veg**\\n\\n  License description: [data_licenses/EC-Earth3-Veg.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3-Veg model output prepared for CMIP6 CMIP*. Version 20200225. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.642\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3-Veg model output prepared for CMIP6 ScenarioMIP*. Version 20200225.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.727\\n\\n\\n*
+        **EC-Earth3**\\n\\n  License description: [data_licenses/EC-Earth3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3 model output prepared for CMIP6 CMIP*. Version 20200310. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.181\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
+        EC-Earth3 model output prepared for CMIP6 ScenarioMIP*. Version 20200310.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.251\\n\\n\\n*
+        **GFDL-CM4**\\n\\n  License description: [data_licenses/GFDL-CM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-CM4.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh,
+        Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher; Zadeh,
+        Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
+        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Bushuk, Mitchell; Dunne,
+        Krista A.; Dussin, Raphael; Gauthier, Paul PG; Ginoux, Paul; Griffies, Stephen
+        M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu; Malyshev,
+        Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay, Jeffrey;
+        Reichl, Brandon G; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew;
+        Silvers, Levi; Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair;
+        Dunne, John P.; Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly,
+        P.C.D; Shevliakova, Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**.
+        *NOAA-GFDL GFDL-CM4 model output*. Version 20180701. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.1402\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh, Colleen; Nikonov, Serguei;
+        Radhakrishnan, Aparna; Rand, Kristopher; Zadeh, Niki T.; Balaji, V; Durachta,
+        Jeff; Dupuis, Christopher; Menzel, Raymond; Robinson, Thomas; Underwood, Seth;
+        Vahlenkamp, Hans; Dunne, Krista A.; Gauthier, Paul PG; Ginoux, Paul; Griffies,
+        Stephen M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu;
+        Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay,
+        Jeffrey; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew; Silvers, Levi;
+        Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair; Dunne, John P.;
+        Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly, Chris; Shevliakova,
+        Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**. *NOAA-GFDL GFDL-CM4
+        model output prepared for CMIP6 ScenarioMIP*. Version 20180701. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.9242\\n\\n\\n* **GFDL-ESM4**\\n\\n
+        \ License description: [data_licenses/GFDL-ESM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-ESM4.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Krasting, John P.; John, Jasmin G; Blanton, Chris;
+        McHugh, Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher;
+        Zadeh, Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
+        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Dunne, Krista A.; Gauthier,
+        Paul PG; Ginoux, Paul; Griffies, Stephen M.; Hallberg, Robert; Harrison, Matthew;
+        Hurlin, William; Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter,
+        David J; Ploshay, Jeffrey; Reichl, Brandon G; Schwarzkopf, Daniel M; Seman,
+        Charles J; Silvers, Levi; Wyman, Bruce; Zeng, Yujin; Adcroft, Alistair; Dunne,
+        John P.; Dussin, Raphael; Guo, Huan; He, Jian; Held, Isaac M; Horowitz, Larry
+        W.; Lin, Pu; Milly, P.C.D; Shevliakova, Elena; Stock, Charles; Winton, Michael;
+        Wittenberg, Andrew T.; Xie, Yuanyu; Zhao, Ming **(2018)**. *NOAA-GFDL GFDL-ESM4
+        model output prepared for CMIP6 CMIP*. Version 20190726. Earth System Grid
+        Federation. https://doi.org/10.22033/ESGF/CMIP6.1407\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > John, Jasmin G; Blanton, Chris; McHugh, Colleen; Radhakrishnan, Aparna;
+        Rand, Kristopher; Vahlenkamp, Hans; Wilson, Chandin; Zadeh, Niki T.; Dunne,
+        John P.; Dussin, Raphael; Horowitz, Larry W.; Krasting, John P.; Lin, Pu;
+        Malyshev, Sergey; Naik, Vaishali; Ploshay, Jeffrey; Shevliakova, Elena; Silvers,
+        Levi; Stock, Charles; Winton, Michael; Zeng, Yujin **(2018)**. *NOAA-GFDL
+        GFDL-ESM4 model output prepared for CMIP6 ScenarioMIP*. Version 20180701.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1414\\n\\n\\n*
+        **HadGEM3-GC31-LL**\\n\\n  License description: [data_licenses/HadGEM3-GC31-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/HadGEM3-GC31-LL.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Ridley, Jeff; Menary, Matthew; Kuhlbrodt, Till;
+        Andrews, Martin; Andrews, Tim **(2018)**. *MOHC HadGEM3-GC31-LL model output
+        prepared for CMIP6 CMIP*. Version 20190624. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.419\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Good, Peter **(2019)**. *MOHC HadGEM3-GC31-LL model output prepared for
+        CMIP6 ScenarioMIP*. SSP1-2.6 version 20200114; SSP2-4.5 version 20190908;
+        SSP5-8.5 version 20200114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.10845\\n\\n\\n*
+        **MIROC-ES2L**\\n\\n  License description: [data_licenses/MIROC-ES2L.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC-ES2L.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Hajima, Tomohiro; Abe, Manabu; Arakawa, Osamu; Suzuki,
+        Tatsuo; Komuro, Yoshiki; Ogura, Tomoo; Ogochi, Koji; Watanabe, Michio; Yamamoto,
+        Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito, Akinori; Yamazaki,
+        Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya, Michio; Tachiiri,
+        Kaoru **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 CMIP*.
+        Version 20191129. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.902\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Tachiiri, Kaoru; Abe, Manabu; Hajima, Tomohiro;
+        Arakawa, Osamu; Suzuki, Tatsuo; Komuro, Yoshiki; Ogochi, Koji; Watanabe, Michio;
+        Yamamoto, Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito,
+        Akinori; Yamazaki, Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya,
+        Michio **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 ScenarioMIP*.
+        Version 20200318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.936\\n\\n\\n*
+        **MIROC6**\\n\\n  License description: [data_licenses/MIROC6.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC6.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Tatebe, Hiroaki; Watanabe, Masahiro **(2018)**.
+        *MIROC MIROC6 model output prepared for CMIP6 CMIP*. Version 20191016. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.881\\n\\n  ScenarioMIP
+        Citation:\\n\\n  > Shiogama, Hideo; Abe, Manabu; Tatebe, Hiroaki **(2019)**.
+        *MIROC MIROC6 model output prepared for CMIP6 ScenarioMIP*. Version 20191016.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.898\\n\\n\\n*
+        **MPI-ESM1-2-HR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-HR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-HR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Jungclaus, Johann; Bittner, Matthias; Wieners, Karl-Hermann;
+        Wachsmann, Fabian; Schupfner, Martin; Legutke, Stephanie; Giorgetta, Marco;
+        Reick, Christian; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz,
+        Thomas; Esch, Monika; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens,
+        J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina;
+        Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster,
+        Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem;
+        Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
+        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
+        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
+        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
+        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-HR model output prepared
+        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.741\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Schupfner, Martin; Wieners, Karl-Hermann;
+        Wachsmann, Fabian; Steger, Christian; Bittner, Matthias; Jungclaus, Johann;
+        Fr\xFCh, Barbara; Pankatz, Klaus; Giorgetta, Marco; Reick, Christian; Legutke,
+        Stephanie; Esch, Monika; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp;
+        Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens, J\xF6rg;
+        Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina; Fiedler,
+        Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster, Silvia;
+        Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem; Matei, Daniela;
+        Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang;
+        Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten; Pincus, Robert; Pohlmann,
+        Holger; Pongratz, Julia; Rast, Sebastian; Schmidt, Hauke; Schnur, Reiner;
+        Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich
+        **(2019)**. *DKRZ MPI-ESM1.2-HR model output prepared for CMIP6 ScenarioMIP*.
+        Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2450\\n\\n\\n*
+        **MPI-ESM1-2-LR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-LR.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco; Jungclaus,
+        Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Legutke, Stephanie;
+        Schupfner, Martin; Wachsmann, Fabian; Gayler, Veronika; Haak, Helmuth; de
+        Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song;
+        Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast,
+        Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas;
+        Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke,
+        Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
+        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
+        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
+        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
+        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR model output prepared
+        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.742\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco;
+        Jungclaus, Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Gayler,
+        Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten;
+        von Storch, Jin-Song; Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin;
+        Crueger, Traute; Fast, Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger,
+        Cathy; Jahns, Thomas; Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh,
+        Luis; Marotzke, Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz,
+        Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von
+        Gehlen, Karsten; Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast,
+        Sebastian; Schmidt, Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina;
+        Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR
+        model output prepared for CMIP6 ScenarioMIP*. Version 20190710. Earth System
+        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.793\\n\\n\\n* **NESM3**\\n\\n
+        \ License description: [data_licenses/NESM3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NESM3.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Cao, Jian; Wang, Bin **(2019)**. *NUIST NESMv3 model
+        output prepared for CMIP6 CMIP*. Version 20190812. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.2021\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Cao, Jian **(2019)**. *NUIST NESMv3 model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20190806; SSP2-4.5 version 20190805; SSP5-8.5 version 20190811.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2027\\n\\n\\n*
+        **NorESM2-LM**\\n\\n  License description: [data_licenses/NorESM2-LM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-LM.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk
+        Jan Leo; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
+        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
+        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
+        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
+        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
+        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
+        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-LM model
+        output prepared for CMIP6 CMIP*. Version 20190815. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.502\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Toniazzo, Thomas;
+        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
+        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
+        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
+        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
+        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
+        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
+        Michael **(2019)**. *NCC NorESM2-LM model output prepared for CMIP6 ScenarioMIP*.
+        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.604\\n\\n\\n*
+        **NorESM2-MM**\\n\\n  License description: [data_licenses/NorESM2-MM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-MM.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland,
+        \xD8yvind; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
+        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
+        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
+        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
+        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
+        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
+        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-MM model
+        output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.506\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland, \xD8yvind; Toniazzo, Thomas;
+        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
+        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
+        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
+        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
+        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
+        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
+        Michael **(2019)**. *NCC NorESM2-MM model output prepared for CMIP6 ScenarioMIP*.
+        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.608\\n\\n\\n*
+        **UKESM1-0-LL**\\n\\n  License description: [data_licenses/UKESM1-0-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/UKESM1-0-LL.txt)\\n\\n
+        \ CMIP Citation:\\n\\n  > Tang, Yongming; Rumbold, Steve; Ellis, Rich; Kelley,
+        Douglas; Mulcahy, Jane; Sellar, Alistair; Walton, Jeremy; Jones, Colin **(2019)**.
+        *MOHC UKESM1.0-LL model output prepared for CMIP6 CMIP*. Version 20190627.
+        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1569\\n\\n
+        \ ScenarioMIP Citation:\\n\\n  > Good, Peter; Sellar, Alistair; Tang, Yongming;
+        Rumbold, Steve; Ellis, Rich; Kelley, Douglas; Kuhlbrodt, Till; Walton, Jeremy
+        **(2019)**. *MOHC UKESM1.0-LL model output prepared for CMIP6 ScenarioMIP*.
+        SSP1-2.6 version 20190708; SSP2-4.5 version 20190715; SSP3-7.0 version 20190726;
+        SSP5-8.5 version 20190726. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1567\\n\\n*
+        **CanESM5**\\n\\n  License description: [data_licenses/CanESM5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CanESM5.txt).
+        Note: this dataset was previously licensed\\n  under CC BY-SA 4.0, but was
+        relicensed as CC BY 4.0 in March, 2023.\\n\\n  CMIP Citation:\\n\\n  > Swart,
+        Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav V.; Lazare, Mike; Scinocca,
+        John F.; Gillett, Nathan P.; Anstey, James; Arora, Vivek; Christian, James
+        R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad; Saenko, Oleg A.; Seiler,
+        Christian; Seinen, Clint; Shao, Andrew; Solheim, Larry; von Salzen, Knut;
+        Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**. *CCCma CanESM5 model
+        output prepared for CMIP6 CMIP*. Version 20190429. Earth System Grid Federation.
+        https://doi.org/10.22033/ESGF/CMIP6.1303\\n\\n  ScenarioMIP Citation:\\n\\n
+        \ > Swart, Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav V.; Lazare,
+        Mike; Scinocca, John F.; Gillett, Nathan P.; Anstey, James; Arora, Vivek;
+        Christian, James R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad; Saenko,
+        Oleg A.; Seiler, Christian; Seinen, Clint; Shao, Andrew; Solheim, Larry; von
+        Salzen, Knut; Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**. *CCCma
+        CanESM5 model output prepared for CMIP6 ScenarioMIP*. Version 20190429. Earth
+        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1317\\n\\n## Acknowledgements\\n\\nThis
+        work is the result of many years worth of work by members of the [Climate
+        Impact Lab](https://impactlab.org), but would not have been possible without
+        many contributions from across the wider scientific and computing communities.\\n\\nSpecifically,
+        we would like to acknowledge the World Climate Research Programme's Working
+        Group on Coupled Modeling, which is responsible for CMIP, and we would like
+        to thank the climate modeling groups for producing and making their model
+        output available. We would particularly like to thank the modeling institutions
+        whose results are included as an input to this repository (listed above) for
+        their contributions to the CMIP6 project and for responding to and granting
+        our requests for license waivers.\\n\\nWe would also like to thank Lamont-Doherty
+        Earth Observatory, the [Pangeo Consortium](https://github.com/pangeo-data)
+        (and especially the [ESGF Cloud Data Working Group](https://pangeo-data.github.io/pangeo-cmip6-cloud/#))
+        and Google Cloud and the Google Public Datasets program for making the [CMIP6
+        Google Cloud collection](https://console.cloud.google.com/marketplace/details/noaa-public/cmip6)
+        possible. In particular we're extremely grateful to [Ryan Abernathey](https://github.com/rabernat),
+        [Naomi Henderson](https://github.com/naomi-henderson), [Charles Blackmon-Luca](https://github.com/charlesbluca),
+        [Aparna Radhakrishnan](https://github.com/aradhakrishnanGFDL), [Julius Busecke](https://github.com/jbusecke),
+        and [Charles Stern](https://github.com/cisaacstern) for the huge amount of
+        work they've done to translate the ESGF CMIP6 netCDF archives into consistently-formattted,
+        analysis-ready zarr stores on Google Cloud.\\n\\nWe're also grateful to the
+        [xclim developers](https://github.com/Ouranosinc/xclim/graphs/contributors)
+        ([DOI: 10.5281/zenodo.2795043](https://doi.org/10.5281/zenodo.2795043)), in
+        particular [Pascal Bourgault](https://github.com/aulemahal), [David Huard](https://github.com/huard),
+        and [Travis Logan](https://github.com/tlogan2000), for implementing the QDM
+        bias correction method in the xclim python package, supporting our QPLAD implementation
+        into the package, and ongoing support in integrating dask into downscaling
+        workflows. For method advice and useful conversations, we would like to thank
+        Keith Dixon, Dennis Adams-Smith, and [Joe Hamman](https://github.com/jhamman).\\n\\n##
+        Financial support\\n\\nThis research has been supported by The Rockefeller
+        Foundation and the Microsoft AI for Earth Initiative.\\n\\n## Additional links:\\n\\n*
+        CIL GDPCIR project homepage: [github.com/ClimateImpactLab/downscaleCMIP6](https://github.com/ClimateImpactLab/downscaleCMIP6)\\n*
+        Project listing on zenodo: https://doi.org/10.5281/zenodo.6403794\\n* Climate
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+        grid. Each product consists of a single NetCDF file containing all data variables:\n\n-
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+        can be found in the [User Guide](https://sentinels.copernicus.eu/web/sentinel/user-guides/sentinel-3-slstr/product-types/level-2-wst)
+        and [Technical Guide](https://sentinel.esa.int/web/sentinel/technical-guides/sentinel-3-slstr/level-2/sst-processing).\n\nThis
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+        Maxar and Airbus imagery. The data is freely available for download and use
+        under ODbL. This dataset complements our other releases.\\n\\nFor more information,
+        see the [GlobalMLBuildingFootprints](https://github.com/microsoft/GlobalMLBuildingFootprints/)
+        repository on GitHub.\\n\\n## Building footprint creation\\n\\nThe building
+        extraction is done in two stages:\\n\\n1. Semantic Segmentation \u2013 Recognizing
+        building pixels on an aerial image using deep neural networks (DNNs)\\n2.
+        Polygonization \u2013 Converting building pixel detections into polygons\\n\\n**Stage
+        1: Semantic Segmentation**\\n\\n![Semantic segmentation](https://raw.githubusercontent.com/microsoft/GlobalMLBuildingFootprints/main/images/segmentation.jpg)\\n\\n**Stage
+        2: Polygonization**\\n\\n![Polygonization](https://github.com/microsoft/GlobalMLBuildingFootprints/raw/main/images/polygonization.jpg)\\n\\n##
+        Data assets\\n\\nThe building footprints are provided as a set of [geoparquet](https://github.com/opengeospatial/geoparquet)
+        datasets in [Delta][delta] table format.\\nThe data are partitioned by\\n\\n1.
+        Region\\n2. quadkey at [Bing Map Tiles][tiles] level 9\\n\\nEach `(Region,
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+        are *not* spatially partitioned. We recommend using data with a processing
+        date\\nof 2023-04-25 or newer. This processing date is part of the URL for
+        each parquet file and is captured in the STAC metadata\\nfor each item (see
+        below).\\n\\n## Delta Format\\n\\nThe collection-level asset under the `delta`
+        key gives you the fsspec-style URL\\nto the Delta table. This can be used
+        to efficiently query for matching partitions\\nby `Region` and `quadkey`.
+        See the notebook for an example using Python.\\n\\n## STAC metadata\\n\\nThis
+        STAC collection has one STAC item per region. The `msbuildings:region`\\nproperty
+        can be used to filter items to a specific region, and the `msbuildings:quadkey`\\nproperty
+        can be used to filter items to a specific quadkey (though you can also search\\nby
+        the `geometry`).\\n\\nNote that older STAC items are not spatially partitioned.
+        We recommend filtering on\\nitems with an `msbuildings:processing-date` of
+        `2023-04-25` or newer. See the collection\\nsummary for `msbuildings:processing-date`
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+        data projected onto a 500m grid. The latter SWIR-detected fire data is only
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+        SWIR fire detection is based on the S5 and S6 bands. More information about
+        the product and data processing can be found in the [User Guide](https://sentinel.esa.int/web/sentinel/user-guides/sentinel-3-slstr/product-types/level-2-frp)
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+        Data License"},{"rel":"about","href":"https://sentinels.copernicus.eu/web/sentinel/user-guides/sentinel-3-synergy/product-types/level-2-syn","type":"text/html","title":"Sentinel-3
+        Land Surface Reflectance and Aerosol Product User Guide"},{"rel":"describedby","href":"https://planetarycomputer.microsoft.com/dataset/sentinel-3-synergy-syn-l2-netcdf","title":"Human
+        readable dataset overview and reference","type":"text/html"}],"title":"Sentinel-3
+        Land Surface Reflectance and Aerosol","assets":{"thumbnail":{"href":"https://ai4edatasetspublicassets.blob.core.windows.net/assets/pc_thumbnails/sentinel-3-synergy-syn-l2-netcdf-thumb.png","title":"Sentinel-3
+        Land Surface Reflectance and Aerosol Thumbnail","media_type":"image/png"},"geoparquet-items":{"href":"abfs://items/sentinel-3-synergy-syn-l2-netcdf.parquet","type":"application/x-parquet","roles":["stac-items"],"title":"GeoParquet
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+        to GeoParquet format.","msft:partition_info":{"is_partitioned":true,"partition_frequency":"W"},"table:storage_options":{"account_name":"pcstacitems"}}},"extent":{"spatial":{"bbox":[[-180,-90,180,90]]},"temporal":{"interval":[["2018-09-22T16:51:00.001276Z",null]]}},"license":"proprietary","keywords":["Sentinel","Copernicus","ESA","Satellite","Land","Reflectance","Aerosol"],"providers":[{"url":"https://earth.esa.int/web/guest/home","name":"ESA","roles":["producer","processor","licensor"]},{"url":"https://planetarycomputer.microsoft.com","name":"Microsoft","roles":["host"]}],"summaries":{"eo:bands":[{"name":"Oa01","description":"Band
+        1 - Aerosol correction, improved water constituent retrieval","center_wavelength":0.4,"full_width_half_max":0.015},{"name":"Oa02","description":"Band
+        2 - Yellow substance and detrital pigments (turbidity)","center_wavelength":0.4125,"full_width_half_max":0.01},{"name":"Oa03","description":"Band
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+        5 - Chlorophyll, sediment, turbidity, red tide","center_wavelength":0.51,"full_width_half_max":0.01},{"name":"Oa06","description":"Band
+        6 - Chlorophyll reference (minimum)","center_wavelength":0.56,"full_width_half_max":0.01},{"name":"Oa07","description":"Band
+        7 - Sediment loading","center_wavelength":0.62,"full_width_half_max":0.01},{"name":"Oa08","description":"Band
+        8 - 2nd Chlorophyll absorption maximum, sediment, yellow substance / vegetation","center_wavelength":0.665,"full_width_half_max":0.01},{"name":"Oa09","description":"Band
+        9 - Improved fluorescence retrieval","center_wavelength":0.67375,"full_width_half_max":0.0075},{"name":"Oa10","description":"Band
+        10 - Chlorophyll fluorescence peak, red edge","center_wavelength":0.68125,"full_width_half_max":0.0075},{"name":"Oa11","description":"Band
+        11 - Chlorophyll fluorescence baseline, red edge transition","center_wavelength":0.70875,"full_width_half_max":0.01},{"name":"Oa12","description":"Band
+        12 - O2 absorption / clouds, vegetation","center_wavelength":0.75375,"full_width_half_max":0.0075},{"name":"Oa13","description":"Band
+        13 - O2 absorption / aerosol correction","center_wavelength":0.76125,"full_width_half_max":0.0025},{"name":"Oa16","description":"Band
+        16 - Atmospheric / aerosol correction","center_wavelength":0.77875,"full_width_half_max":0.015},{"name":"Oa17","description":"Band
+        17 - Atmospheric / aerosol correction, clouds, pixel co-registration","center_wavelength":0.865,"full_width_half_max":0.02},{"name":"Oa18","description":"Band
+        18 - Water vapour absorption reference. Common reference band with SLSTR.
+        Vegetation monitoring","center_wavelength":0.885,"full_width_half_max":0.01},{"name":"Oa19","description":"Band
+        19 - Water vapour absorption, vegetation monitoring (maximum REFLECTANCE)","center_wavelength":0.9,"full_width_half_max":0.01},{"name":"Oa21","description":"Band
+        21 - Water vapour absorption, atmospheric / aerosol correction","center_wavelength":1.02,"full_width_half_max":0.04},{"name":"S1","description":"Band
+        1 - Cloud screening, vegetation monitoring, aerosol","center_wavelength":0.55427,"full_width_half_max":0.01926},{"name":"S2","description":"Band
+        2 - NDVI, vegetation monitoring, aerosol","center_wavelength":0.65947,"full_width_half_max":0.01925},{"name":"S3","description":"Band
+        3 - NDVI, cloud flagging, pixel co-registration","center_wavelength":0.868,"full_width_half_max":0.0206},{"name":"S4","description":"Band
+        4 - Cirrus detection over land","center_wavelength":1.3748,"full_width_half_max":0.0208},{"name":"S5","description":"Band
+        5 - Cloud clearing, ice, snow, vegetation monitoring","center_wavelength":1.6134,"full_width_half_max":0.06068},{"name":"S6","description":"Band
+        6 - Vegetation state and cloud clearing","center_wavelength":2.2557,"full_width_half_max":0.05015},{"name":"SYN01","description":"OLCI
+        channel Oa01","center_wavelength":0.4,"full_width_half_max":0.015},{"name":"SYN02","description":"OLCI
+        channel Oa02","center_wavelength":0.4125,"full_width_half_max":0.01},{"name":"SYN03","description":"OLCI
+        channel Oa03","center_wavelength":0.4425,"full_width_half_max":0.01},{"name":"SYN04","description":"OLCI
+        channel Oa04","center_wavelength":0.49,"full_width_half_max":0.01},{"name":"SYN05","description":"OLCI
+        channel Oa05","center_wavelength":0.51,"full_width_half_max":0.01},{"name":"SYN06","description":"OLCI
+        channel Oa06","center_wavelength":0.56,"full_width_half_max":0.01},{"name":"SYN07","description":"OLCI
+        channel Oa07","center_wavelength":0.62,"full_width_half_max":0.01},{"name":"SYN08","description":"OLCI
+        channel Oa08","center_wavelength":0.665,"full_width_half_max":0.01},{"name":"SYN09","description":"OLCI
+        channel Oa09","center_wavelength":0.67375,"full_width_half_max":0.0075},{"name":"SYN10","description":"OLCI
+        channel Oa10","center_wavelength":0.68125,"full_width_half_max":0.0075},{"name":"SYN11","description":"OLCI
+        channel Oa11","center_wavelength":0.70875,"full_width_half_max":0.01},{"name":"SYN12","description":"OLCI
+        channel Oa12","center_wavelength":0.75375,"full_width_half_max":0.0075},{"name":"SYN13","description":"OLCI
+        channel Oa16","center_wavelength":0.7785,"full_width_half_max":0.015},{"name":"SYN14","description":"OLCI
+        channel Oa17","center_wavelength":0.865,"full_width_half_max":0.02},{"name":"SYN15","description":"OLCI
+        channel Oa18","center_wavelength":0.885,"full_width_half_max":0.01},{"name":"SYN16","description":"OLCI
+        channel Oa21","center_wavelength":1.02,"full_width_half_max":0.04},{"name":"SYN17","description":"SLSTR
+        nadir channel S1","center_wavelength":0.555,"full_width_half_max":0.02},{"name":"SYN18","description":"SLSTR
+        nadir channel S2","center_wavelength":0.659,"full_width_half_max":0.02},{"name":"SYN19","description":"SLSTR
+        nadir channel S3","center_wavelength":0.865,"full_width_half_max":0.02},{"name":"SYN20","description":"SLSTR
+        nadir channel S5","center_wavelength":1.61,"full_width_half_max":0.06},{"name":"SYN21","description":"SLSTR
+        nadir channel S6","center_wavelength":2.25,"full_width_half_max":0.05},{"name":"SYN22","description":"SLSTR
+        oblique channel S1","center_wavelength":0.555,"full_width_half_max":0.02},{"name":"SYN23","description":"SLSTR
+        oblique channel S2","center_wavelength":0.659,"full_width_half_max":0.02},{"name":"SYN24","description":"SLSTR
+        oblique channel S3","center_wavelength":0.865,"full_width_half_max":0.02},{"name":"SYN25","description":"SLSTR
+        oblique channel S5","center_wavelength":1.61,"full_width_half_max":0.06},{"name":"SYN26","description":"SLSTR
+        oblique channel S6","center_wavelength":2.25,"full_width_half_max":0.05}],"platform":["Sentinel-3A","Sentinel-3B"],"instruments":["OLCI","SLSTR"],"constellation":["Sentinel-3"],"s3:product_name":["synergy-syn"],"s3:product_type":["SY_2_SYN___"],"sat:orbit_state":["ascending","descending"],"s3:processing_timeliness":["NT"],"sat:platform_international_designator":["2016-011A","2018-039A"]},"description":"This
+        Collection provides the Sentinel-3 [Synergy Level-2 Land Surface Reflectance
+        and Aerosol](https://sentinels.copernicus.eu/web/sentinel/user-guides/sentinel-3-synergy/product-types/level-2-syn)
+        product, which contains data on Surface Directional Reflectance, Aerosol Optical
+        Thickness, and an Angstrom coefficient estimate over land.\n\n## Data Files\n\nIndividual
+        NetCDF files for the following variables:\n\n- Surface Directional Reflectance
+        (SDR) with their associated error estimates for the sun-reflective [SLSTR](https://sentinels.copernicus.eu/web/sentinel/user-guides/sentinel-3-slstr)
+        channels (S1 to S6 for both nadir and oblique views, except S4) and for all
+        [OLCI](https://sentinels.copernicus.eu/web/sentinel/user-guides/sentinel-3-olci)
+        channels, except for the oxygen absorption bands Oa13, Oa14, Oa15, and the
+        water vapor bands Oa19 and Oa20.\n- Aerosol optical thickness at 550nm with
+        error estimates.\n- Angstrom coefficient at 550nm.\n\nMore information about
+        the product and data processing can be found in the [User Guide](https://sentinels.copernicus.eu/web/sentinel/user-guides/sentinel-3-synergy/product-types/level-2-syn)
+        and [Technical Guide](https://sentinel.esa.int/web/sentinel/technical-guides/sentinel-3-synergy/level-2/syn-level-2-product).\n\nThis
+        Collection contains Level-2 data in NetCDF files from September 2018 to present.\n","item_assets":{"time":{"type":"application/x-netcdf","roles":["data"],"description":"Time
+        stamps annotation"},"syn-amin":{"type":"application/x-netcdf","roles":["data"],"description":"L2
+        Aerosol model index number data"},"syn-flags":{"type":"application/x-netcdf","roles":["data"],"description":"Classification
+        and quality Flags associated with OLCI, SLSTR and SYNERGY products"},"syn-ato550":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"S1","description":"Band
+        1 - Cloud screening, vegetation monitoring, aerosol","center_wavelength":0.55427,"full_width_half_max":0.01926},{"name":"S2","description":"Band
+        2 - NDVI, vegetation monitoring, aerosol","center_wavelength":0.65947,"full_width_half_max":0.01925},{"name":"S3","description":"Band
+        3 - NDVI, cloud flagging, pixel co-registration","center_wavelength":0.868,"full_width_half_max":0.0206},{"name":"S5","description":"Band
+        5 - Cloud clearing, ice, snow, vegetation monitoring","center_wavelength":1.6134,"full_width_half_max":0.06068},{"name":"S6","description":"Band
+        6 - Vegetation state and cloud clearing","center_wavelength":2.2557,"full_width_half_max":0.05015},{"name":"Oa01","description":"Band
+        1 - Aerosol correction, improved water constituent retrieval","center_wavelength":0.4,"full_width_half_max":0.015},{"name":"Oa02","description":"Band
+        2 - Yellow substance and detrital pigments (turbidity)","center_wavelength":0.4125,"full_width_half_max":0.01},{"name":"Oa03","description":"Band
+        3 - Chlorophyll absorption maximum, biogeochemistry, vegetation","center_wavelength":0.4425,"full_width_half_max":0.01},{"name":"Oa04","description":"Band
+        4 - Chlorophyll","center_wavelength":0.49,"full_width_half_max":0.01},{"name":"Oa05","description":"Band
+        5 - Chlorophyll, sediment, turbidity, red tide","center_wavelength":0.51,"full_width_half_max":0.01},{"name":"Oa06","description":"Band
+        6 - Chlorophyll reference (minimum)","center_wavelength":0.56,"full_width_half_max":0.01},{"name":"Oa07","description":"Band
+        7 - Sediment loading","center_wavelength":0.62,"full_width_half_max":0.01},{"name":"Oa08","description":"Band
+        8 - 2nd Chlorophyll absorption maximum, sediment, yellow substance / vegetation","center_wavelength":0.665,"full_width_half_max":0.01},{"name":"Oa09","description":"Band
+        9 - Improved fluorescence retrieval","center_wavelength":0.67375,"full_width_half_max":0.0075},{"name":"Oa10","description":"Band
+        10 - Chlorophyll fluorescence peak, red edge","center_wavelength":0.68125,"full_width_half_max":0.0075},{"name":"Oa11","description":"Band
+        11 - Chlorophyll fluorescence baseline, red edge transition","center_wavelength":0.70875,"full_width_half_max":0.01},{"name":"Oa12","description":"Band
+        12 - O2 absorption / clouds, vegetation","center_wavelength":0.75375,"full_width_half_max":0.0075},{"name":"Oa16","description":"Band
+        16 - Atmospheric / aerosol correction","center_wavelength":0.77875,"full_width_half_max":0.015},{"name":"Oa17","description":"Band
+        17 - Atmospheric / aerosol correction, clouds, pixel co-registration","center_wavelength":0.865,"full_width_half_max":0.02},{"name":"Oa18","description":"Band
+        18 - Water vapour absorption reference. Common reference band with SLSTR.
+        Vegetation monitoring","center_wavelength":0.885,"full_width_half_max":0.01},{"name":"Oa21","description":"Band
+        21 - Water vapour absorption, atmospheric / aerosol correction","center_wavelength":1.02,"full_width_half_max":0.04}],"description":"Aerosol
+        Optical Thickness Data Set"},"geolocation":{"type":"application/x-netcdf","roles":["data"],"description":"High
+        resolution georeferencing data"},"safe-manifest":{"type":"application/xml","roles":["metadata"],"description":"SAFE
+        product manifest"},"tiepoints-olci":{"type":"application/x-netcdf","roles":["data"],"description":"Low
+        resolution georeferencing data and Sun and View angles associated with OLCI
+        products"},"tiepoints-meteo":{"type":"application/x-netcdf","roles":["data"],"description":"ECMWF
+        meteorology data"},"tiepoints-slstr-n":{"type":"application/x-netcdf","roles":["data"],"description":"Low
+        resolution georeferencing data and Sun and View angles associated with SLSTR
+        nadir view products"},"tiepoints-slstr-o":{"type":"application/x-netcdf","roles":["data"],"description":"Low
+        resolution georeferencing data and Sun and View angles associated with SLSTR
+        oblique view products"},"syn-angstrom-exp550":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"S1","description":"Band
+        1 - Cloud screening, vegetation monitoring, aerosol","center_wavelength":0.55427,"full_width_half_max":0.01926},{"name":"S2","description":"Band
+        2 - NDVI, vegetation monitoring, aerosol","center_wavelength":0.65947,"full_width_half_max":0.01925},{"name":"S3","description":"Band
+        3 - NDVI, cloud flagging, pixel co-registration","center_wavelength":0.868,"full_width_half_max":0.0206},{"name":"S5","description":"Band
+        5 - Cloud clearing, ice, snow, vegetation monitoring","center_wavelength":1.6134,"full_width_half_max":0.06068},{"name":"S6","description":"Band
+        6 - Vegetation state and cloud clearing","center_wavelength":2.2557,"full_width_half_max":0.05015},{"name":"Oa01","description":"Band
+        1 - Aerosol correction, improved water constituent retrieval","center_wavelength":0.4,"full_width_half_max":0.015},{"name":"Oa02","description":"Band
+        2 - Yellow substance and detrital pigments (turbidity)","center_wavelength":0.4125,"full_width_half_max":0.01},{"name":"Oa03","description":"Band
+        3 - Chlorophyll absorption maximum, biogeochemistry, vegetation","center_wavelength":0.4425,"full_width_half_max":0.01},{"name":"Oa04","description":"Band
+        4 - Chlorophyll","center_wavelength":0.49,"full_width_half_max":0.01},{"name":"Oa05","description":"Band
+        5 - Chlorophyll, sediment, turbidity, red tide","center_wavelength":0.51,"full_width_half_max":0.01},{"name":"Oa06","description":"Band
+        6 - Chlorophyll reference (minimum)","center_wavelength":0.56,"full_width_half_max":0.01},{"name":"Oa07","description":"Band
+        7 - Sediment loading","center_wavelength":0.62,"full_width_half_max":0.01},{"name":"Oa08","description":"Band
+        8 - 2nd Chlorophyll absorption maximum, sediment, yellow substance / vegetation","center_wavelength":0.665,"full_width_half_max":0.01},{"name":"Oa09","description":"Band
+        9 - Improved fluorescence retrieval","center_wavelength":0.67375,"full_width_half_max":0.0075},{"name":"Oa10","description":"Band
+        10 - Chlorophyll fluorescence peak, red edge","center_wavelength":0.68125,"full_width_half_max":0.0075},{"name":"Oa11","description":"Band
+        11 - Chlorophyll fluorescence baseline, red edge transition","center_wavelength":0.70875,"full_width_half_max":0.01},{"name":"Oa12","description":"Band
+        12 - O2 absorption / clouds, vegetation","center_wavelength":0.75375,"full_width_half_max":0.0075},{"name":"Oa16","description":"Band
+        16 - Atmospheric / aerosol correction","center_wavelength":0.77875,"full_width_half_max":0.015},{"name":"Oa17","description":"Band
+        17 - Atmospheric / aerosol correction, clouds, pixel co-registration","center_wavelength":0.865,"full_width_half_max":0.02},{"name":"Oa18","description":"Band
+        18 - Water vapour absorption reference. Common reference band with SLSTR.
+        Vegetation monitoring","center_wavelength":0.885,"full_width_half_max":0.01},{"name":"Oa21","description":"Band
+        21 - Water vapour absorption, atmospheric / aerosol correction","center_wavelength":1.02,"full_width_half_max":0.04}],"description":"Aerosol
+        Angstrom Exponent Data Set"},"syn-s1n-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN17","description":"SLSTR
+        nadir channel S1","center_wavelength":0.555,"full_width_half_max":0.02}],"description":"Surface
+        directional reflectance associated with SLSTR channel 01 acquired in nadir
+        view"},"syn-s1o-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN22","description":"SLSTR
+        oblique channel S1","center_wavelength":0.555,"full_width_half_max":0.02}],"description":"Surface
+        directional reflectance associated with SLSTR channel 01 acquired in oblique
+        view"},"syn-s2n-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN18","description":"SLSTR
+        nadir channel S2","center_wavelength":0.659,"full_width_half_max":0.02}],"description":"Surface
+        directional reflectance associated with SLSTR channel 02 acquired in nadir
+        view"},"syn-s2o-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN23","description":"SLSTR
+        oblique channel S2","center_wavelength":0.659,"full_width_half_max":0.02}],"description":"Surface
+        directional reflectance associated with SLSTR channel 02 acquired in oblique
+        view"},"syn-s3n-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN19","description":"SLSTR
+        nadir channel S3","center_wavelength":0.865,"full_width_half_max":0.02}],"description":"Surface
+        directional reflectance associated with SLSTR channel 03 acquired in nadir
+        view"},"syn-s3o-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN24","description":"SLSTR
+        oblique channel S3","center_wavelength":0.865,"full_width_half_max":0.02}],"description":"Surface
+        directional reflectance associated with SLSTR channel 03 acquired in oblique
+        view"},"syn-s5n-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN20","description":"SLSTR
+        nadir channel S5","center_wavelength":1.61,"full_width_half_max":0.06}],"description":"Surface
+        directional reflectance associated with SLSTR channel 05 acquired in nadir
+        view"},"syn-s5o-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN25","description":"SLSTR
+        oblique channel S5","center_wavelength":1.61,"full_width_half_max":0.06}],"description":"Surface
+        directional reflectance associated with SLSTR channel 05 acquired in oblique
+        view"},"syn-s6n-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN21","description":"SLSTR
+        nadir channel S6","center_wavelength":2.25,"full_width_half_max":0.05}],"description":"Surface
+        directional reflectance associated with SLSTR channel 06 acquired in nadir
+        view"},"syn-s6o-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN26","description":"SLSTR
+        oblique channel S6","center_wavelength":2.25,"full_width_half_max":0.05}],"description":"Surface
+        directional reflectance associated with SLSTR channel 06 acquired in oblique
+        view"},"syn-oa01-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN01","description":"OLCI
+        channel Oa01","center_wavelength":0.4,"full_width_half_max":0.015}],"description":"Surface
+        directional reflectance associated with OLCI channel 01"},"syn-oa02-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN02","description":"OLCI
+        channel Oa02","center_wavelength":0.4125,"full_width_half_max":0.01}],"description":"Surface
+        directional reflectance associated with OLCI channel 02"},"syn-oa03-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN03","description":"OLCI
+        channel Oa03","center_wavelength":0.4425,"full_width_half_max":0.01}],"description":"Surface
+        directional reflectance associated with OLCI channel 03"},"syn-oa04-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN04","description":"OLCI
+        channel Oa04","center_wavelength":0.49,"full_width_half_max":0.01}],"description":"Surface
+        directional reflectance associated with OLCI channel 04"},"syn-oa05-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN05","description":"OLCI
+        channel Oa05","center_wavelength":0.51,"full_width_half_max":0.01}],"description":"Surface
+        directional reflectance associated with OLCI channel 05"},"syn-oa06-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN06","description":"OLCI
+        channel Oa06","center_wavelength":0.56,"full_width_half_max":0.01}],"description":"Surface
+        directional reflectance associated with OLCI channel 06"},"syn-oa07-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN07","description":"OLCI
+        channel Oa07","center_wavelength":0.62,"full_width_half_max":0.01}],"description":"Surface
+        directional reflectance associated with OLCI channel 07"},"syn-oa08-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN08","description":"OLCI
+        channel Oa08","center_wavelength":0.665,"full_width_half_max":0.01}],"description":"Surface
+        directional reflectance associated with OLCI channel 08"},"syn-oa09-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN09","description":"OLCI
+        channel Oa09","center_wavelength":0.67375,"full_width_half_max":0.0075}],"description":"Surface
+        directional reflectance associated with OLCI channel 09"},"syn-oa10-reflectance":{"type":"application/x-netcdf","roles":["data"],"eo:bands":[{"name":"SYN10","description":"OLCI
+        channel Oa10","center_wavelength":0.68125,"full_width_half_max":0.0075}],"description":"Surface
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+        products, which are SPOT VEGETATION Continuity Products similar to those obtained
+        from the [VEGETATION instrument](https://docs.terrascope.be/#/Satellites/SPOT-VGT/MissionInstruments)
+        onboard the SPOT-4 and SPOT-5 satellites. The primary variables are a maximum
+        Normalized Difference Vegetation Index (NDVI) composite, which is derived
+        from daily ground reflecrtance, and four surface reflectance bands:\n\n- B0
+        (Blue, 450nm)\n- B2 (Red, 645nm)\n- B3 (NIR, 835nm)\n- MIR (SWIR, 1665nm)\n\nThe
+        four reflectance bands have center wavelengths matching those on the original
+        SPOT VEGETATION instrument. The NDVI variable, which is an indicator of the
+        amount of vegetation, is derived from the B3 and B2 bands.\n\n## Data files\n\nThe
+        four reflectance bands and NDVI values are each contained in dedicated NetCDF
+        files. Additional metadata are delivered in annotation NetCDF files, each
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+        conditions, the total water vapour and ozone columns, and the aerosol optical
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+      - 20250514T181853Z-r159ff9f48brw5k4hC1YTOfee40000000cxg0000000006uv
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diff --git a/tests/cassettes/test_client/test_get_items_recursion_no_collections_without_ids.yaml b/tests/cassettes/test_client/test_get_items_recursion_no_collections_without_ids.yaml
new file mode 100644
index 00000000..41ab2def
--- /dev/null
+++ b/tests/cassettes/test_client/test_get_items_recursion_no_collections_without_ids.yaml
@@ -0,0 +1,516 @@
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+      User-Agent:
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+    uri: https://paituli.csc.fi/geoserver/ogc/stac/v1/
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+      User-Agent:
+      - python-requests/2.32.3
+    method: GET
+    uri: https://paituli.csc.fi/geoserver/ogc/stac/v1?f=application%2Fjson
+  response:
+    body:
+      string: '{"title":"Paituli STAC","description":"Paituli STAC with Finnish data.
+        More info: https://paituli.csc.fi/stac.html","links":[{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/?f=application%2Fjson","rel":"self","type":"application/json","title":"This
+        document"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/?f=application%2Fx-yaml","rel":"alternate","type":"application/x-yaml","title":"This
+        document as application/x-yaml"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/?f=text%2Fhtml","rel":"alternate","type":"text/html","title":"This
+        document as text/html"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/openapi?f=application%2Fvnd.oai.openapi%2Bjson%3Bversion%3D3.0","rel":"service-desc","type":"application/vnd.oai.openapi+json;version=3.0","title":"API
+        definition for this endpoint as application/vnd.oai.openapi+json;version=3.0"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/openapi?f=application%2Fx-yaml","rel":"service-desc","type":"application/x-yaml","title":"API
+        definition for this endpoint as application/x-yaml"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/openapi?f=text%2Fhtml","rel":"service-doc","type":"text/html","title":"API
+        definition for this endpoint as text/html"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/conformance?f=application%2Fjson","rel":"conformance","type":"application/json","title":"Conformance
+        declaration as application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/conformance?f=application%2Fx-yaml","rel":"conformance","type":"application/x-yaml","title":"Conformance
+        declaration as application/x-yaml"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/conformance?f=text%2Fhtml","rel":"conformance","type":"text/html","title":"Conformance
+        declaration as text/html"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections?f=application%2Fjson","rel":"data","type":"application/json","title":"Collections
+        Metadata as application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections?f=text%2Fhtml","rel":"data","type":"text/html","title":"Collections
+        Metadata as text/html"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/fmi_daily_global_radiation_10km_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_koivukuitu_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/forest_inventory_land_class_at_geocubes","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_latvuspeitto_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/hy_spectre_1_8_modif_area_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/regions_land_at_geocubes","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/fmi_daily_sea_level_pressure_10km_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_koivu_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_bm_manty_latva_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_bm_lehtip_runkokuori_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/sentinel_1_11_days_mosaics_at_fmi","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_dtw_2m_10ha_threshold_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/hy_spectre_1_1_mining_area_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/nls_general_map_1milj_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/fmi_daily_precipitation_predictions_10km_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_kasvupaikka_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/hy_spectre_1_6_footprint_perc_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_forest_snow_damage_risk_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/hy_spectre_1_5_road_density_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/daily_wind_damage_risk_at_fmi","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_ika_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/regional_state_administrative_agencies_land_at_geocubes","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/hy_spectre_2_1_forest_loss_perc_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/sentinel_2_nir_b08_at_geocubes","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/forest_inventory_volume_spruce_at_geocubes","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_koivutukki_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_mantykuitu_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/nls_topographic_map_42k_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/wind_velocity_at_geocubes","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_fra_luokka_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_muulpkuitu_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/hy_spectre_1_13_livestock_mass_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/nls_topographic_map_84k_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/luke_vmi_kuusitukki_at_paituli","rel":"child","type":"application/json"},{"href":"https://paituli.csc.fi/geoserver/ogc/stac/v1/collections/nls_digital_elevation_model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+        32618,\n    \"proj:transform\": [357585.0, 30.0, 0.0, 4423815.0, 0.0, -30.0],\n
+        \   \"proj:geometry\": {\n      \"type\": \"Polygon\",\n      \"coordinates\":
+        [\n        [\n          [357585.0, 4187685.0],\n          [357585.0, 4423815.0],\n
+        \         [589815.0, 4423815.0],\n          [589815.0, 4187685.0],\n          [357585.0,
+        4187685.0]\n        ]\n      ]\n    },\n    \"proj:shape\": [7741, 7871]\n
+        \ },\n  \"assets\": {\n    \"index\": {\n      \"type\": \"text/html\",\n
+        \     \"title\": \"HTML index page\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/index.html\",\n
+        \     \"roles\": []\n    },\n    \"thumbnail\": {\n      \"title\": \"Thumbnail
+        image\",\n      \"type\": \"image/jpeg\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_thumb_large.jpg\",\n
+        \     \"roles\" : [\n        \"thumbnail\"\n      ]\n    },\n    \"B1\": {\n
+        \     \"type\": \"image/tiff\",\n      \"title\": \"Band 1 (coastal)\",\n
+        \     \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B1.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B1\",\n          \"full_width_half_max\" : 0.02,\n          \"center_wavelength\"
+        : 0.44,\n          \"common_name\" : \"coastal\"\n        }\n      ]\n    },\n
+        \   \"B2\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 2
+        (blue)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B2.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B2\",\n          \"full_width_half_max\" : 0.06,\n          \"center_wavelength\"
+        : 0.48,\n          \"common_name\" : \"blue\"\n        }\n      ]\n    },\n
+        \   \"B3\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 3
+        (green)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B3.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B3\",\n          \"full_width_half_max\" : 0.06,\n          \"center_wavelength\"
+        : 0.56,\n          \"common_name\" : \"green\"\n        }\n      ]\n    },\n
+        \   \"B4\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 4
+        (red)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B4.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B4\",\n          \"full_width_half_max\" : 0.04,\n          \"center_wavelength\"
+        : 0.65,\n          \"common_name\" : \"red\"\n        }\n      ]\n    },\n
+        \   \"B5\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 5
+        (nir)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B5.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B5\",\n          \"full_width_half_max\" : 0.03,\n          \"center_wavelength\"
+        : 0.86,\n          \"common_name\" : \"nir\"\n        }\n      ]\n    },\n
+        \   \"B6\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 6
+        (swir16)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B6.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B6\",\n          \"full_width_half_max\" : 0.08,\n          \"center_wavelength\"
+        : 1.6,\n          \"common_name\" : \"swir16\"\n        }\n      ]\n    },\n
+        \   \"B7\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 7
+        (swir22)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B7.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B7\",\n          \"full_width_half_max\" : 0.22,\n          \"center_wavelength\"
+        : 2.2,\n          \"common_name\" : \"swir22\"\n        }\n      ]\n    },\n
+        \   \"B8\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 8
+        (pan)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B8.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B8\",\n          \"full_width_half_max\" : 0.18,\n          \"center_wavelength\"
+        : 0.59,\n          \"common_name\" : \"pan\"\n        }\n      ]\n    },\n
+        \   \"B9\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 9
+        (cirrus)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B9.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B9\",\n          \"full_width_half_max\" : 0.02,\n          \"center_wavelength\"
+        : 1.37,\n          \"common_name\" : \"cirrus\"\n        }\n      ]\n    },\n
+        \   \"B10\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 10
+        (lwir)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B10.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B10\",\n          \"full_width_half_max\" : 0.8,\n          \"center_wavelength\"
+        : 10.9,\n          \"common_name\" : \"lwir11\"\n        }\n      ]\n    },\n
+        \   \"B11\": {\n      \"type\": \"image/tiff\",\n      \"title\": \"Band 11
+        (lwir)\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_B11.TIF\",\n
+        \     \"roles\": [],\n      \"eo:bands\": [\n        {\n          \"name\"
+        : \"B11\",\n          \"full_width_half_max\" : 1,\n          \"center_wavelength\"
+        : 12,\n          \"common_name\" : \"lwir2\"\n        }\n      ]\n    },\n
+        \   \"ANG\": {\n      \"title\": \"Angle coefficients file\",\n      \"type\":
+        \"text/plain\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_ANG.txt\",\n
+        \     \"roles\": []\n    },\n    \"MTL\": {\n      \"title\": \"original metadata
+        file\",\n      \"type\": \"text/plain\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_MTL.txt\",\n
+        \     \"roles\": []\n    },\n    \"BQA\": {\n      \"title\": \"Band quality
+        data\",\n      \"type\": \"image/tiff\",\n      \"href\": \"https://s3-us-west-2.amazonaws.com/landsat-pds/c1/L8/014/033/LC08_L1TP_014033_20180615_20180703_01_T1/LC08_L1TP_014033_20180615_20180703_01_T1_BQA.TIF\",\n
+        \     \"roles\": []\n    }\n  },\n  \"links\": [\n    {\n      \"rel\": \"self\",\n
+        \     \"href\": \"./LC80140332018166LGN00.json\"\n    },\n    {\n      \"rel\":
+        \"parent\",\n      \"href\": \"../collection.json\"\n    },\n    {\n      \"rel\":
+        \"collection\",\n      \"href\": \"../collection.json\"\n    },\n    {\n      \"rel\":
+        \"root\",\n      \"href\": \"../../catalog.json\"\n    }\n  ]\n}\n"
+    headers:
+      Accept-Ranges:
+      - bytes
+      Access-Control-Allow-Origin:
+      - '*'
+      Cache-Control:
+      - max-age=300
+      Connection:
+      - keep-alive
+      Content-Encoding:
+      - gzip
+      Content-Length:
+      - '1382'
+      Content-Security-Policy:
+      - default-src 'none'; style-src 'unsafe-inline'; sandbox
+      Content-Type:
+      - text/plain; charset=utf-8
+      Cross-Origin-Resource-Policy:
+      - cross-origin
+      Date:
+      - Wed, 14 May 2025 18:39:31 GMT
+      ETag:
+      - W/"4aeda1cb7469bd902a948455e21ccb8b8cec0e530c5f287fa31532aeba8a4b4c"
+      Expires:
+      - Wed, 14 May 2025 18:44:31 GMT
+      Source-Age:
+      - '0'
+      Strict-Transport-Security:
+      - max-age=31536000
+      Vary:
+      - Authorization,Accept-Encoding,Origin
+      Via:
+      - 1.1 varnish
+      X-Cache:
+      - MISS
+      X-Cache-Hits:
+      - '0'
+      X-Content-Type-Options:
+      - nosniff
+      X-Fastly-Request-ID:
+      - 86ed8d84854badaf02d792dec66645396c536559
+      X-Frame-Options:
+      - deny
+      X-GitHub-Request-Id:
+      - 2EED:3390FC:9572E:B5E8E:6824E362
+      X-Served-By:
+      - cache-yyz4581-YYZ
+      X-Timer:
+      - S1747247971.353040,VS0,VE151
+      X-XSS-Protection:
+      - 1; mode=block
+    status:
+      code: 200
+      message: OK
+version: 1
diff --git a/tests/test_client.py b/tests/test_client.py
index c1851e26..9cd1ce82 100644
--- a/tests/test_client.py
+++ b/tests/test_client.py
@@ -738,19 +738,58 @@ def test_collections_are_clients() -> None:
 
 
 @pytest.mark.vcr
-def test_get_items_without_ids() -> None:
+def test_get_items_recursion_collections_required_without_ids() -> None:
+    """
+    Make sure recursion using /search works when the server requires collections
+    when searching
+    """
     client = Client.open(
         "https://planetarycomputer.microsoft.com/api/stac/v1/",
     )
     next(client.get_items())
 
 
+@pytest.mark.vcr
+def test_get_items_recursion_no_collections_without_ids() -> None:
+    """
+    Make sure recursion using /search works when the server does not require collections
+    when searching
+    """
+    client = Client.open(
+        "https://paituli.csc.fi/geoserver/ogc/stac/v1/",
+    )
+    next(client.get_items())
+
+
+@pytest.mark.vcr
+def test_get_items_non_recursion() -> None:
+    """Make sure that non-recursive search is used when using /search"""
+    client = Client.open(
+        "https://planetarycomputer.microsoft.com/api/stac/v1/",
+    )
+    with pytest.raises(StopIteration):
+        next(client.get_items(recursive=False))
+
+
 @pytest.mark.vcr
 def test_non_recursion_on_fallback() -> None:
+    """
+    Make sure that non-recursive search using fallback only looks for
+    non-recursive items
+    """
+    path = "https://raw.githubusercontent.com/stac-utils/pystac/v1.9.0/docs/example-catalog/catalog.json"
+    catalog = Client.from_file(path)
+    with pytest.warns(FallbackToPystac), pytest.raises(StopIteration):
+        next(catalog.get_items(recursive=False))
+
+
+@pytest.mark.vcr
+def test_recursion_on_fallback() -> None:
+    """Make sure that recursive search using fallback looks for recursive items"""
     path = "https://raw.githubusercontent.com/stac-utils/pystac/v1.9.0/docs/example-catalog/catalog.json"
     catalog = Client.from_file(path)
     with pytest.warns(FallbackToPystac):
-        [i for i in catalog.get_items()]
+        next(catalog.get_items())
 
 
 @pytest.mark.vcr

From 92ba2c1718671ec86da9f774ba9223b3de993fb8 Mon Sep 17 00:00:00 2001
From: mishaschwartz <4380924+mishaschwartz@users.noreply.github.com>
Date: Wed, 14 May 2025 15:34:53 -0400
Subject: [PATCH 2/9] update Changelog

---
 CHANGELOG.md | 1 +
 1 file changed, 1 insertion(+)

diff --git a/CHANGELOG.md b/CHANGELOG.md
index 1f860329..7a748969 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -11,6 +11,7 @@ and this project adheres to [Semantic Versioning](http://semver.org/spec/v2.0.0.
 
 - Fix usage documentation of `ItemSearch`
 - Fix fields argument to CLI  ([#797](https://github.com/stac-utils/pystac-client/pull/797))
+- Fix recursive search in `Client.get_items` ([#799](https://github.com/stac-utils/pystac-client/pull/799)) 
 
 ## [v0.8.6] - 2025-02-11
 

From 00aff721373ac55ca5216ad2678edfff525b44fb Mon Sep 17 00:00:00 2001
From: mishaschwartz <4380924+mishaschwartz@users.noreply.github.com>
Date: Thu, 15 May 2025 13:44:39 -0400
Subject: [PATCH 3/9] fix mypy checks

---
 pystac_client/client.py | 6 ++++--
 1 file changed, 4 insertions(+), 2 deletions(-)

diff --git a/pystac_client/client.py b/pystac_client/client.py
index 6d86de64..1878e8f6 100644
--- a/pystac_client/client.py
+++ b/pystac_client/client.py
@@ -463,8 +463,10 @@ def get_items(self, *ids: str, recursive: bool = True) -> Iterator["Item_Type"]:
                     yield from search.items()
                     return
                 except APIError:
-                    child_catalogs = [catalog for catalog, _, _ in self.walk()]
-                    search = self.search(ids=ids, collections=[self, *child_catalogs])
+                    child_catalogs = [catalog.id for catalog, _, _ in self.walk()]
+                    search = self.search(
+                        ids=ids, collections=[self.id, *child_catalogs]
+                    )
             else:
                 search = self.search(ids=ids, collections=[self.id])
             yield from search.items()

From 9f9c5f874737b725f0e14ce1bb570d1fadc37aab Mon Sep 17 00:00:00 2001
From: mishaschwartz <4380924+mishaschwartz@users.noreply.github.com>
Date: Thu, 15 May 2025 14:06:29 -0400
Subject: [PATCH 4/9] backwards compatible recursive check for None

Co-authored-by: Julia Signell <jsignell@gmail.com>
---
 pystac_client/client.py | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/pystac_client/client.py b/pystac_client/client.py
index 1878e8f6..83e49d4d 100644
--- a/pystac_client/client.py
+++ b/pystac_client/client.py
@@ -457,7 +457,7 @@ def get_items(self, *ids: str, recursive: bool = True) -> Iterator["Item_Type"]:
                 catalog.
         """
         if self.conforms_to(ConformanceClasses.ITEM_SEARCH):
-            if recursive:
+            if recursive is not False:
                 search = self.search(ids=ids)
                 try:
                     yield from search.items()

From a7fce5be53c47a5338bf064762a1e8579626867c Mon Sep 17 00:00:00 2001
From: mishaschwartz <4380924+mishaschwartz@users.noreply.github.com>
Date: Thu, 15 May 2025 14:39:57 -0400
Subject: [PATCH 5/9] backwards compatible recursive check for None (2)

Co-authored-by: Julia Signell <jsignell@gmail.com>
---
 pystac_client/client.py | 4 +++-
 1 file changed, 3 insertions(+), 1 deletion(-)

diff --git a/pystac_client/client.py b/pystac_client/client.py
index 83e49d4d..efca7aae 100644
--- a/pystac_client/client.py
+++ b/pystac_client/client.py
@@ -472,7 +472,9 @@ def get_items(self, *ids: str, recursive: bool = True) -> Iterator["Item_Type"]:
             yield from search.items()
         else:
             self._warn_about_fallback("ITEM_SEARCH")
-            for item in super().get_items(*ids, recursive=recursive):
+            for item in super().get_items(
+                *ids, recursive=recursive is None or recursive
+            ):
                 call_modifier(self.modifier, item)
                 yield item
 

From 7c9e855f404a0c5dd67240d0106fc2557e05fb67 Mon Sep 17 00:00:00 2001
From: mishaschwartz <4380924+mishaschwartz@users.noreply.github.com>
Date: Thu, 15 May 2025 14:42:30 -0400
Subject: [PATCH 6/9] add comment about backwards compatibility

---
 pystac_client/client.py | 2 ++
 1 file changed, 2 insertions(+)

diff --git a/pystac_client/client.py b/pystac_client/client.py
index efca7aae..0d2d634a 100644
--- a/pystac_client/client.py
+++ b/pystac_client/client.py
@@ -457,6 +457,8 @@ def get_items(self, *ids: str, recursive: bool = True) -> Iterator["Item_Type"]:
                 catalog.
         """
         if self.conforms_to(ConformanceClasses.ITEM_SEARCH):
+            # Previously, recursive=None was treated the same as recursive=True.
+            # This if statement maintains this behaviour for backwards compatibility.
             if recursive is not False:
                 search = self.search(ids=ids)
                 try:

From 967eb791d4847cd639d8d5dbca271a851102f927 Mon Sep 17 00:00:00 2001
From: mishaschwartz <4380924+mishaschwartz@users.noreply.github.com>
Date: Tue, 20 May 2025 14:23:07 -0400
Subject: [PATCH 7/9] do not support planetary computer

---
 pystac_client/client.py                       |     8 -
 ...sion_collections_required_without_ids.yaml | 27574 +---------------
 tests/test_client.py                          |     3 +-
 3 files changed, 259 insertions(+), 27326 deletions(-)

diff --git a/pystac_client/client.py b/pystac_client/client.py
index 0d2d634a..1665baac 100644
--- a/pystac_client/client.py
+++ b/pystac_client/client.py
@@ -461,14 +461,6 @@ def get_items(self, *ids: str, recursive: bool = True) -> Iterator["Item_Type"]:
             # This if statement maintains this behaviour for backwards compatibility.
             if recursive is not False:
                 search = self.search(ids=ids)
-                try:
-                    yield from search.items()
-                    return
-                except APIError:
-                    child_catalogs = [catalog.id for catalog, _, _ in self.walk()]
-                    search = self.search(
-                        ids=ids, collections=[self.id, *child_catalogs]
-                    )
             else:
                 search = self.search(ids=ids, collections=[self.id])
             yield from search.items()
diff --git a/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml b/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml
index c38cbb14..2e151d92 100644
--- a/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml
+++ b/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml
@@ -11,171 +11,38 @@ interactions:
       User-Agent:
       - python-requests/2.32.3
     method: GET
-    uri: https://planetarycomputer.microsoft.com/api/stac/v1/
+    uri: https://earth-search.aws.element84.com/v0
   response:
     body:
-      string: '{"type":"Catalog","id":"microsoft-pc","title":"Microsoft Planetary
-        Computer STAC API","description":"Searchable spatiotemporal metadata describing
-        Earth science datasets hosted by the Microsoft Planetary Computer","stac_version":"1.0.0","conformsTo":["http://www.opengis.net/spec/ogcapi-features-1/1.0/conf/oas30","http://www.opengis.net/spec/ogcapi-features-1/1.0/conf/geojson","https://api.stacspec.org/v1.0.0/item-search#fields","https://api.stacspec.org/v1.0.0-rc.2/item-search#filter","https://api.stacspec.org/v1.0.0/item-search#sort","https://api.stacspec.org/v1.0.0/item-search","http://www.opengis.net/spec/cql2/1.0/conf/basic-cql2","http://www.opengis.net/spec/ogcapi-features-1/1.0/conf/core","https://api.stacspec.org/v1.0.0/collections","https://api.stacspec.org/v1.0.0/ogcapi-features","https://api.stacspec.org/v1.0.0/item-search#query","http://www.opengis.net/spec/ogcapi-features-3/1.0/conf/filter","http://www.opengis.net/spec/cql2/1.0/conf/cql2-json","https://api.stacspec.org/v1.0.0/core","http://www.opengis.net/spec/cql2/1.0/conf/cql2-text"],"links":[{"rel":"self","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/"},{"rel":"root","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/"},{"rel":"data","type":"application/json","href":"https://planetarycomputer.microsoft.com/api/stac/v1/collections"},{"rel":"conformance","type":"application/json","title":"STAC/OGC
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-        Regional Biomass Table","description":"Tree regional biomass table. This table
-        contains biomass estimates computed using equations and methodology that varies
-        by FIA work unit. This table retains valuable information for generating biomass
-        estimates that match earlier published reports. <br><br>* TREE.CN = TREE_REGIONAL_BIOMASS.TRE_CN
-        links a tree regional biomass record to the corresponding unique tree.","msft:item_name":"tree_regional_biomass"},{"name":"Tree
-        Net Growth, Removal, and Mortality Component Table","description":"Tree net
-        growth, removal, and mortality component table. This table stores information
-        used to compute net growth, removals, and mortality estimates for remeasurement
-        trees. Each remeasurement tree has a single record in this table. <br><br>*
-        TREE_GRM_COMPONENT.TRE_CN = TREE.TRE_CN links the records in this table to
-        the corresponding tree record in the TREE table.","msft:item_name":"tree_grm_component"},{"name":"Tree
-        Net Growth, Removal, and Mortality Midpoint Table","description":"Tree net
-        growth, removal, and mortality midpoint table. This table contains information
-        about a remeasured tree at the midpoint of the remeasurement period. It does
-        not contain a record for every tree. Midpoint estimates are computed for trees
-        that experience mortality, removal, or land use diversion or reversion. The
-        information in this table is used to compute net growth, removal, and mortality
-        estimates on remeasurement trees. <br><br>* TREE_GRM_MIDPT.TRE_CN = TREE.TRE_CN
-        links the records in this table to the corresponding tree record in the TREE
-        table.","msft:item_name":"tree_grm_midpt"},{"name":"Tree Net Growth, Removal,
-        and Mortality Begin Table","description":"Tree net growth, removal, and mortality
-        begin table. This table contains information for remeasured trees where values
-        have been calculated for the beginning of the remeasurement period. Only those
-        trees where information was recalculated for time 1 (T1) are included. The
-        information in this table is used to produce net growth, removal and mortality
-        estimates on remeasured trees. <br><br>* TREE_GRM_BEGIN.TRE_CN = TREE.TRE_CN
-        links the records in this table to the corresponding tree record in the TREE
-        table.","msft:item_name":"tree_grm_begin"},{"name":"Tree Net Growth, Removal,
-        and Mortality Estimation Table","description":"Tree net growth, removal, and
-        mortality estimation table. This table contains information used to produce
-        estimates of growth, removals and mortality. <br><br>* PLOT.CN = TREE_GRM_ESTN.PLT_CN
-        links the tree GRM estimation records to the unique plot record. <br><br>*
-        TREE.CN = TREE_GRM_ESTN.TRE_CN links the tree GRM estimation records to the
-        unique tree record.","msft:item_name":"tree_grm_estn"},{"name":"Seedling Table","description":"Seedling
-        table. This table provides a count of the number of live trees of a species
-        found on a microplot that are less than 1 inch in diameter but at least 6
-        inches in length for conifer species or at least 12 inches in length for hardwood
-        species. <br><br>* PLOT.CN = SEEDLING.PLT_CN links the seedling records to
-        the unique plot record. <br><br>* COND.PLT_CN = SEEDLING.PLT_CN and COND.CONDID
-        = SEEDLING.CONDID links the condition record to the seedling record.","msft:item_name":"seedling"},{"name":"Site
-        Tree Table","description":"Site tree table. This table provides information
-        on the site tree(s) collected in order to calculate site index and/or site
-        productivity information for a condition. <br><br>* PLOT.CN = SITETREE.PLT_CN
-        links the site tree records to the unique plot record. <br><br>* SITETREE.PLT_CN
-        = COND.PLT_CN and SITETREE.CONDID = COND.CONDID links the site tree record(s)
-        to the unique condition class record.","msft:item_name":"sitetree"},{"name":"Invasive
-        Subplot Species Table","description":"Invasive subplot species table. This
-        table provides percent cover data of invasive species identified on the subplot.
-        <br><br>* PLOT.CN = INVASIVE_SUBPLOT_SPP.PLT_CN links the invasive subplot
-        species record(s) to the unique plot record. <br><br>* SUBP_COND.PLT_CN =
-        INVASIVE_SUBPLOT_SPP.PLT_CN and SUBP_COND.CONDID = INVASIVE_SUBPLOT_SPP.CONDID
-        and SUBP_COND.SUBP = INVASIVE_SUBPLOT_SPP.SUBP links the invasive subplot
-        species record(s) to the unique subplot condition record. <br><br>* INVASIVE_SUBPLOT_SPP.VEG_SPCD
-        = REF_PLANT_DICTIONARY.SYMBOL links the invasive vegetation subplot NRCS species
-        code to the plant dictionary reference species code.","msft:item_name":"invasive_subplot_spp"},{"name":"Phase
-        2 Vegetation Subplot Species Table","description":"Phase 2 Vegetation subplot
-        species table. This table provides percent cover data of vegetation species
-        identified on the subplot. <br><br>* PLOT.CN = P2VEG_SUBPLOT_SPP.PLT_CN links
-        the vegetation subplot species record(s) to the unique plot record. <br><br>*
-        SUBP_COND.PLT_CN = P2VEG_SUBPLOT_SPP.PLT_CN and SUBP_COND.CONDID = P2VEG_SUBPLOT_SPP.CONDID
-        and SUBP_COND.SUBP = P2VEG_SUBPLOT_SPP.SUBP links the vegetation subplot species
-        record(s) to the unique subplot condition record. <br><br>* P2VEG_SUBPLOT_SPP.VEG_SPCD
-        = REF_PLANT_DICTIONARY.SYMBOL links the P2 vegetation subplot NRCS species
-        code to the plant dictionary reference species code.","msft:item_name":"p2veg_subplot_spp"},{"name":"Phase
-        2 Vegetation Subplot Structure Table","description":"Phase 2 Vegetation subplot
-        structure table. This table provides percent cover by layer by growth habit.
-        <br><br>* PLOT.CN = P2VEG_SUBP_STRUCTURE. PLT_CN links the subplot structure
-        record(s) to the unique plot record. <br><br>* SUBP_COND.PLT_CN = P2VEG_SUBP_STRUCTURE.PLT_CN
-        and SUBP_COND.CONDID = P2VEG_SUBP_STRUCTURE.CONDID and SUBP_COND.SUBP = P2VEG_SUBP_STRUCTURE.SUBP
-        links the vegetation subplot structure record(s) to the unique subplot condition
-        record.","msft:item_name":"p2veg_subp_structure"},{"name":"Down Woody Material
-        Visit Table","description":"Down woody material visit table. This table provides
-        general information on down woody material indicator visit, such as the date
-        of the DWM survey. <br><br>* PLOT.CN = DWM_VISIT.PLT_CN links the down woody
-        material indicator visit record to the unique plot record.","msft:item_name":"dwm_visit"},{"name":"Down
-        Woody Material Coarse Woody Debris Table","description":"Down woody material
-        coarse woody debris table. This table provides information for each piece
-        of coarse woody debris measured along the transects. <br><br>* PLOT.CN = DWM_COARSE_WOODY_DEBRIS.PLT_CN
-        links the down woody material coarse woody debris records to the unique plot
-        record. <br><br>* COND.PLT_CN = DWM_COARSE_WOODY_DEBRIS.PLT_CN and COND.CONDID=
-        DWM_COARSE_WOODY_DEBRIS.CONDID links the coarse woody debris records to the
-        unique condition record.","msft:item_name":"dwm_coarse_woody_debris"},{"name":"Down
-        Woody Material Duff, Litter, Fuel Table","description":"Down woody material
-        duff, litter, fuel table. This table provides information on the duff, litter,
-        fuelbed depths measured at a point on the transects. <br><br>* PLOT.CN = DWM_DUFF_LITTER_FUEL.PLT_CN
-        links the duff, litter, fuelbed records to the unique plot record. <br><br>*
-        COND.PLT_CN = DWM_DUFF_LITTER_FUEL.PLT_CN and COND.CONDID= DWM_DUFF_LITTER_FUEL.CONDID
-        links the duff, litter, fuel records to the unique condition record.","msft:item_name":"dwm_duff_litter_fuel"},{"name":"Down
-        Woody Material Fine Woody Debris Table","description":"Down woody material
-        fine woody debris table. This table provides information on the fine woody
-        debris measured along a segment of the transects. <br><br>* PLOT.CN = DWM_FINE_WOODY_DEBRIS.PLT_CN
-        links the fine woody debris records to the unique plot record. <br><br>* COND.PLT_CN
-        = DWM_FINE_WOODY_DEBRIS.PLT_CN and COND.CONDID= DWM_FINE_WOODY_DEBRIS.CONDID
-        links the fine woody debris records to the unique condition record.","msft:item_name":"dwm_fine_woody_debris"},{"name":"Down
-        Woody Material Microplot Fuel Table","description":"Down woody material microplot
-        fuel table. This table provides information on the fuel loads (shrubs and
-        herbs) measured on the microplot. <br><br>* PLOT.CN = DWM_MICROPLOT_FUEL.PLT_CN
-        links the microplot fuel records to the unique plot record.","msft:item_name":"dwm_microplot_fuel"},{"name":"Down
-        Woody Material Residual Pile Table","description":"Down woody material residual
-        pile table. This table provides information on the wood piles measured on
-        the subplot. <br><br>* PLOT.CN = DWM_RESIDUAL_PILE.PLT_CN links the wood piles
-        records to the unique plot record. <br><br>* COND.PLT_CN = DWM_RESIDUAL_PILE.PLT_CN
-        and COND.CONDID= DWM_RESIDUAL_PILE.CONDID links the wood piles records to
-        the unique condition record.","msft:item_name":"dwm_residual_pile"},{"name":"Down
-        Woody Material Transect Segment Table","description":"Down woody material
-        transect segment table. This table describes the down woody material transect
-        segment lengths by condition class. <br><br>* PLOT.CN = DWM_TRANSECT_SEGMENT.PLT_CN
-        links the down woody material transect length records to the unique plot record.
-        <br><br>* COND.PLT_CN = DWM_TRANSECT_SEGMENT.PLT_CN and COND.CONDID= DWM_TRANSECT_SEGMENT.CONDID
-        links the down woody material transect segment records to the unique condition
-        record.","msft:item_name":"dwm_transect_segment"},{"name":"Condition Down
-        Woody Material Calculation Table","description":"Condition down woody material
-        calculation table. This table contains calculated values and condition-level
-        estimates for down woody attributes by plot number (PLOT), condition class
-        number (CONDID), and evaluation identifier (EVALID). <br><br>* PLOT.CN = COND_DWM_CALC.PLT_CN
-        links the down woody material calculation records to the unique plot record.
-        <br><br>* COND.CN = COND_DWM_CALC.CND_CN links the down woody material calculation
-        records to the unique condition record. <br><br>* POP_STRATUM. CN = COND_DWM_CALC.STRATUM_CN
-        links the down woody material calculation records to the unique population
-        stratum record.","msft:item_name":"cond_dwm_calc"},{"name":"Plot Regeneration
-        Table","description":"Plot regeneration table. This table contains the information
-        for the four subplots describing the amount of animal browse pressure exerted
-        on the regeneration of trees. <br><br>* PLOT.CN = PLOT_REGEN.PLT_CN links
-        the unique plot record to the unique plot regeneration record.","msft:item_name":"plot_regen"},{"name":"Subplot
-        Regeneration Table","description":"Subplot regeneration table. This table
-        provides information on the subplot survey status and the site survey limitations,
-        if any, for the tree regeneration study. <br><br>* PLOT.CN = SUBPLOT_REGEN.PLT_CN
-        links the unique plot record to the subplot regeneration records. <br><br>*
-        SUBPLOT.PLT_CN = SUBPLOT_REGEN.PLT_CN and SUBPLOT.SUBP = SUBPLOT_REGEN.SUBP
-        links the subplot record to the subplot regeneration record.","msft:item_name":"subplot_regen"},{"name":"Seedling
-        Regeneration Table","description":"Seedling regeneration. This table contains
-        provides information on the seedling count by condition, species, source,
-        and length class for the tree regeneration study. <br><br>* PLOT.CN = SEEDLING_REGEN.PLT_CN
-        links the unique plot record to the seedling regeneration records. <br><br>*
-        COND.PLT_CN = SEEDLING_REGEN.PLT_CN and COND.CONDID = SEEDLING_REGEN.CONDID
-        links the regeneration seedling records to the unique condition record.","msft:item_name":"seedling_regen"},{"name":"Population
-        Estimation Unit Table","description":"Population estimation unit table. This
-        table contains information about estimation units. An estimation unit is a
-        geographic area that can be drawn on a map. It has a known area, and the sampling
-        intensity must be the same within a stratum within an estimation unit. Generally,
-        estimation units are contiguous areas, but exceptions are made when certain
-        ownerships, usually National Forests, are sampled at different intensities.
-        One record in the POP_ESTN_UNIT table corresponds to a single estimation unit.
-        POP_ESTN_UNIT.CN = POP_STRATUM.ESTN_UNIT_CN links the unique stratified geographical
-        area (ESTN_UNIT) to the strata (STRATUMCD) that are assigned to each ESTN_UNIT.","msft:item_name":"pop_estn_unit"},{"name":"Population
-        Evaluation Table","description":"Population evaluation table. This table provides
-        information about evaluations. An evaluation is the combination of a set of
-        plots (the sample) and a set of Phase 1 data (obtained through remote sensing,
-        called a stratification) that can be used to produce population estimates
-        for a State (an evaluation may be created to produce population estimates
-        for a region other than a State, such as the Black Hills National Forest).
-        A record in the POP_EVAL table identifies one evaluation and provides some
-        descriptive information about how the evaluation may be used. <br><br>* POP_ESTN_UNIT.EVAL_CN
-        = POP_EVAL.CN links the unique evaluation identifier (EVALID) in the POP_EVAL
-        table to the unique geographical areas (ESTN_UNIT) that are stratified. Within
-        a population evaluation (EVALID) there can be multiple population estimation
-        units, or geographic areas across which there are a number of values being
-        estimated (e.g., estimation of volume across counties for a given State).","msft:item_name":"pop_eval"},{"name":"Population
-        Evaluation Attribute Table","description":"Population evaluation attribute
-        table. This table provides information as to which population estimates can
-        be provided by an evaluation. If an evaluation can produce only 22 of all
-        the population estimates in the REF_POP_ATTRIBUTE table, there will be 22
-        records in the POP_EVAL_ATTRIBUTE table (one per population estimate) for
-        that evaluation. <br><br>* POP_EVAL.CN = POP_EVAL_ATTRIBUTE.EVAL_CN links
-        the unique evaluation identifier to the list of population estimates that
-        can be derived for that evaluation.","msft:item_name":"pop_eval_attribute"},{"name":"Population
-        Evaluation Group Table","description":"Population evaluation group table.
-        This table lists and describes the evaluation groups. One record in the POP_EVAL_GRP
-        table can be linked to all the evaluations that were used in generating estimates
-        for a State inventory report. <br><br>* POP_EVAL_GRP.CN = POP_EVAL_TYP.EVAL_GRP_CN
-        links the evaluation group record to the evaluation type record.","msft:item_name":"pop_eval_grp"},{"name":"Population
-        Evaluation Type Table","description":"Population evaluation type table. This
-        table provides information on the type of evaluations that were used to generate
-        a set of tables for an inventory report. In a typical State inventory report,
-        one evaluation is used to generate an estimate of the total land area; a second
-        evaluation is used to generate current estimates of volume, numbers of trees
-        and biomass; and a third evaluation is used for estimating growth, removals
-        and mortality. <br><br>* POP_EVAL_TYP.EVAL_CN = POP_EVAL.CN links the evaluation
-        type record to the evaluation record. <br><br>* POP_EVAL_TYP.EVAL_GRP_CN =
-        POP_EVAL_GRP.CN links the evaluation type record to the evaluation group record.
-        <br><br>* POP_EVAL_TYP.EVAL_TYP = REF_POP_EVAL_TYP_DESCR.EVAL_TYP links an
-        evaluation type record to an evaluation type description reference record.","msft:item_name":"pop_eval_typ"},{"name":"Population
-        Plot Stratum Assignment Table","description":"Population plot stratum assignment
-        table. This table provides a way to assign stratum information to a plot.
-        Stratum information is assigned to a plot by overlaying the plot''s location
-        on the Phase 1 imagery. Plots are linked to their appropriate stratum for
-        an evaluation via the POP_PLOT_STRATUM_ASSGN table. <br><br>* POP_PLOT_STRATUM_ASSGN.PLT_CN
-        = PLOT.CN links the stratum assigned to the plot record.","msft:item_name":"pop_plot_stratum_assgn"},{"name":"Population
-        Stratum Table","description":"Population stratum table. This table provides
-        information about individual strata. The area within an estimation unit is
-        divided into strata. The area for each stratum can be calculated by determining
-        the proportion of Phase 1 pixels/plots in each stratum and multiplying that
-        proportion by the total area in the estimation unit. Information for a single
-        stratum is stored in a single record of the POP_STRATUM table. <br><br>* POP_STRATUM.CN
-        = POP_PLOT_STRATUM_ASSGN.STRATUM_CN links the defined stratum to each plot.","msft:item_name":"pop_stratum"},{"name":"Plot
-        Geometry Table","description":"Plot geometry table. This table contains geometric
-        attributes associated with the plot location, such as the hydrological unit
-        and roadless codes. <br><br>* PLOTGEOM.CN = PLOT.CN links the unique plot
-        record between the two tables.","msft:item_name":"plotgeom"},{"name":"Plot
-        Snapshot Table","description":"Plot snapshot table. This table combines the
-        information in the PLOT table with information in the PLOT_EVAL_GRP and POP_STRATUM
-        tables to provide a snapshot of the plot records with their associated expansion
-        and adjustment factors. <br><br>* PLOTSNAP.CN = PLOT.CN links the unique plot
-        record between the two tables.","msft:item_name":"plotsnap"}],"msft:container":"cpdata","stac_extensions":["https://stac-extensions.github.io/item-assets/v1.0.0/schema.json","https://stac-extensions.github.io/table/v1.2.0/schema.json"],"msft:storage_account":"cpdataeuwest","msft:short_description":"Status
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-        from the U.S. Forest Service''s Forest Inventory and Analysis (FIA) program","msft:region":"westeurope"}'
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-        1 Radiometrically Terrain Corrected (RTC)\",\"assets\":{\"thumbnail\":{\"href\":\"https://ai4edatasetspublicassets.blob.core.windows.net/assets/pc_thumbnails/sentinel-1-rtc.png\",\"type\":\"image/png\",\"roles\":[\"thumbnail\"],\"title\":\"Sentinel
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-        [Sentinel-1](https://sentinel.esa.int/web/sentinel/missions/sentinel-1) mission
-        is a constellation of two polar-orbiting satellites, operating day and night
-        performing C-band synthetic aperture radar imaging. The Sentinel-1 Radiometrically
-        Terrain Corrected (RTC) data in this collection is a radiometrically terrain
-        corrected product derived from the [Ground Range Detected (GRD) Level-1](https://planetarycomputer.microsoft.com/dataset/sentinel-1-grd)
-        products produced by the European Space Agency. The RTC processing is performed
-        by [Catalyst](https://catalyst.earth/).\\n\\nRadiometric Terrain Correction
-        accounts for terrain variations that affect both the position of a given point
-        on the Earth's surface and the brightness of the radar return, as expressed
-        in radar geometry. Without treatment, the hill-slope modulations of the radiometry
-        threaten to overwhelm weaker thematic land cover-induced backscatter differences.
-        Additionally, comparison of backscatter from multiple satellites, modes, or
-        tracks loses meaning.\\n\\nA Planetary Computer account is required to retrieve
-        SAS tokens to read the RTC data. See the [documentation](http://planetarycomputer.microsoft.com/docs/concepts/sas/#when-an-account-is-needed)
-        for more information.\\n\\n### Methodology\\n\\nThe Sentinel-1 GRD product
-        is converted to calibrated intensity using the conversion algorithm described
-        in the ESA technical note ESA-EOPG-CSCOP-TN-0002, [Radiometric Calibration
-        of S-1 Level-1 Products Generated by the S-1 IPF](https://ai4edatasetspublicassets.blob.core.windows.net/assets/pdfs/sentinel-1/S1-Radiometric-Calibration-V1.0.pdf).
-        The flat earth calibration values for gamma correction (i.e. perpendicular
-        to the radar line of sight) are extracted from the GRD metadata. The calibration
-        coefficients are applied as a two-dimensional correction in range (by sample
-        number) and azimuth (by time). All available polarizations are calibrated
-        and written as separate layers of a single file. The calibrated SAR output
-        is reprojected to nominal map orientation with north at the top and west to
-        the left.\\n\\nThe data is then radiometrically terrain corrected using PlanetDEM
-        as the elevation source. The correction algorithm is nominally based upon
-        D. Small, [\u201CFlattening Gamma: Radiometric Terrain Correction for SAR
-        Imagery\u201D](https://ai4edatasetspublicassets.blob.core.windows.net/assets/pdfs/sentinel-1/2011_Flattening_Gamma.pdf),
-        IEEE Transactions on Geoscience and Remote Sensing, Vol 49, No 8., August
-        2011, pp 3081-3093. For each image scan line, the digital elevation model
-        is interpolated to determine the elevation corresponding to the position associated
-        with the known near slant range distance and arc length for each input pixel.
-        The elevations at the four corners of each pixel are estimated using bilinear
-        resampling. The four elevations are divided into two triangular facets and
-        reprojected onto the plane perpendicular to the radar line of sight to provide
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-        Officials classification(s) for the referenced horizon.  One row in this table
-        is marked as the representative AASHTO classification for the horizon."},{"name":"chconsistence","description":"The
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-        places is shown as GR-LS on one row and GR-LCOS on another row in this table.  The
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-        in yields when grown on the referenced map unit component.  Yields for the
-        map unit as a whole are given in the Mapunit Crop Yield table."},{"name":"codiagfeatures","description":"The
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-        as ochric epipedon or cambic horizon, for the referenced map unit component."},{"name":"coecoclass","description":"The
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-        typically associated with the referenced map unit component.  These may include
-        the official NRCS forestland and rangland ecological sites, as well as those
-        of other classification systems, such as the USFS Habitat Types."},{"name":"coeplants","description":"The
-        Component Existing Plants table lists the plants, either rangeland or forestland
-        plants, that typically occur on the referenced map unit component."},{"name":"coerosionacc","description":"The
-        Component Erosion Accelerated table lists the kinds of accelerated erosion
-        that occur on the referenced map unit component.  One row in this table is
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-        in cubic feet per acre per year (CAMI) of forest overstory tree species that
-        typically occur on the referenced map unit component."},{"name":"coforprodo","description":"The
-        Component Forest Productivity - Other table lists the site index and annual
-        productivity of forest overstory tree species in units other than cubic feet
-        per acre per year for trees that typically occur on the referenced map unit
-        component."},{"name":"cogeomordesc","description":"The Component Geomorphic
-        Description table lists the geomorphic features on which the referenced map
-        unit component typically occurs."},{"name":"cohydriccriteria","description":"The
-        Component Hydric Criteria table lists the hydric soil criteria met for those
-        referenced map unit components that are classified as a \"hydric soil.\""},{"name":"cointerp","description":"The
-        Component Interpretation table lists the predictions of behavior and limiting
-        features for specified uses made for the referenced map unit component."},{"name":"comonth","description":"The
-        Component Month table lists the monthly flooding and ponding characteristics
-        for the referenced map unit component.  This table has one row for each month
-        of the year."},{"name":"component","description":"The Component table lists
-        the map unit components identified in the referenced map unit, and selected
-        properties of each component.  If the Component % is greater than zero (low=65,
-        RV=75, high=90) for a component, that component exists in every delineation
-        of that mapunit.  If the Component % includes zero (low=0, RV=50, high=90),
-        the component may exist in some delineations, but not in others."},{"name":"copm","description":"The
-        Component Parent Material table lists the individual parent material(s) for
-        the referenced map unit component.    In some cases where soils developed
-        in multiple materials in a vertical sequence, that sequence will be noted.  In
-        other cases multiple entries with no vertical sequence noted indicates the
-        soil may have formed in one of the materials listed."},{"name":"copmgrp","description":"The
-        Component Parent Material Group table lists the concatenated string of parent
-        material(s) in which the referenced map unit component formed based on entries
-        in the Component Parent Material table.  For example, a component formed in
-        one parent material, such as loess, or one vertical sequence of parent materials,
-        such as loamy glacial drift over silty residuum weathered from shale, has
-        one row in this table.  A component formed in one parent material in some
-        locations, but another parent material (or sequence of parent materials) in
-        other locations has two rows in this table, one for each parent material (or
-        sequence of parent materials).  One row is identified as the representative
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-        may be used alone or in combination with other plants."},{"name":"corestrictions","description":"The
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-        layer is greater than zero (low=5, RV=8, high=10), the restrictive layer exists
-        in all delineations of the map unit where the component occurs.  If the thickness
-        of the restrictive layer includes zero (low=0, RV=2, high=5), the restrictive
-        layer may exist in some delineations, but not in others.  This table will
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-        map unit component during the month referenced in the Component Month table.  The
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-        generally occur on the surface of the referenced map unit component.  If the
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-        a row in this table, the fragment may exist in some delineations and not in
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-        Surface Morphometry table lists the typical geomorphic position (s) of the
-        referenced map unit component, in three dimension terms.  The geomorphic position(s)
-        listed in this table apply to the geomorphic feature referenced in the Component
-        Geomorphic Description table."},{"name":"cosurfmorphhpp","description":"The
-        Component Two Dimensional Surface Morphometry table lists the geomorphic position(s)
-        of the referenced map unit component, in two dimensional hillslope profile
-        terms.  The geomorphic position(s) listed in this table apply to the geomorphic
-        feature referenced  in the Component Geomorphic Description table."},{"name":"cosurfmorphmr","description":"The
-        Component Microrelief Surface Morphometry table lists microrelief features
-        associated with the referenced geomorphic (microfeature) feature shown in
-        the Component Geomorphic Description table."},{"name":"cosurfmorphss","description":"The
-        Component Slope Shape Surface Morphometry table lists the geomorphic shape(s)
-        of the referenced map unit component, in slope shape terms.  The slope shape
-        terms listed in this table apply to the referenced geomorphic feature shown
-        in the Component Geomorphic Description table."},{"name":"cotaxfmmin","description":"The
-        Component Taxonomic Family Mineralogy table lists the mineralogy characteristics,
-        as defined in Soil Taxonomy, that apply to the referenced map unit component."},{"name":"cotaxmoistcl","description":"The
-        Component Taxonomic Moisture Class table provides clear identification of
-        the intended taxonomic moisture class, as defined in Soil Taxonomy, that apply
-        to the referenced map unit component, even though moisture class is implied
-        at a higher taxonomic level.  The class or classes listed in this table describe
-        the representative situation for the component."},{"name":"cotext","description":"The
-        Component Text table contains notes and narrative descriptions for the referenced
-        map unit component.  In many cases, the table will be empty for a particular
-        component."},{"name":"cotreestomng","description":"The Component Trees To
-        Manage table lists the trees commonly recommended for managing on the referenced
-        map unit component."},{"name":"cotxfmother","description":"The Component Taxonomic
-        Family Other Criteria table lists the other taxonomic characteristics, such
-        as classes of coatings or permanent cracks, as defined in Soil Taxonomy, that
-        apply to the referenced map unit component.  The characteristics listed in
-        this table describe the representative situation for the component."},{"name":"distinterpmd","description":"The
-        Distribution Interp Metadata table records the set of NASIS fuzzy logic interpretations
-        which were generated for the map unit components included in a set of distribution
-        data."},{"name":"distlegendmd","description":"The Distribution Legend Metadata
-        table records information about the legends or soil survey areas selected
-        for inclusion in a set of distributed data.  The presence of a legend in this
-        table does not imply that all of the available data for that legend was included
-        in the set of data that was distributed.  Only certain map units and components
-        for that legend may have been selected.  The record of the criteria used for
-        selecting map units and components may be found in the Distribution Metadata
-        table."},{"name":"distmd","description":"The Distribution Metadata table records
-        information associated with the selection of a set of data for distribution
-        to some entity or information system external to NASIS.  A set of distribution
-        data may include only selected map units from a legend or legends, and only
-        selected components of those map units.  This table records the criteria used
-        for selecting map units and components for inclusion in the set of distributed
-        data.  Other recorded information includes the name of the NASIS user who
-        initiated a distribution request, and the times when that request was made,
-        and when that request was ultimately processed."},{"name":"laoverlap","description":"The
-        Legend Area Overlap table lists the geographic areas that are coincident with
-        the soil survey area identified in the Legend table.  For example, a survey
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-        rainfall (R) factor area, climate (C) factor area, etc."},{"name":"legend","description":"The
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-        referenced legend.  Legend text is optional.  In many cases, this table is
-        empty."},{"name":"mapunit","description":"The Mapunit table identifies the
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-        have been aggregated from the component level to a single value at the map
-        unit level. They have been aggregated by one or more appropriate means in
-        order to express a consolidated value or interpretation for the map unit as
-        a whole."},{"name":"muaoverlap","description":"The Mapunit Area Overlap table
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-        dynamic metadata, which soil interpretations were generated for the corresponding
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-        to meet the needs of most users. The generalization methods include map unit
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-        dataset using the laws of physics. This\nprinciple, called data assimilation,
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-        to allow for the provision of a\ndataset spanning back several decades. Reanalysis
-        does not have the constraint\nof issuing timely forecasts, so there is more
-        time to collect observations, and\nwhen going further back in time, to allow
-        for the ingestion of improved versions\nof the original observations, which
-        all benefit the quality of the reanalysis\nproduct.\n\nThis dataset was converted
-        to Zarr by [Planet OS](https://planetos.com/).\nSee [their documentation](https://github.com/planet-os/notebooks/blob/master/aws/era5-pds.md)\nfor
-        more.\n\n## STAC Metadata\n\nTwo types of data variables are provided: \"forecast\"
-        (`fc`) and \"analysis\" (`an`).\n\n* An **analysis**, of the atmospheric conditions,
-        is a blend of observations\n  with a previous forecast. An analysis can only
-        provide\n  [instantaneous](https://confluence.ecmwf.int/display/CKB/Model+grid+box+and+time+step)\n  parameters
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-        accumulated parameters, mean rates or min/max parameters.\n* A **forecast**
-        starts with an analysis at a specific time (the ''initialization\n  time''),
-        and a model computes the atmospheric conditions for a number of\n  ''forecast
-        steps'', at increasing ''validity times'', into the future. A forecast\n  can
-        provide\n  [instantaneous](https://confluence.ecmwf.int/display/CKB/Model+grid+box+and+time+step)\n  parameters,
-        accumulated parameters, mean rates, and min/max parameters.\n\nEach [STAC](https://stacspec.org/)
-        item in this collection covers a single month\nand the entire globe. There
-        are two STAC items per month, one for each type of data\nvariable (`fc` and
-        `an`). The STAC items include an `ecmwf:kind` properties to\nindicate which
-        kind of variables that STAC item catalogs.\n\n## How to acknowledge, cite
-        and refer to ERA5\n\nAll users of data on the Climate Data Store (CDS) disks
-        (using either the web interface or the CDS API) must provide clear and visible
-        attribution to the Copernicus programme and are asked to cite and reference
-        the dataset provider:\n\nAcknowledge according to the [licence to use Copernicus
-        Products](https://cds.climate.copernicus.eu/api/v2/terms/static/licence-to-use-copernicus-products.pdf).\n\nCite
-        each dataset used as indicated on the relevant CDS entries (see link to \"Citation\"
-        under References on the Overview page of the dataset entry).\n\nThroughout
-        the content of your publication, the dataset used is referred to as Author
-        (YYYY).\n\nThe 3-steps procedure above is illustrated with this example: [Use
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-        Mesquite Woodland and Shrubland","Western Great Plains Shortgrass Prairie","Arkansas
-        Valley Prairie and Woodland","Central Tallgrass Prairie","North-Central Interior
-        Oak Savanna","North-Central Interior Sand and Gravel Tallgrass Prairie","North-Central
-        Oak Barrens","Northern Tallgrass Prairie","Southeastern Great Plains Tallgrass
-        Prairie","Texas Blackland Tallgrass Prairie","Texas-Louisiana Coastal Prairie","Central
-        Appalachian Pine-Oak Rocky Woodland","Southern Appalachian Grass and Shrub
-        Bald","Southern Appalachian Grass and Shrub Bald - Herbaceous Modifier","Southern
-        Appalachian Grass and Shrub Bald - Shrub Modifier","Central Appalachian Alkaline
-        Glade and Woodland","Central Interior Highlands Calcareous Glade and Barrens","Central
-        Interior Highlands Dry Acidic Glade and Barrens","Cumberland Sandstone Glade
-        and Barrens","Great Lakes Alvar","Nashville Basin Limestone Glade","Southern
-        Ridge and Valley / Cumberland Dry Calcareous Forest","Southern Piedmont Glade
-        and Barrens","East Gulf Coastal Plain Black Belt Calcareous Prairie and Woodland
-        - Herbaceous Modifier","East Gulf Coastal Plain Jackson Prairie and Woodland","Eastern
-        Highland Rim Prairie and Barrens - Dry Modifier","Coahuilan Chaparral","Madrean
-        Oriental Chaparral","Mogollon Chaparral","Sonora-Mojave Semi-Desert Chaparral","California
-        Montane Woodland and Chaparral","Great Basin Semi-Desert Chaparral","Florida
-        Dry Prairie","Florida Peninsula Inland Scrub","West Gulf Coastal Plain Catahoula
-        Barrens","West Gulf Coastal Plain Nepheline Syenite Glade","East Gulf Coastal
-        Plain Jackson Plain Dry Flatwoods - Open Understory Modifier","West Gulf Coastal
-        Plain Northern Calcareous Prairie","West Gulf Coastal Plain Southern Calcareous
-        Prairie","Acadian-Appalachian Subalpine Woodland and Heath-Krummholz","Atlantic
-        and Gulf Coastal Plain Interdunal Wetland","Atlantic Coastal Plain Southern
-        Dune and Maritime Grassland","Central and Upper Texas Coast Dune and Coastal
-        Grassland","East Gulf Coastal Plain Dune and Coastal Grassland","Great Lakes
-        Dune","Northern Atlantic Coastal Plain Dune and Swale","Northern Atlantic
-        Coastal Plain Heathland and Grassland","South Texas Dune and Coastal Grassland","South
-        Texas Sand Sheet Grassland","Southwest Florida Dune and Coastal Grassland","North
-        Pacific Coastal Cliff and Bluff","North Pacific Maritime Coastal Sand Dune
-        and Strand","Northern California Coastal Scrub","Mediterranean California
-        Coastal Bluff","Mediterranean California Northern Coastal Dune","Mediterranean
-        California Southern Coastal Dune","Atlantic Coastal Plain Northern Sandy Beach","Atlantic
-        Coastal Plain Sea Island Beach","Atlantic Coastal Plain Southern Beach","Florida
-        Panhandle Beach Vegetation","Louisiana Beach","Northern Atlantic Coastal Plain
-        Sandy Beach","Texas Coastal Bend Beach","Upper Texas Coast Beach","0","Mediterranean
-        California Serpentine Fen","Mediterranean California Subalpine-Montane Fen","North
-        Pacific Bog and Fen","Rocky Mountain Subalpine-Montane Fen","Atlantic Coastal
-        Plain Peatland Pocosin","Southern and Central Appalachian Bog and Fen","Atlantic
-        Coastal Plain Central Fresh-Oligohaline Tidal Marsh","Atlantic Coastal Plain
-        Embayed Region Tidal Freshwater Marsh","Atlantic Coastal Plain Northern Fresh
-        and Oligohaline Tidal Marsh","Florida Big Bend Fresh-Oligohaline Tidal Marsh","Atlantic
-        Coastal Plain Depression Pondshore","Atlantic Coastal Plain Large Natural
-        Lakeshore","Central Florida Herbaceous Pondshore","Central Florida Herbaceous
-        Seep","East Gulf Coastal Plain Savanna and Wet Prairie","East Gulf Coastal
-        Plain Depression Pondshore","Floridian Highlands Freshwater Marsh","Southern
-        Coastal Plain Herbaceous Seepage Bog","Southern Coastal Plain Nonriverine
-        Basin Swamp - Okefenokee Clethra Modifier","Southern Coastal Plain Nonriverine
-        Basin Swamp - Okefenokee Nupea Modifier","Texas-Louisiana Coastal Prairie
-        Slough","Central Interior and Appalachian Shrub-Herbaceous Wetland Systems","Great
-        Lakes Coastal Marsh Systems","0","0","Laurentian-Acadian Shrub-Herbaceous
-        Wetland Systems","0","Eastern Great Plains Wet Meadow, Prairie  and Marsh","Great
-        Lakes Wet-Mesic Lakeplain Prairie","Great Plains Prairie Pothole","Western
-        Great Plains Closed Depression Wetland","Western Great Plains Depressional
-        Wetland Systems","Western Great Plains Open Freshwater Depression Wetland","Cumberland
-        Riverscour","Inter-Mountain Basins Interdunal Swale Wetland","North Pacific
-        Avalanche Chute Shrubland","North Pacific Intertidal Freshwater Wetland","Temperate
-        Pacific Freshwater Emergent Marsh","Temperate Pacific Freshwater Mudflat","Columbia
-        Plateau Vernal Pool","Northern California Claypan Vernal Pool","Northern Rocky
-        Mountain Wooded Vernal Pool","Columbia Plateau Silver Sagebrush Seasonally
-        Flooded Shrub-Steppe","Rocky Mountain Alpine-Montane Wet Meadow","Rocky Mountain
-        Subalpine-Montane Riparian Shrubland","Temperate Pacific Montane Wet Meadow","Willamette
-        Valley Wet Prairie","Chihuahuan-Sonoran Desert Bottomland and Swale Grassland","North
-        American Arid West Emergent Marsh","North American Warm Desert Riparian Mesquite
-        Bosque","Western Great Plains Saline Depression Wetland","Acadian Salt Marsh
-        and Estuary Systems","Atlantic Coastal Plain Central Salt and Brackish Tidal
-        Marsh","Atlantic Coastal Plain Embayed Region Tidal Salt and Brackish Marsh","Atlantic
-        Coastal Plain Indian River Lagoon Tidal Marsh","Atlantic Coastal Plain Northern
-        Tidal Salt Marsh","Florida Big Bend Salt-Brackish Tidal Marsh","Gulf and Atlantic
-        Coastal Plain Tidal Marsh Systems","Mississippi Sound Salt and Brackish Tidal
-        Marsh","Texas Saline Coastal Prairie","Temperate Pacific Tidal Salt and Brackish
-        Marsh","Inter-Mountain Basins Alkaline Closed Depression","Inter-Mountain
-        Basins Greasewood Flat","Inter-Mountain Basins Playa","North American Warm
-        Desert Playa","Apacherian-Chihuahuan Mesquite Upland Scrub","Apacherian-Chihuahuan
-        Semi-Desert Grassland and Steppe","Chihuahuan Creosotebush, Mixed Desert and
-        Thorn Scrub","Chihuahuan Gypsophilous Grassland and Steppe","Chihuahuan Loamy
-        Plains Desert Grassland","Chihuahuan Mixed Desert and Thorn Scrub","Chihuahuan
-        Sandy Plains Semi-Desert Grassland","Chihuahuan Stabilized Coppice Dune and
-        Sand Flat Scrub","Chihuahuan Succulent Desert Scrub","Madrean Juniper Savanna","Mojave
-        Mid-Elevation Mixed Desert Scrub","North American Warm Desert Active and Stabilized
-        Dune","Sonora-Mojave Creosotebush-White Bursage Desert Scrub","Sonoran Mid-Elevation
-        Desert Scrub","Sonoran Paloverde-Mixed Cacti Desert Scrub","Chihuahuan Mixed
-        Salt Desert Scrub","Sonora-Mojave Mixed Salt Desert Scrub","North American
-        Warm Desert Wash","South Texas Lomas","Tamaulipan Calcareous Thornscrub","Tamaulipan
-        Clay Grassland","Tamaulipan Mesquite Upland Scrub","Tamaulipan Mixed Deciduous
-        Thornscrub","Tamaulipan Savanna Grassland","Inter-Mountain Basins Mat Saltbush
-        Shrubland","Inter-Mountain Basins Mixed Salt Desert Scrub","Inter-Mountain
-        Basins Wash","Columbia Plateau Steppe and Grassland","Great Basin Xeric Mixed
-        Sagebrush Shrubland","Inter-Mountain Basins Big Sagebrush Shrubland","Inter-Mountain
-        Basins Big Sagebrush Steppe","Inter-Mountain Basins Montane Sagebrush Steppe","Colorado
-        Plateau Mixed Low Sagebrush Shrubland","Columbia Plateau Low Sagebrush Steppe","Columbia
-        Plateau Scabland Shrubland","Wyoming Basins Dwarf Sagebrush Shrubland and
-        Steppe","Colorado Plateau Blackbrush-Mormon-tea Shrubland","Inter-Mountain
-        Basins Semi-Desert Grassland","Inter-Mountain Basins Semi-Desert Shrub Steppe","Southern
-        Colorado Plateau Sand Shrubland","Acadian-Appalachian Alpine Tundra","Rocky
-        Mountain Alpine Dwarf-Shrubland","Rocky Mountain Alpine Fell-Field","Rocky
-        Mountain Alpine Turf","Mediterranean California Alpine Dry Tundra","Mediterranean
-        California Alpine Fell-Field","North Pacific Dry and Mesic Alpine Dwarf-Shrubland,
-        Fell-field and Meadow","Rocky Mountain Alpine Tundra/Fell-field/Dwarf-shrub
-        Map Unit","Temperate Pacific Intertidal Mudflat","Mediterranean California
-        Eelgrass Bed","North Pacific Maritime Eelgrass Bed","South-Central Interior
-        Large Floodplain - Herbaceous Modifier","East Gulf Coastal Plain Large River
-        Floodplain Forest - Herbaceous Modifier","Temperate Pacific Freshwater Aquatic
-        Bed","Central California Coast Ranges Cliff and Canyon","Mediterranean California
-        Serpentine Barrens","Southern California Coast Ranges Cliff and Canyon","Central
-        Interior Acidic Cliff and Talus","Central Interior Calcareous Cliff and Talus","East
-        Gulf Coastal Plain Dry Chalk Bluff","North-Central Appalachian Acidic Cliff
-        and Talus","North-Central Appalachian Circumneutral Cliff and Talus","Southern
-        Appalachian Montane Cliff","Southern Interior Acid Cliff","Southern Interior
-        Calcareous Cliff","Southern Piedmont Cliff","Southern Appalachian Granitic
-        Dome","Southern Appalachian Rocky Summit","Southern Piedmont Granite Flatrock","Rocky
-        Mountain Cliff, Canyon and Massive Bedrock","Klamath-Siskiyou Cliff and Outcrop","North
-        Pacific Montane Massive Bedrock, Cliff and Talus","North Pacific Serpentine
-        Barren","North Pacific Active Volcanic Rock and Cinder Land","Sierra Nevada
-        Cliff and Canyon","Western Great Plains Badland","Southwestern Great Plains
-        Canyon","Western Great Plains Cliff and Outcrop","North American Warm Desert
-        Badland","North American Warm Desert Bedrock Cliff and Outcrop","North American
-        Warm Desert Pavement","North American Warm Desert Volcanic Rockland","Colorado
-        Plateau Mixed Bedrock Canyon and Tableland","Columbia Plateau Ash and Tuff
-        Badland","Geysers and Hot Springs","Inter-Mountain Basins Active and Stabilized
-        Dune","Inter-Mountain Basins Cliff and Canyon","Inter-Mountain Basins Shale
-        Badland","Inter-Mountain Basins Volcanic Rock and Cinder Land","Rocky Mountain
-        Alpine Bedrock and Scree","Mediterranean California Alpine Bedrock and Scree","North
-        Pacific Alpine and Subalpine Bedrock and Scree","Unconsolidated Shore","Undifferentiated
-        Barren Land","North American Alpine Ice Field","Orchards Vineyards and Other
-        High Structure Agriculture","Cultivated Cropland","Pasture/Hay","Introduced
-        Upland Vegetation - Annual Grassland","Introduced Upland Vegetation - Perennial
-        Grassland and Forbland","Modified/Managed Southern Tall Grassland","Introduced
-        Upland Vegetation - Shrub","Introduced Riparian and Wetland Vegetation","Introduced
-        Upland Vegetation - Treed","0","Disturbed, Non-specific","Recently Logged
-        Areas","Harvested Forest - Grass/Forb Regeneration","Harvested Forest-Shrub
-        Regeneration","Harvested Forest - Northwestern Conifer Regeneration","Recently
-        Burned","Recently burned grassland","Recently burned shrubland","Recently
-        burned forest","Disturbed/Successional - Grass/Forb Regeneration","Disturbed/Successional
-        - Shrub Regeneration","Disturbed/Successional - Recently Chained Pinyon-Juniper","Open
-        Water (Aquaculture)","Open Water (Brackish/Salt)","Open Water (Fresh)","Quarries,
-        Mines, Gravel Pits and Oil Wells","Developed, Open Space","Developed, Low
-        Intensity","Developed, Medium Intensity","Developed, High Intensity"]}]},"description":"The
-        [USGS GAP/LANDFIRE National Terrestrial Ecosystems data](https://www.sciencebase.gov/catalog/item/573cc51be4b0dae0d5e4b0c5),
-        based on the [NatureServe Terrestrial Ecological Systems](https://www.natureserve.org/products/terrestrial-ecological-systems-united-states),
-        are the foundation of the most detailed, consistent map of vegetation available
-        for the United States.  These data facilitate planning and management for
-        biological diversity on a regional and national scale.\n\nThis dataset includes
-        the [land cover](https://www.usgs.gov/core-science-systems/science-analytics-and-synthesis/gap/science/land-cover)
-        component of the GAP/LANDFIRE project.\n\n","item_assets":{"data":{"type":"image/tiff;
-        application=geotiff; profile=cloud-optimized","roles":["data"],"title":"GeoTIFF
-        data","file:values":[{"values":[0],"summary":"0"},{"values":[1],"summary":"South
-        Florida Bayhead Swamp"},{"values":[2],"summary":"South Florida Cypress Dome"},{"values":[3],"summary":"South
-        Florida Dwarf Cypress Savanna"},{"values":[4],"summary":"South Florida Mangrove
-        Swamp"},{"values":[5],"summary":"South Florida Hardwood Hammock"},{"values":[6],"summary":"Southeast
-        Florida Coastal Strand and Maritime Hammock"},{"values":[7],"summary":"Southwest
-        Florida Coastal Strand and Maritime Hammock"},{"values":[8],"summary":"South
-        Florida Pine Rockland"},{"values":[9],"summary":"Atlantic Coastal Plain Fall-line
-        Sandhills Longleaf Pine Woodland - Open Understory"},{"values":[10],"summary":"Atlantic
-        Coastal Plain Fall-line Sandhills Longleaf Pine Woodland - Scrub/Shrub Understory"},{"values":[11],"summary":"Atlantic
-        Coastal Plain Upland Longleaf Pine Woodland"},{"values":[12],"summary":"Atlantic
-        Coastal Plain Xeric River Dune"},{"values":[13],"summary":"East Gulf Coastal
-        Plain Interior Upland Longleaf Pine Woodland - Open Understory Modifier"},{"values":[14],"summary":"East
-        Gulf Coastal Plain Interior Upland Longleaf Pine Woodland - Scrub/Shrub Modifier"},{"values":[15],"summary":"Florida
-        Longleaf Pine Sandhill - Scrub/Shrub Understory Modifier"},{"values":[16],"summary":"Florida
-        Longleaf Pine Sandhill- Open Understory Modifier"},{"values":[17],"summary":"West
-        Gulf Coastal Plain Upland Longleaf Pine Forest and Woodland"},{"values":[18],"summary":"Atlantic
-        Coastal Plain Central Maritime Forest"},{"values":[19],"summary":"Atlantic
-        Coastal Plain Southern Maritime Forest"},{"values":[20],"summary":"Central
-        and South Texas Coastal Fringe Forest and Woodland"},{"values":[21],"summary":"East
-        Gulf Coastal Plain Limestone Forest"},{"values":[22],"summary":"East Gulf
-        Coastal Plain Maritime Forest"},{"values":[23],"summary":"East Gulf Coastal
-        Plain Southern Loess Bluff Forest"},{"values":[24],"summary":"East Gulf Coastal
-        Plain Southern Mesic Slope Forest"},{"values":[25],"summary":"Mississippi
-        Delta Maritime Forest"},{"values":[26],"summary":"Southern Coastal Plain Dry
-        Upland Hardwood Forest"},{"values":[27],"summary":"Southern Coastal Plain
-        Oak Dome and Hammock"},{"values":[28],"summary":"West Gulf Coastal Plain Chenier
-        and Upper Texas Coastal Fringe Forest and Woodland"},{"values":[29],"summary":"West
-        Gulf Coastal Plain Mesic Hardwood Forest"},{"values":[30],"summary":"East-Central
-        Texas Plains Pine Forest and Woodland"},{"values":[31],"summary":"West Gulf
-        Coastal Plain Pine-Hardwood Forest"},{"values":[32],"summary":"West Gulf Coastal
-        Plain Sandhill Oak and Shortleaf Pine Forest and Woodland"},{"values":[33],"summary":"Atlantic
-        Coastal Plain Fall-Line Sandhills Longleaf Pine Woodland - Loblolly Modifier"},{"values":[34],"summary":"Deciduous
-        Plantations"},{"values":[35],"summary":"East Gulf Coastal Plain Interior Upland
-        Longleaf Pine Woodland - Loblolly Modifier"},{"values":[36],"summary":"East
-        Gulf Coastal Plain Interior Upland Longleaf Pine Woodland - Offsite Hardwood
-        Modifier"},{"values":[37],"summary":"East Gulf Coastal Plain Near-Coast Pine
-        Flatwoods - Offsite Hardwood Modifier"},{"values":[38],"summary":"Evergreen
-        Plantation or Managed Pine"},{"values":[39],"summary":"California Central
-        Valley Mixed Oak Savanna"},{"values":[40],"summary":"California Coastal Closed-Cone
-        Conifer Forest and Woodland"},{"values":[41],"summary":"California Coastal
-        Live Oak Woodland and Savanna"},{"values":[42],"summary":"California Lower
-        Montane Blue Oak-Foothill Pine Woodland and Savanna"},{"values":[43],"summary":"Central
-        and Southern California Mixed Evergreen Woodland"},{"values":[44],"summary":"Mediterranean
-        California Lower Montane Black Oak-Conifer Forest and Woodland"},{"values":[45],"summary":"Southern
-        California Oak Woodland and Savanna"},{"values":[46],"summary":"Madrean Encinal"},{"values":[47],"summary":"Madrean
-        Pinyon-Juniper Woodland"},{"values":[48],"summary":"Madrean Pine-Oak Forest
-        and Woodland"},{"values":[49],"summary":"Madrean Upper Montane Conifer-Oak
-        Forest and Woodland"},{"values":[50],"summary":"Edwards Plateau Dry-Mesic
-        Slope Forest and Woodland"},{"values":[51],"summary":"Edwards Plateau Limestone
-        Savanna and Woodland"},{"values":[52],"summary":"Edwards Plateau Mesic Canyon"},{"values":[53],"summary":"Llano
-        Uplift Acidic Forest, Woodland and Glade"},{"values":[54],"summary":"East
-        Cascades Oak-Ponderosa Pine Forest and Woodland"},{"values":[55],"summary":"Mediterranean
-        California Mixed Evergreen Forest"},{"values":[56],"summary":"Mediterranean
-        California Mixed Oak Woodland"},{"values":[57],"summary":"North Pacific Dry
-        Douglas-fir-(Madrone) Forest and Woodland"},{"values":[58],"summary":"North
-        Pacific Oak Woodland"},{"values":[59],"summary":"Edwards Plateau Limestone
-        Shrubland"},{"values":[60],"summary":"Allegheny-Cumberland Dry Oak Forest
-        and Woodland - Hardwood"},{"values":[61],"summary":"Allegheny-Cumberland Dry
-        Oak Forest and Woodland - Pine Modifier"},{"values":[62],"summary":"Central
-        and Southern Appalachian Montane Oak Forest"},{"values":[63],"summary":"Central
-        and Southern Appalachian Northern Hardwood Forest"},{"values":[64],"summary":"Central
-        Appalachian Oak and Pine Forest"},{"values":[65],"summary":"Crosstimbers Oak
-        Forest and Woodland"},{"values":[66],"summary":"East Gulf Coastal Plain Black
-        Belt Calcareous Prairie and Woodland - Woodland Modifier"},{"values":[67],"summary":"East
-        Gulf Coastal Plain Northern Dry Upland Hardwood Forest"},{"values":[68],"summary":"East
-        Gulf Coastal Plain Northern Loess Plain Oak-Hickory Upland - Hardwood Modifier"},{"values":[69],"summary":"East
-        Gulf Coastal Plain Northern Loess Plain Oak-Hickory Upland - Juniper Modifier"},{"values":[70],"summary":"East-Central
-        Texas Plains Post Oak Savanna and Woodland"},{"values":[71],"summary":"Lower
-        Mississippi River Dune Woodland and Forest"},{"values":[72],"summary":"Mississippi
-        River Alluvial Plain Dry-Mesic Loess Slope Forest"},{"values":[73],"summary":"North-Central
-        Interior Dry Oak Forest and Woodland"},{"values":[74],"summary":"North-Central
-        Interior Dry-Mesic Oak Forest and Woodland"},{"values":[75],"summary":"Northeastern
-        Interior Dry Oak Forest - Mixed Modifier"},{"values":[76],"summary":"Northeastern
-        Interior Dry Oak Forest - Virginia/Pitch Pine Modifier"},{"values":[77],"summary":"Northeastern
-        Interior Dry Oak Forest-Hardwood Modifier"},{"values":[78],"summary":"Northeastern
-        Interior Dry-Mesic Oak Forest"},{"values":[79],"summary":"Northern Atlantic
-        Coastal Plain Dry Hardwood Forest"},{"values":[80],"summary":"Crowley''s Ridge
-        Sand Forest"},{"values":[81],"summary":"Ouachita Montane Oak Forest"},{"values":[82],"summary":"Ozark-Ouachita
-        Dry Oak Woodland"},{"values":[83],"summary":"Ozark-Ouachita Dry-Mesic Oak
-        Forest"},{"values":[84],"summary":"Southern and Central Appalachian Oak Forest"},{"values":[85],"summary":"Southern
-        and Central Appalachian Oak Forest - Xeric"},{"values":[86],"summary":"Southern
-        Interior Low Plateau Dry-Mesic Oak Forest"},{"values":[87],"summary":"Southern
-        Ridge and Valley Dry Calcareous Forest"},{"values":[88],"summary":"Southern
-        Ridge and Valley Dry Calcareous Forest - Pine modifier"},{"values":[89],"summary":"East
-        Gulf Coastal Plain Northern Dry Upland Hardwood Forest - Offsite Pine Modifier"},{"values":[90],"summary":"Managed
-        Tree Plantation"},{"values":[91],"summary":"Ruderal forest"},{"values":[92],"summary":"Southern
-        Piedmont Dry Oak-(Pine) Forest - Loblolly Pine Modifier"},{"values":[93],"summary":"Acadian
-        Low-Elevation Spruce-Fir-Hardwood Forest"},{"values":[94],"summary":"Acadian-Appalachian
-        Montane Spruce-Fir Forest"},{"values":[95],"summary":"Appalachian Hemlock-Hardwood
-        Forest"},{"values":[96],"summary":"Central and Southern Appalachian Spruce-Fir
-        Forest"},{"values":[97],"summary":"0"},{"values":[98],"summary":"Laurentian-Acadian
-        Northern Hardwoods Forest"},{"values":[99],"summary":"Laurentian-Acadian Northern
-        Pine-(Oak) Forest"},{"values":[100],"summary":"Laurentian-Acadian Pine-Hemlock-Hardwood
-        Forest"},{"values":[101],"summary":"Paleozoic Plateau Bluff and Talus"},{"values":[102],"summary":"Southern
-        Appalachian Northern Hardwood Forest"},{"values":[103],"summary":"Atlantic
-        Coastal Plain Dry and Dry-Mesic Oak Forest"},{"values":[104],"summary":"Atlantic
-        Coastal Plain Fall-line Sandhills Longleaf Pine Woodland - Offsite Hardwood"},{"values":[105],"summary":"East
-        Gulf Coastal Plain Interior Shortleaf Pine-Oak Forest - Hardwood Modifier"},{"values":[106],"summary":"East
-        Gulf Coastal Plain Interior Shortleaf Pine-Oak Forest - Mixed Modifier"},{"values":[107],"summary":"Ozark-Ouachita
-        Shortleaf Pine-Bluestem Woodland"},{"values":[108],"summary":"Ozark-Ouachita
-        Shortleaf Pine-Oak Forest and Woodland"},{"values":[109],"summary":"Southeastern
-        Interior Longleaf Pine Woodland"},{"values":[110],"summary":"Southern Appalachian
-        Low Mountain Pine Forest"},{"values":[111],"summary":"Southern Piedmont Dry
-        Oak-(Pine) Forest"},{"values":[112],"summary":"Southern Piedmont Dry Oak-(Pine)
-        Forest - Hardwood Modifier"},{"values":[113],"summary":"Southern Piedmont
-        Dry Oak-(Pine) Forest - Mixed Modifier"},{"values":[114],"summary":"Southern
-        Piedmont Dry Oak-Heath Forest - Mixed Modifier"},{"values":[115],"summary":"Eastern
-        Great Plains Tallgrass Aspen Parkland"},{"values":[116],"summary":"Northwestern
-        Great Plains Aspen Forest and Parkland"},{"values":[117],"summary":"Northwestern
-        Great Plains Shrubland"},{"values":[118],"summary":"Western Great Plains Dry
-        Bur Oak Forest and Woodland"},{"values":[119],"summary":"Western Great Plains
-        Wooded Draw and Ravine"},{"values":[120],"summary":"Southern Atlantic Coastal
-        Plain Mesic Hardwood Forest"},{"values":[121],"summary":"East Gulf Coastal
-        Plain Northern Loess Bluff Forest"},{"values":[122],"summary":"East Gulf Coastal
-        Plain Northern Mesic Hardwood Forest"},{"values":[123],"summary":"North-Central
-        Interior Beech-Maple Forest"},{"values":[124],"summary":"North-Central Interior
-        Maple-Basswood Forest"},{"values":[125],"summary":"Ozark-Ouachita Mesic Hardwood
-        Forest"},{"values":[126],"summary":"South-Central Interior Mesophytic Forest"},{"values":[127],"summary":"Southern
-        and Central Appalachian Cove Forest"},{"values":[128],"summary":"Crowley''s
-        Ridge Mesic Loess Slope Forest"},{"values":[129],"summary":"Southern Piedmont
-        Mesic Forest"},{"values":[130],"summary":"Appalachian Shale Barrens"},{"values":[131],"summary":"Atlantic
-        Coastal Plain Northern Maritime Forest"},{"values":[132],"summary":"Laurentian
-        Pine-Oak Barrens"},{"values":[133],"summary":"Northeastern Interior Pine Barrens"},{"values":[134],"summary":"Northern
-        Atlantic Coastal Plain Pitch Pine Barrens"},{"values":[135],"summary":"Southern
-        Appalachian Montane Pine Forest and Woodland"},{"values":[136],"summary":"East
-        Cascades Mesic Montane Mixed-Conifer Forest and Woodland"},{"values":[137],"summary":"Middle
-        Rocky Mountain Montane Douglas-fir Forest and Woodland"},{"values":[138],"summary":"Northern
-        Rocky Mountain Dry-Mesic Montane Mixed Conifer Forest"},{"values":[139],"summary":"Northern
-        Rocky Mountain Foothill Conifer Wooded Steppe"},{"values":[140],"summary":"Northern
-        Rocky Mountain Mesic Montane Mixed Conifer Forest"},{"values":[141],"summary":"Northern
-        Rocky Mountain Ponderosa Pine Woodland and Savanna"},{"values":[142],"summary":"Northern
-        Rocky Mountain Western Larch Savanna"},{"values":[143],"summary":"Northwestern
-        Great Plains - Black Hills Ponderosa Pine Woodland and Savanna"},{"values":[144],"summary":"Rocky
-        Mountain Foothill Limber Pine-Juniper Woodland"},{"values":[145],"summary":"Inter-Mountain
-        Basins Aspen-Mixed Conifer Forest and Woodland"},{"values":[146],"summary":"Inter-Mountain
-        Basins Subalpine Limber-Bristlecone Pine Woodland"},{"values":[147],"summary":"Northern
-        Rocky Mountain Subalpine Woodland and Parkland"},{"values":[148],"summary":"Rocky
-        Mountain Aspen Forest and Woodland"},{"values":[149],"summary":"Rocky Mountain
-        Lodgepole Pine Forest"},{"values":[150],"summary":"Rocky Mountain Poor-Site
-        Lodgepole Pine Forest"},{"values":[151],"summary":"Rocky Mountain Subalpine
-        Dry-Mesic Spruce-Fir Forest and Woodland"},{"values":[152],"summary":"Rocky
-        Mountain Subalpine Mesic Spruce-Fir Forest and Woodland"},{"values":[153],"summary":"Rocky
-        Mountain Subalpine-Montane Limber-Bristlecone Pine Woodland"},{"values":[154],"summary":"Rocky
-        Mountain Bigtooth Maple Ravine Woodland"},{"values":[155],"summary":"Southern
-        Rocky Mountain Dry-Mesic Montane Mixed Conifer Forest and Woodland"},{"values":[156],"summary":"Southern
-        Rocky Mountain Mesic Montane Mixed Conifer Forest and Woodland"},{"values":[157],"summary":"Southern
-        Rocky Mountain Ponderosa Pine Savanna"},{"values":[158],"summary":"Southern
-        Rocky Mountain Ponderosa Pine Woodland"},{"values":[159],"summary":"California
-        Montane Jeffrey Pine-(Ponderosa Pine) Woodland"},{"values":[160],"summary":"Klamath-Siskiyou
-        Lower Montane Serpentine Mixed Conifer Woodland"},{"values":[161],"summary":"Klamath-Siskiyou
-        Upper Montane Serpentine Mixed Conifer Woodland"},{"values":[162],"summary":"Mediterranean
-        California Dry-Mesic Mixed Conifer Forest and Woodland"},{"values":[163],"summary":"Mediterranean
-        California Mesic Mixed Conifer Forest and Woodland"},{"values":[164],"summary":"Sierran-Intermontane
-        Desert Western White Pine-White Fir Woodland"},{"values":[165],"summary":"California
-        Coastal Redwood Forest"},{"values":[166],"summary":"North Pacific Broadleaf
-        Landslide Forest and Shrubland"},{"values":[167],"summary":"North Pacific
-        Dry-Mesic Silver Fir-Western Hemlock-Douglas-fir Forest"},{"values":[168],"summary":"North
-        Pacific Hypermaritime Sitka Spruce Forest"},{"values":[169],"summary":"North
-        Pacific Hypermaritime Western Red-cedar-Western Hemlock Forest"},{"values":[170],"summary":"North
-        Pacific Lowland Mixed Hardwood-Conifer Forest and Woodland"},{"values":[171],"summary":"North
-        Pacific Maritime Dry-Mesic Douglas-fir-Western Hemlock Forest"},{"values":[172],"summary":"North
-        Pacific Maritime Mesic-Wet Douglas-fir-Western Hemlock Forest"},{"values":[173],"summary":"North
-        Pacific Mesic Western Hemlock-Silver Fir Forest"},{"values":[174],"summary":"North
-        Pacific Wooded Volcanic Flowage"},{"values":[175],"summary":"Mediterranean
-        California Red Fir Forest"},{"values":[176],"summary":"Mediterranean California
-        Subalpine Woodland"},{"values":[177],"summary":"North Pacific Maritime Mesic
-        Subalpine Parkland"},{"values":[178],"summary":"North Pacific Mountain Hemlock
-        Forest"},{"values":[179],"summary":"Northern California Mesic Subalpine Woodland"},{"values":[180],"summary":"Northern
-        Pacific Mesic Subalpine Woodland"},{"values":[181],"summary":"Sierra Nevada
-        Subalpine Lodgepole Pine Forest and Woodland"},{"values":[182],"summary":"Columbia
-        Plateau Western Juniper Woodland and Savanna"},{"values":[183],"summary":"Great
-        Basin Pinyon-Juniper Woodland"},{"values":[184],"summary":"Inter-Mountain
-        Basins Curl-leaf Mountain Mahogany Woodland and Shrubland"},{"values":[185],"summary":"Inter-Mountain
-        Basins Juniper Savanna"},{"values":[186],"summary":"Colorado Plateau Pinyon-Juniper
-        Shrubland"},{"values":[187],"summary":"Colorado Plateau Pinyon-Juniper Woodland"},{"values":[188],"summary":"Southern
-        Rocky Mountain Juniper Woodland and Savanna"},{"values":[189],"summary":"Southern
-        Rocky Mountain Pinyon-Juniper Woodland"},{"values":[190],"summary":"Northwestern
-        Great Plains Floodplain"},{"values":[191],"summary":"Northwestern Great Plains
-        Riparian"},{"values":[192],"summary":"Western Great Plains Floodplain"},{"values":[193],"summary":"Western
-        Great Plains Floodplain Systems"},{"values":[194],"summary":"Western Great
-        Plains Riparian Woodland and Shrubland"},{"values":[195],"summary":"Central
-        Appalachian Floodplain - Forest Modifier"},{"values":[196],"summary":"Central
-        Appalachian Riparian - Forest Modifier"},{"values":[197],"summary":"Central
-        Interior and Appalachian Floodplain Systems"},{"values":[198],"summary":"Central
-        Interior and Appalachian Riparian Systems"},{"values":[199],"summary":"Laurentian-Acadian
-        Floodplain Systems"},{"values":[200],"summary":"Ozark-Ouachita Riparian"},{"values":[201],"summary":"South-Central
-        Interior Large Floodplain"},{"values":[202],"summary":"South-Central Interior
-        Large Floodplain - Forest Modifier"},{"values":[203],"summary":"South-Central
-        Interior Small Stream and Riparian"},{"values":[204],"summary":"North-Central
-        Interior and Appalachian Rich Swamp"},{"values":[205],"summary":"0"},{"values":[206],"summary":"0"},{"values":[207],"summary":"Laurentian-Acadian
-        Swamp Systems"},{"values":[208],"summary":"North-Central Interior Wet Flatwoods"},{"values":[209],"summary":"0"},{"values":[210],"summary":"South-Central
-        Interior / Upper Coastal Plain Wet Flatwoods"},{"values":[211],"summary":"0"},{"values":[212],"summary":"Southern
-        Piedmont/Ridge and Valley Upland Depression Swamp"},{"values":[213],"summary":"Atlantic
-        Coastal Plain Blackwater Stream Floodplain Forest - Forest Modifier"},{"values":[214],"summary":"Atlantic
-        Coastal Plain Brownwater Stream Floodplain Forest"},{"values":[215],"summary":"Atlantic
-        Coastal Plain Northern Tidal Wooded Swamp"},{"values":[216],"summary":"Atlantic
-        Coastal Plain Small Blackwater River Floodplain Forest"},{"values":[217],"summary":"Atlantic
-        Coastal Plain Small Brownwater River Floodplain Forest"},{"values":[218],"summary":"Atlantic
-        Coastal Plain Southern Tidal Wooded Swamp"},{"values":[219],"summary":"East
-        Gulf Coastal Plain Large River Floodplain Forest - Forest Modifier"},{"values":[220],"summary":"East
-        Gulf Coastal Plain Small Stream and River Floodplain Forest"},{"values":[221],"summary":"East
-        Gulf Coastal Plain Tidal Wooded Swamp"},{"values":[222],"summary":"0"},{"values":[223],"summary":"Southeastern
-        Great Plains Riparian Forest"},{"values":[224],"summary":"Southeastern Great
-        Plains Floodplain Forest"},{"values":[225],"summary":"Mississippi River Bottomland
-        Depression"},{"values":[226],"summary":"Mississippi River Floodplain and Riparian
-        Forest"},{"values":[227],"summary":"Mississippi River Low Floodplain (Bottomland)
-        Forest"},{"values":[228],"summary":"Mississippi River Riparian Forest"},{"values":[229],"summary":"Red
-        River Large Floodplain Forest"},{"values":[230],"summary":"Southern Coastal
-        Plain Blackwater River Floodplain Forest"},{"values":[231],"summary":"Southern
-        Piedmont Large Floodplain Forest - Forest Modifier"},{"values":[232],"summary":"Southern
-        Piedmont Small Floodplain and Riparian Forest"},{"values":[233],"summary":"West
-        Gulf Coastal Plain Large River Floodplain Forest"},{"values":[234],"summary":"West
-        Gulf Coastal Plain Near-Coast Large River Swamp"},{"values":[235],"summary":"West
-        Gulf Coastal Plain Small Stream and River Forest"},{"values":[236],"summary":"Atlantic
-        Coastal Plain Streamhead Seepage Swamp -  Pocosin -  and Baygall"},{"values":[237],"summary":"Gulf
-        and Atlantic Coastal Plain Swamp Systems"},{"values":[238],"summary":"Southern
-        Coastal Plain Hydric Hammock"},{"values":[239],"summary":"Southern Coastal
-        Plain Seepage Swamp and Baygall"},{"values":[240],"summary":"West Gulf Coastal
-        Plain Seepage Swamp and Baygall"},{"values":[241],"summary":"Atlantic Coastal
-        Plain Nonriverine Swamp and Wet Hardwood Forest  - Taxodium/Nyssa Modifier"},{"values":[242],"summary":"Atlantic
-        Coastal Plain Nonriverine Swamp and Wet Hardwood Forest - Oak Dominated Modifier"},{"values":[243],"summary":"East
-        Gulf Coastal Plain Southern Loblolly-Hardwood Flatwoods"},{"values":[244],"summary":"Lower
-        Mississippi River Bottomland Depressions - Forest Modifier"},{"values":[245],"summary":"Lower
-        Mississippi River Flatwoods"},{"values":[246],"summary":"Northern Atlantic
-        Coastal Plain Basin Swamp and Wet Hardwood Forest"},{"values":[247],"summary":"Southern
-        Coastal Plain Nonriverine Basin Swamp"},{"values":[248],"summary":"Southern
-        Coastal Plain Nonriverine Basin Swamp - Okefenokee Bay/Gum Modifier"},{"values":[249],"summary":"Southern
-        Coastal Plain Nonriverine Basin Swamp - Okefenokee Pine Modifier"},{"values":[250],"summary":"Southern
-        Coastal Plain Nonriverine Basin Swamp - Okefenokee Taxodium Modifier"},{"values":[251],"summary":"West
-        Gulf Coastal Plain Nonriverine Wet Hardwood Flatwoods"},{"values":[252],"summary":"West
-        Gulf Coastal Plain Pine-Hardwood Flatwoods"},{"values":[253],"summary":"Edwards
-        Plateau Riparian"},{"values":[254],"summary":"Atlantic Coastal Plain Clay-Based
-        Carolina Bay Forested Wetland"},{"values":[255],"summary":"Atlantic Coastal
-        Plain Clay-Based Carolina Bay Herbaceous Wetland"},{"values":[256],"summary":"Atlantic
-        Coastal Plain Southern Wet Pine Savanna and Flatwoods"},{"values":[257],"summary":"Central
-        Atlantic Coastal Plain Wet Longleaf Pine Savanna and Flatwoods"},{"values":[258],"summary":"Central
-        Florida Pine Flatwoods"},{"values":[259],"summary":"East Gulf Coastal Plain
-        Near-Coast Pine Flatwoods"},{"values":[260],"summary":"East Gulf Coastal Plain
-        Near-Coast Pine Flatwoods - Open Understory Modifier"},{"values":[261],"summary":"East
-        Gulf Coastal Plain Near-Coast Pine Flatwoods - Scrub/Shrub Understory Modifier"},{"values":[262],"summary":"South
-        Florida Pine Flatwoods"},{"values":[263],"summary":"Southern Coastal Plain
-        Nonriverine Cypress Dome"},{"values":[264],"summary":"West Gulf Coastal Plain
-        Wet Longleaf Pine Savanna and Flatwoods"},{"values":[265],"summary":"Columbia
-        Basin Foothill Riparian Woodland and Shrubland"},{"values":[266],"summary":"Great
-        Basin Foothill and Lower Montane Riparian Woodland and Shrubland"},{"values":[267],"summary":"0"},{"values":[268],"summary":"Northern
-        Rocky Mountain Conifer Swamp"},{"values":[269],"summary":"Northern Rocky Mountain
-        Lower Montane Riparian Woodland and Shrubland"},{"values":[270],"summary":"Rocky
-        Mountain Lower Montane Riparian Woodland and Shrubland"},{"values":[271],"summary":"Rocky
-        Mountain Montane Riparian Systems"},{"values":[272],"summary":"Rocky Mountain
-        Subalpine-Montane Riparian Woodland"},{"values":[273],"summary":"North Pacific
-        Hardwood-Conifer Swamp"},{"values":[274],"summary":"North Pacific Lowland
-        Riparian Forest and Shrubland"},{"values":[275],"summary":"North Pacific Montane
-        Riparian Woodland and Shrubland"},{"values":[276],"summary":"North Pacific
-        Shrub Swamp"},{"values":[277],"summary":"California Central Valley Riparian
-        Woodland and Shrubland"},{"values":[278],"summary":"Mediterranean California
-        Foothill and Lower Montane Riparian Woodland"},{"values":[279],"summary":"Mediterranean
-        California Serpentine Foothill and Lower Montane Riparian Woodland and Seep"},{"values":[280],"summary":"North
-        American Warm Desert Lower Montane Riparian Woodland and Shrubland"},{"values":[281],"summary":"North
-        American Warm Desert Riparian Systems"},{"values":[282],"summary":"North American
-        Warm Desert Riparian Woodland and Shrubland"},{"values":[283],"summary":"Tamaulipan
-        Floodplain"},{"values":[284],"summary":"Tamaulipan Riparian Systems"},{"values":[285],"summary":"Boreal
-        Aspen-Birch Forest"},{"values":[286],"summary":"Boreal Jack Pine-Black Spruce
-        Forest"},{"values":[287],"summary":"Boreal White Spruce-Fir-Hardwood Forest"},{"values":[288],"summary":"Boreal-Laurentian
-        Conifer Acidic Swamp and Treed Poor Fen"},{"values":[289],"summary":"Eastern
-        Boreal Floodplain"},{"values":[290],"summary":"South Florida Shell Hash Beach"},{"values":[291],"summary":"Southeast
-        Florida Beach"},{"values":[292],"summary":"Southwest Florida Beach"},{"values":[293],"summary":"South
-        Florida Everglades Sawgrass Marsh"},{"values":[294],"summary":"South Florida
-        Freshwater Slough and Gator Hole"},{"values":[295],"summary":"South Florida
-        Wet Marl Prairie"},{"values":[296],"summary":"California Maritime Chaparral"},{"values":[297],"summary":"California
-        Mesic Chaparral"},{"values":[298],"summary":"California Xeric Serpentine Chaparral"},{"values":[299],"summary":"Klamath-Siskiyou
-        Xeromorphic Serpentine Savanna and Chaparral"},{"values":[300],"summary":"Mediterranean
-        California Mesic Serpentine Woodland and Chaparral"},{"values":[301],"summary":"Northern
-        and Central California Dry-Mesic Chaparral"},{"values":[302],"summary":"Southern
-        California Dry-Mesic Chaparral"},{"values":[303],"summary":"Southern California
-        Coastal Scrub"},{"values":[304],"summary":"California Central Valley and Southern
-        Coastal Grassland"},{"values":[305],"summary":"California Mesic Serpentine
-        Grassland"},{"values":[306],"summary":"Columbia Basin Foothill and Canyon
-        Dry Grassland"},{"values":[307],"summary":"Columbia Basin Palouse Prairie"},{"values":[308],"summary":"North
-        Pacific Alpine and Subalpine Dry Grassland"},{"values":[309],"summary":"North
-        Pacific Montane Grassland"},{"values":[310],"summary":"North Pacific Montane
-        Shrubland"},{"values":[311],"summary":"Northern Rocky Mountain Lower Montane,
-        Foothill and Valley Grassland"},{"values":[312],"summary":"Northern Rocky
-        Mountain Montane-Foothill Deciduous Shrubland"},{"values":[313],"summary":"Northern
-        Rocky Mountain Subalpine Deciduous Shrubland"},{"values":[314],"summary":"Northern
-        Rocky Mountain Subalpine-Upper Montane Grassland"},{"values":[315],"summary":"Southern
-        Rocky Mountain Montane-Subalpine Grassland"},{"values":[316],"summary":"Rocky
-        Mountain Gambel Oak-Mixed Montane Shrubland"},{"values":[317],"summary":"Rocky
-        Mountain Lower Montane-Foothill Shrubland"},{"values":[318],"summary":"California
-        Northern Coastal Grassland"},{"values":[319],"summary":"North Pacific Herbaceous
-        Bald and Bluff"},{"values":[320],"summary":"North Pacific Hypermaritime Shrub
-        and Herbaceous Headland"},{"values":[321],"summary":"Willamette Valley Upland
-        Prairie and Savanna"},{"values":[322],"summary":"Mediterranean California
-        Subalpine Meadow"},{"values":[323],"summary":"Rocky Mountain Subalpine-Montane
-        Mesic Meadow"},{"values":[324],"summary":"Central Mixedgrass Prairie"},{"values":[325],"summary":"Northwestern
-        Great Plains Mixedgrass Prairie"},{"values":[326],"summary":"Western Great
-        Plains Foothill and Piedmont Grassland"},{"values":[327],"summary":"Western
-        Great Plains Tallgrass Prairie"},{"values":[328],"summary":"Western Great
-        Plains Sand Prairie"},{"values":[329],"summary":"Western Great Plains Sandhill
-        Steppe"},{"values":[330],"summary":"Western Great Plains Mesquite Woodland
-        and Shrubland"},{"values":[331],"summary":"Western Great Plains Shortgrass
-        Prairie"},{"values":[332],"summary":"Arkansas Valley Prairie and Woodland"},{"values":[333],"summary":"Central
-        Tallgrass Prairie"},{"values":[334],"summary":"North-Central Interior Oak
-        Savanna"},{"values":[335],"summary":"North-Central Interior Sand and Gravel
-        Tallgrass Prairie"},{"values":[336],"summary":"North-Central Oak Barrens"},{"values":[337],"summary":"Northern
-        Tallgrass Prairie"},{"values":[338],"summary":"Southeastern Great Plains Tallgrass
-        Prairie"},{"values":[339],"summary":"Texas Blackland Tallgrass Prairie"},{"values":[340],"summary":"Texas-Louisiana
-        Coastal Prairie"},{"values":[341],"summary":"Central Appalachian Pine-Oak
-        Rocky Woodland"},{"values":[342],"summary":"Southern Appalachian Grass and
-        Shrub Bald"},{"values":[343],"summary":"Southern Appalachian Grass and Shrub
-        Bald - Herbaceous Modifier"},{"values":[344],"summary":"Southern Appalachian
-        Grass and Shrub Bald - Shrub Modifier"},{"values":[345],"summary":"Central
-        Appalachian Alkaline Glade and Woodland"},{"values":[346],"summary":"Central
-        Interior Highlands Calcareous Glade and Barrens"},{"values":[347],"summary":"Central
-        Interior Highlands Dry Acidic Glade and Barrens"},{"values":[348],"summary":"Cumberland
-        Sandstone Glade and Barrens"},{"values":[349],"summary":"Great Lakes Alvar"},{"values":[350],"summary":"Nashville
-        Basin Limestone Glade"},{"values":[351],"summary":"Southern Ridge and Valley
-        / Cumberland Dry Calcareous Forest"},{"values":[352],"summary":"Southern Piedmont
-        Glade and Barrens"},{"values":[353],"summary":"East Gulf Coastal Plain Black
-        Belt Calcareous Prairie and Woodland - Herbaceous Modifier"},{"values":[354],"summary":"East
-        Gulf Coastal Plain Jackson Prairie and Woodland"},{"values":[355],"summary":"Eastern
-        Highland Rim Prairie and Barrens - Dry Modifier"},{"values":[356],"summary":"Coahuilan
-        Chaparral"},{"values":[357],"summary":"Madrean Oriental Chaparral"},{"values":[358],"summary":"Mogollon
-        Chaparral"},{"values":[359],"summary":"Sonora-Mojave Semi-Desert Chaparral"},{"values":[360],"summary":"California
-        Montane Woodland and Chaparral"},{"values":[361],"summary":"Great Basin Semi-Desert
-        Chaparral"},{"values":[362],"summary":"Florida Dry Prairie"},{"values":[363],"summary":"Florida
-        Peninsula Inland Scrub"},{"values":[364],"summary":"West Gulf Coastal Plain
-        Catahoula Barrens"},{"values":[365],"summary":"West Gulf Coastal Plain Nepheline
-        Syenite Glade"},{"values":[366],"summary":"East Gulf Coastal Plain Jackson
-        Plain Dry Flatwoods - Open Understory Modifier"},{"values":[367],"summary":"West
-        Gulf Coastal Plain Northern Calcareous Prairie"},{"values":[368],"summary":"West
-        Gulf Coastal Plain Southern Calcareous Prairie"},{"values":[369],"summary":"Acadian-Appalachian
-        Subalpine Woodland and Heath-Krummholz"},{"values":[370],"summary":"Atlantic
-        and Gulf Coastal Plain Interdunal Wetland"},{"values":[371],"summary":"Atlantic
-        Coastal Plain Southern Dune and Maritime Grassland"},{"values":[372],"summary":"Central
-        and Upper Texas Coast Dune and Coastal Grassland"},{"values":[373],"summary":"East
-        Gulf Coastal Plain Dune and Coastal Grassland"},{"values":[374],"summary":"Great
-        Lakes Dune"},{"values":[375],"summary":"Northern Atlantic Coastal Plain Dune
-        and Swale"},{"values":[376],"summary":"Northern Atlantic Coastal Plain Heathland
-        and Grassland"},{"values":[377],"summary":"South Texas Dune and Coastal Grassland"},{"values":[378],"summary":"South
-        Texas Sand Sheet Grassland"},{"values":[379],"summary":"Southwest Florida
-        Dune and Coastal Grassland"},{"values":[380],"summary":"North Pacific Coastal
-        Cliff and Bluff"},{"values":[381],"summary":"North Pacific Maritime Coastal
-        Sand Dune and Strand"},{"values":[382],"summary":"Northern California Coastal
-        Scrub"},{"values":[383],"summary":"Mediterranean California Coastal Bluff"},{"values":[384],"summary":"Mediterranean
-        California Northern Coastal Dune"},{"values":[385],"summary":"Mediterranean
-        California Southern Coastal Dune"},{"values":[386],"summary":"Atlantic Coastal
-        Plain Northern Sandy Beach"},{"values":[387],"summary":"Atlantic Coastal Plain
-        Sea Island Beach"},{"values":[388],"summary":"Atlantic Coastal Plain Southern
-        Beach"},{"values":[389],"summary":"Florida Panhandle Beach Vegetation"},{"values":[390],"summary":"Louisiana
-        Beach"},{"values":[391],"summary":"Northern Atlantic Coastal Plain Sandy Beach"},{"values":[392],"summary":"Texas
-        Coastal Bend Beach"},{"values":[393],"summary":"Upper Texas Coast Beach"},{"values":[394],"summary":"0"},{"values":[395],"summary":"Mediterranean
-        California Serpentine Fen"},{"values":[396],"summary":"Mediterranean California
-        Subalpine-Montane Fen"},{"values":[397],"summary":"North Pacific Bog and Fen"},{"values":[398],"summary":"Rocky
-        Mountain Subalpine-Montane Fen"},{"values":[399],"summary":"Atlantic Coastal
-        Plain Peatland Pocosin"},{"values":[400],"summary":"Southern and Central Appalachian
-        Bog and Fen"},{"values":[401],"summary":"Atlantic Coastal Plain Central Fresh-Oligohaline
-        Tidal Marsh"},{"values":[402],"summary":"Atlantic Coastal Plain Embayed Region
-        Tidal Freshwater Marsh"},{"values":[403],"summary":"Atlantic Coastal Plain
-        Northern Fresh and Oligohaline Tidal Marsh"},{"values":[404],"summary":"Florida
-        Big Bend Fresh-Oligohaline Tidal Marsh"},{"values":[405],"summary":"Atlantic
-        Coastal Plain Depression Pondshore"},{"values":[406],"summary":"Atlantic Coastal
-        Plain Large Natural Lakeshore"},{"values":[407],"summary":"Central Florida
-        Herbaceous Pondshore"},{"values":[408],"summary":"Central Florida Herbaceous
-        Seep"},{"values":[409],"summary":"East Gulf Coastal Plain Savanna and Wet
-        Prairie"},{"values":[410],"summary":"East Gulf Coastal Plain Depression Pondshore"},{"values":[411],"summary":"Floridian
-        Highlands Freshwater Marsh"},{"values":[412],"summary":"Southern Coastal Plain
-        Herbaceous Seepage Bog"},{"values":[413],"summary":"Southern Coastal Plain
-        Nonriverine Basin Swamp - Okefenokee Clethra Modifier"},{"values":[414],"summary":"Southern
-        Coastal Plain Nonriverine Basin Swamp - Okefenokee Nupea Modifier"},{"values":[415],"summary":"Texas-Louisiana
-        Coastal Prairie Slough"},{"values":[416],"summary":"Central Interior and Appalachian
-        Shrub-Herbaceous Wetland Systems"},{"values":[417],"summary":"Great Lakes
-        Coastal Marsh Systems"},{"values":[418],"summary":"0"},{"values":[419],"summary":"0"},{"values":[420],"summary":"Laurentian-Acadian
-        Shrub-Herbaceous Wetland Systems"},{"values":[421],"summary":"0"},{"values":[422],"summary":"Eastern
-        Great Plains Wet Meadow, Prairie  and Marsh"},{"values":[423],"summary":"Great
-        Lakes Wet-Mesic Lakeplain Prairie"},{"values":[424],"summary":"Great Plains
-        Prairie Pothole"},{"values":[425],"summary":"Western Great Plains Closed Depression
-        Wetland"},{"values":[426],"summary":"Western Great Plains Depressional Wetland
-        Systems"},{"values":[427],"summary":"Western Great Plains Open Freshwater
-        Depression Wetland"},{"values":[428],"summary":"Cumberland Riverscour"},{"values":[429],"summary":"Inter-Mountain
-        Basins Interdunal Swale Wetland"},{"values":[430],"summary":"North Pacific
-        Avalanche Chute Shrubland"},{"values":[431],"summary":"North Pacific Intertidal
-        Freshwater Wetland"},{"values":[432],"summary":"Temperate Pacific Freshwater
-        Emergent Marsh"},{"values":[433],"summary":"Temperate Pacific Freshwater Mudflat"},{"values":[434],"summary":"Columbia
-        Plateau Vernal Pool"},{"values":[435],"summary":"Northern California Claypan
-        Vernal Pool"},{"values":[436],"summary":"Northern Rocky Mountain Wooded Vernal
-        Pool"},{"values":[437],"summary":"Columbia Plateau Silver Sagebrush Seasonally
-        Flooded Shrub-Steppe"},{"values":[438],"summary":"Rocky Mountain Alpine-Montane
-        Wet Meadow"},{"values":[439],"summary":"Rocky Mountain Subalpine-Montane Riparian
-        Shrubland"},{"values":[440],"summary":"Temperate Pacific Montane Wet Meadow"},{"values":[441],"summary":"Willamette
-        Valley Wet Prairie"},{"values":[442],"summary":"Chihuahuan-Sonoran Desert
-        Bottomland and Swale Grassland"},{"values":[443],"summary":"North American
-        Arid West Emergent Marsh"},{"values":[444],"summary":"North American Warm
-        Desert Riparian Mesquite Bosque"},{"values":[445],"summary":"Western Great
-        Plains Saline Depression Wetland"},{"values":[446],"summary":"Acadian Salt
-        Marsh and Estuary Systems"},{"values":[447],"summary":"Atlantic Coastal Plain
-        Central Salt and Brackish Tidal Marsh"},{"values":[448],"summary":"Atlantic
-        Coastal Plain Embayed Region Tidal Salt and Brackish Marsh"},{"values":[449],"summary":"Atlantic
-        Coastal Plain Indian River Lagoon Tidal Marsh"},{"values":[450],"summary":"Atlantic
-        Coastal Plain Northern Tidal Salt Marsh"},{"values":[451],"summary":"Florida
-        Big Bend Salt-Brackish Tidal Marsh"},{"values":[452],"summary":"Gulf and Atlantic
-        Coastal Plain Tidal Marsh Systems"},{"values":[453],"summary":"Mississippi
-        Sound Salt and Brackish Tidal Marsh"},{"values":[454],"summary":"Texas Saline
-        Coastal Prairie"},{"values":[455],"summary":"Temperate Pacific Tidal Salt
-        and Brackish Marsh"},{"values":[456],"summary":"Inter-Mountain Basins Alkaline
-        Closed Depression"},{"values":[457],"summary":"Inter-Mountain Basins Greasewood
-        Flat"},{"values":[458],"summary":"Inter-Mountain Basins Playa"},{"values":[459],"summary":"North
-        American Warm Desert Playa"},{"values":[460],"summary":"Apacherian-Chihuahuan
-        Mesquite Upland Scrub"},{"values":[461],"summary":"Apacherian-Chihuahuan Semi-Desert
-        Grassland and Steppe"},{"values":[462],"summary":"Chihuahuan Creosotebush,
-        Mixed Desert and Thorn Scrub"},{"values":[463],"summary":"Chihuahuan Gypsophilous
-        Grassland and Steppe"},{"values":[464],"summary":"Chihuahuan Loamy Plains
-        Desert Grassland"},{"values":[465],"summary":"Chihuahuan Mixed Desert and
-        Thorn Scrub"},{"values":[466],"summary":"Chihuahuan Sandy Plains Semi-Desert
-        Grassland"},{"values":[467],"summary":"Chihuahuan Stabilized Coppice Dune
-        and Sand Flat Scrub"},{"values":[468],"summary":"Chihuahuan Succulent Desert
-        Scrub"},{"values":[469],"summary":"Madrean Juniper Savanna"},{"values":[470],"summary":"Mojave
-        Mid-Elevation Mixed Desert Scrub"},{"values":[471],"summary":"North American
-        Warm Desert Active and Stabilized Dune"},{"values":[472],"summary":"Sonora-Mojave
-        Creosotebush-White Bursage Desert Scrub"},{"values":[473],"summary":"Sonoran
-        Mid-Elevation Desert Scrub"},{"values":[474],"summary":"Sonoran Paloverde-Mixed
-        Cacti Desert Scrub"},{"values":[475],"summary":"Chihuahuan Mixed Salt Desert
-        Scrub"},{"values":[476],"summary":"Sonora-Mojave Mixed Salt Desert Scrub"},{"values":[477],"summary":"North
-        American Warm Desert Wash"},{"values":[478],"summary":"South Texas Lomas"},{"values":[479],"summary":"Tamaulipan
-        Calcareous Thornscrub"},{"values":[480],"summary":"Tamaulipan Clay Grassland"},{"values":[481],"summary":"Tamaulipan
-        Mesquite Upland Scrub"},{"values":[482],"summary":"Tamaulipan Mixed Deciduous
-        Thornscrub"},{"values":[483],"summary":"Tamaulipan Savanna Grassland"},{"values":[484],"summary":"Inter-Mountain
-        Basins Mat Saltbush Shrubland"},{"values":[485],"summary":"Inter-Mountain
-        Basins Mixed Salt Desert Scrub"},{"values":[486],"summary":"Inter-Mountain
-        Basins Wash"},{"values":[487],"summary":"Columbia Plateau Steppe and Grassland"},{"values":[488],"summary":"Great
-        Basin Xeric Mixed Sagebrush Shrubland"},{"values":[489],"summary":"Inter-Mountain
-        Basins Big Sagebrush Shrubland"},{"values":[490],"summary":"Inter-Mountain
-        Basins Big Sagebrush Steppe"},{"values":[491],"summary":"Inter-Mountain Basins
-        Montane Sagebrush Steppe"},{"values":[492],"summary":"Colorado Plateau Mixed
-        Low Sagebrush Shrubland"},{"values":[493],"summary":"Columbia Plateau Low
-        Sagebrush Steppe"},{"values":[494],"summary":"Columbia Plateau Scabland Shrubland"},{"values":[495],"summary":"Wyoming
-        Basins Dwarf Sagebrush Shrubland and Steppe"},{"values":[496],"summary":"Colorado
-        Plateau Blackbrush-Mormon-tea Shrubland"},{"values":[497],"summary":"Inter-Mountain
-        Basins Semi-Desert Grassland"},{"values":[498],"summary":"Inter-Mountain Basins
-        Semi-Desert Shrub Steppe"},{"values":[499],"summary":"Southern Colorado Plateau
-        Sand Shrubland"},{"values":[500],"summary":"Acadian-Appalachian Alpine Tundra"},{"values":[501],"summary":"Rocky
-        Mountain Alpine Dwarf-Shrubland"},{"values":[502],"summary":"Rocky Mountain
-        Alpine Fell-Field"},{"values":[503],"summary":"Rocky Mountain Alpine Turf"},{"values":[504],"summary":"Mediterranean
-        California Alpine Dry Tundra"},{"values":[505],"summary":"Mediterranean California
-        Alpine Fell-Field"},{"values":[506],"summary":"North Pacific Dry and Mesic
-        Alpine Dwarf-Shrubland, Fell-field and Meadow"},{"values":[507],"summary":"Rocky
-        Mountain Alpine Tundra/Fell-field/Dwarf-shrub Map Unit"},{"values":[508],"summary":"Temperate
-        Pacific Intertidal Mudflat"},{"values":[509],"summary":"Mediterranean California
-        Eelgrass Bed"},{"values":[510],"summary":"North Pacific Maritime Eelgrass
-        Bed"},{"values":[511],"summary":"South-Central Interior Large Floodplain -
-        Herbaceous Modifier"},{"values":[512],"summary":"East Gulf Coastal Plain Large
-        River Floodplain Forest - Herbaceous Modifier"},{"values":[513],"summary":"Temperate
-        Pacific Freshwater Aquatic Bed"},{"values":[514],"summary":"Central California
-        Coast Ranges Cliff and Canyon"},{"values":[515],"summary":"Mediterranean California
-        Serpentine Barrens"},{"values":[516],"summary":"Southern California Coast
-        Ranges Cliff and Canyon"},{"values":[517],"summary":"Central Interior Acidic
-        Cliff and Talus"},{"values":[518],"summary":"Central Interior Calcareous Cliff
-        and Talus"},{"values":[519],"summary":"East Gulf Coastal Plain Dry Chalk Bluff"},{"values":[520],"summary":"North-Central
-        Appalachian Acidic Cliff and Talus"},{"values":[521],"summary":"North-Central
-        Appalachian Circumneutral Cliff and Talus"},{"values":[522],"summary":"Southern
-        Appalachian Montane Cliff"},{"values":[523],"summary":"Southern Interior Acid
-        Cliff"},{"values":[524],"summary":"Southern Interior Calcareous Cliff"},{"values":[525],"summary":"Southern
-        Piedmont Cliff"},{"values":[526],"summary":"Southern Appalachian Granitic
-        Dome"},{"values":[527],"summary":"Southern Appalachian Rocky Summit"},{"values":[528],"summary":"Southern
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-        [dwc:kingdom](https://dwc.tdwg.org/terms/#kingdom).  This field has been aligned
-        with the [GBIF backbone taxonomy](https://doi.org/10.15468/39omei)."},{"name":"phylum","type":"byte_array","description":"See
-        [dwc:phylum](https://dwc.tdwg.org/terms/#phylum).  This field has been aligned
-        with the GBIF backbone taxonomy."},{"name":"class","type":"byte_array","description":"See
-        [dwc:class](https://dwc.tdwg.org/terms/#class).  This field has been aligned
-        with the GBIF backbone taxonomy."},{"name":"order","type":"byte_array","description":"See
-        [dwc:order](https://dwc.tdwg.org/terms/#order).  This field has been aligned
-        with the GBIF backbone taxonomy."},{"name":"family","type":"byte_array","description":"See
-        [dwc:family](https://dwc.tdwg.org/terms/#family).  This field has been aligned
-        with the GBIF backbone taxonomy."},{"name":"genus","type":"byte_array","description":"See
-        [dwc:genus](https://dwc.tdwg.org/terms/#genus).  This field has been aligned
-        with the GBIF backbone taxonomy."},{"name":"species","type":"byte_array","description":"See
-        [dwc:species](https://dwc.tdwg.org/terms/#species).  This field has been aligned
-        with the GBIF backbone taxonomy."},{"name":"infraspecificepithet","type":"byte_array","description":"See
-        [dwc:infraspecificEpithet](https://dwc.tdwg.org/terms/#infraspecificEpithet).  This
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-        [dwc:taxonRank](https://dwc.tdwg.org/terms/#taxonRank).  This field has been
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-        [dwc:scientificName](https://dwc.tdwg.org/terms/#scientificName).  This field
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-        value to metres."},{"name":"depth","type":"double","description":"See [dwc:depth](https://dwc.tdwg.org/terms/#depth).  If
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-        dimensions time (daily datetime), lat (float latitude), and lon (float longitude).
-        The data is chunked at each interval of 365 days and 90 degree interval of
-        latitude and longitude. Therefore, each chunk is `(365, 360, 360)`, with each
-        chunk occupying approximately 179MB in memory.\\n\\nHistorical data is daily,
-        excluding leap days, from Jan 1, 1950 to Dec 31, 2014; SSP data is daily,
-        excluding leap days, from Jan 1, 2015 to either Dec 31, 2099 or Dec 31, 2100,
-        depending on data availability in the source GCM.\\n\\nThe spatial domain
-        covers all 0.25-degree grid cells, indexed by the grid center, with grid edges
-        on the quarter-degree, using a -180 to 180 longitude convention. Thus, the
-        \u201Clon\u201D coordinate extends from -179.875 to 179.875, and the \u201Clat\u201D
-        coordinate extends from -89.875 to 89.875, with intermediate values at each
-        0.25-degree increment between (e.g. -179.875, -179.625, -179.375, etc).\\n\\n##
-        Available institutions, models, and scenarios by license collection\\n\\n|
-        Modeling institution |   Source model    |           Available experiments
-        \           |   License collection   |\\n| -------------------- | -----------------
-        | ------------------------------------------ | ---------------------- |\\n|
-        CAS                  | FGOALS-g3 [^1]    | SSP2-4.5, SSP3-7.0, and SSP5-8.5
-        \          | Public domain datasets |\\n| INM                  | INM-CM4-8
-        \        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | Public domain datasets
-        |\\n| INM                  | INM-CM5-0         | SSP1-2.6, SSP2-4.5, SSP3-7.0,
-        and SSP5-8.5 | Public domain datasets |\\n| BCC                  | BCC-CSM2-MR
-        \      | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n|
-        CMCC                 | CMCC-CM2-SR5      | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5
-        \    | CC-BY-40]              |\\n| CMCC                 | CMCC-ESM2         |
-        ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-40]              |\\n|
-        CSIRO-ARCCSS         | ACCESS-CM2        | SSP2-4.5 and SSP3-7.0                      |
-        CC-BY-40]              |\\n| CSIRO                | ACCESS-ESM1-5     | SSP1-2.6,
-        SSP2-4.5, and SSP3-7.0           | CC-BY-40]              |\\n| MIROC                |
-        MIROC-ES2L        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40]
-        \             |\\n| MIROC                | MIROC6            | SSP1-2.6, SSP2-4.5,
-        SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n| MOHC                 |
-        HadGEM3-GC31-LL   | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40]
-        \             |\\n| MOHC                 | UKESM1-0-LL       | SSP1-2.6, SSP2-4.5,
-        SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n| MPI-M                |
-        MPI-ESM1-2-LR     | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40]
-        \             |\\n| MPI-M/DKRZ [^2]      | MPI-ESM1-2-HR     | SSP1-2.6 and
-        SSP5-8.5                      | CC-BY-40]              |\\n| NCC                  |
-        NorESM2-LM        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40]
-        \             |\\n| NCC                  | NorESM2-MM        | SSP1-2.6, SSP2-4.5,
-        SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n| NOAA-GFDL            |
-        GFDL-CM4          | SSP2-4.5 and SSP5-8.5                      | CC-BY-40]
-        \             |\\n| NOAA-GFDL            | GFDL-ESM4         | SSP1-2.6, SSP2-4.5,
-        SSP3-7.0, and SSP5-8.5 | CC-BY-40]              |\\n| NUIST                |
-        NESM3             | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40]
-        \             |\\n| EC-Earth-Consortium  | EC-Earth3         | ssp1-2.6, ssp2-4.5,
-        ssp3-7.0, and ssp5-8.5 | CC-BY-40]              |\\n| EC-Earth-Consortium
-        \ | EC-Earth3-AerChem | ssp370                                     | CC-BY-40]
-        \             |\\n| EC-Earth-Consortium  | EC-Earth3-CC      | ssp245 and
-        ssp585                          | CC-BY-40]              |\\n| EC-Earth-Consortium
-        \ | EC-Earth3-Veg     | ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40]
-        \             |\\n| EC-Earth-Consortium  | EC-Earth3-Veg-LR  | ssp1-2.6, ssp2-4.5,
-        ssp3-7.0, and ssp5-8.5 | CC-BY-40]              |\\n| CCCma                |
-        CanESM5           | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-SA-40]
-        \          |\\n\\n*Notes:*\\n\\n[^1]: At the time of running, no ssp1-2.6
-        precipitation data was available. Therefore, we provide `tasmin` and `tamax`
-        for this model and experiment, but not `pr`. All other model/experiment combinations
-        in the above table include all three variables.\\n\\n[^2]: The institution
-        which ran MPI-ESM1-2-HR\u2019s historical (CMIP) simulations is `MPI-M`, while
-        the future (ScenarioMIP) simulations were run by `DKRZ`. Therefore, the institution
-        component of `MPI-ESM1-2-HR` filepaths differ between `historical` and `SSP`
-        scenarios.\\n\\n## Project methods\\n\\nThis project makes use of statistical
-        bias correction and downscaling algorithms, which are specifically designed
-        to accurately represent changes in the extremes. For this reason, we selected
-        Quantile Delta Mapping (QDM), following the method introduced by [Cannon et
-        al. (2015)](https://doi.org/10.1175/JCLI-D-14-00754.1), which preserves quantile-specific
-        trends from the GCM while fitting the full distribution for a given day-of-year
-        to a reference dataset (ERA5).\\n\\nWe then introduce a similar method tailored
-        to increase spatial resolution while preserving extreme behavior, Quantile-Preserving
-        Localized-Analog Downscaling (QPLAD).\\n\\nTogether, these methods provide
-        a robust means to handle both the central and tail behavior seen in climate
-        model output, while aligning the full distribution to a state-of-the-art reanalysis
-        dataset and providing the spatial granularity needed to study surface impacts.\\n\\nFor
-        further documentation, see [Global downscaled projections for climate impacts
-        research (GDPCIR): preserving extremes for modeling future climate impacts](https://egusphere.copernicus.org/preprints/2023/egusphere-2022-1513/)
-        (EGUsphere, 2022 [preprint]).\\n\\n## Citing, licensing, and using data produced
-        by this project\\n\\nProjects making use of the data produced as part of the
-        Climate Impact Lab Global Downscaled Projections for Climate Impacts Research
-        (CIL GDPCIR) project are requested to cite both this project and the source
-        datasets from which these results are derived. Additionally, the use of data
-        derived from some GCMs *requires* citations, and some modeling centers impose
-        licensing restrictions & requirements on derived works. See each GCM's license
-        info in the links below for more information.\\n\\n### CIL GDPCIR\\n\\nUsers
-        are requested to cite this project in derived works. Our method documentation
-        paper may be cited using the following:\\n\\n> Gergel, D. R., Malevich, S.
-        B., McCusker, K. E., Tenezakis, E., Delgado, M. T., Fish, M. A., and Kopp,
-        R. E.: Global downscaled projections for climate impacts research (GDPCIR):
-        preserving extremes for modeling future climate impacts, EGUsphere [preprint],
-        https://doi.org/10.5194/egusphere-2022-1513, 2023. \\n\\nThe code repository
-        may be cited using the following:\\n\\n> Diana Gergel, Kelly McCusker, Brewster
-        Malevich, Emile Tenezakis, Meredith Fish, Michael Delgado (2022). ClimateImpactLab/downscaleCMIP6:
-        (v1.0.0). Zenodo. https://doi.org/10.5281/zenodo.6403794\\n\\n### ERA5\\n\\nAdditionally,
-        we request you cite the historical dataset used in bias correction and downscaling,
-        ERA5. See the [ECMWF guide to citing a dataset on the Climate Data Store](https://confluence.ecmwf.int/display/CKB/How+to+acknowledge+and+cite+a+Climate+Data+Store+%28CDS%29+catalogue+entry+and+the+data+published+as+part+of+it):\\n\\n>
-        Hersbach, H, et al. The ERA5 global reanalysis. Q J R Meteorol Soc.2020; 146:
-        1999\u20132049. DOI: [10.1002/qj.3803](https://doi.org/10.1002/qj.3803)\\n>\\n>
-        Mu\xF1oz Sabater, J., (2019): ERA5-Land hourly data from 1981 to present.
-        Copernicus Climate Change Service (C3S) Climate Data Store (CDS). (Accessed
-        on June 4, 2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n>\\n>
-        Mu\xF1oz Sabater, J., (2021): ERA5-Land hourly data from 1950 to 1980. Copernicus
-        Climate Change Service (C3S) Climate Data Store (CDS). (Accessed on June 4,
-        2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n\\n###
-        GCM-specific citations & licenses\\n\\nThe CMIP6 simulation data made available
-        through the Earth System Grid Federation (ESGF) are subject to Creative Commons
-        [BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/) or [BY-NC-SA
-        4.0](https://creativecommons.org/licenses/by-nc-sa/4.0/) licenses. The Climate
-        Impact Lab has reached out to each of the modeling institutions to request
-        waivers from these terms so the outputs of this project may be used with fewer
-        restrictions, and has been granted permission to release the data using the
-        licenses listed here.\\n\\n#### Public Domain Datasets\\n\\nThe following
-        bias corrected and downscaled model simulations are available in the public
-        domain using a [CC0 1.0 Universal Public Domain Declaration](https://creativecommons.org/publicdomain/zero/1.0/).
-        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0.\\n\\n*
-        **FGOALS-g3**\\n\\n  License description: [data_licenses/FGOALS-g3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/FGOALS-g3.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output
-        prepared for CMIP6 CMIP*. Version 20190826. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.1783\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output prepared for CMIP6
-        ScenarioMIP*. SSP1-2.6 version 20190818; SSP2-4.5 version 20190818; SSP3-7.0
-        version 20190820; SSP5-8.5 tasmax version 20190819; SSP5-8.5 tasmin version
-        20190819; SSP5-8.5 pr version 20190818. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2056\\n\\n\\n*
-        **INM-CM4-8**\\n\\n  License description: [data_licenses/INM-CM4-8.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM4-8.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
-        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
-        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
-        *INM INM-CM4-8 model output prepared for CMIP6 CMIP*. Version 20190530. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1422\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
-        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
-        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM4-8
-        model output prepared for CMIP6 ScenarioMIP*. Version 20190603. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12321\\n\\n\\n* **INM-CM5-0**\\n\\n
-        \ License description: [data_licenses/INM-CM5-0.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM5-0.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
-        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
-        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
-        *INM INM-CM5-0 model output prepared for CMIP6 CMIP*. Version 20190610. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1423\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
-        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
-        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM5-0
-        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20190619; SSP2-4.5
-        version 20190619; SSP3-7.0 version 20190618; SSP5-8.5 version 20190724. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12322\\n\\n\\n####
-        CC-BY-4.0\\n\\nThe following bias corrected and downscaled model simulations
-        are licensed under a [Creative Commons Attribution 4.0 International License](https://creativecommons.org/licenses/by/4.0/).
-        Note that this license requires citation of the source model output (included
-        here). Please see https://creativecommons.org/licenses/by/4.0/ for more information.
-        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by.\\n\\n*
-        **ACCESS-CM2**\\n\\n  License description: [data_licenses/ACCESS-CM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-CM2.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler,
-        Russell; Harman, Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell,
-        Siobhan; Rashid, Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire;
-        Vohralik, Peter; Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman,
-        Roger; Dias, Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen,
-        Aidan; Savita, Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans,
-        Ben; Richards, Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon;
-        Snow, Kate; Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2
-        model output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid
-        Federation. https://doi.org/10.22033/ESGF/CMIP6.2281\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler, Russell; Harman,
-        Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell, Siobhan; Rashid,
-        Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire; Vohralik, Peter;
-        Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman, Roger; Dias,
-        Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen, Aidan; Savita,
-        Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans, Ben; Richards,
-        Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon; Snow, Kate;
-        Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2 model output
-        prepared for CMIP6 ScenarioMIP*. Version 20191108. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.2285\\n\\n\\n* **ACCESS-ESM1-5**\\n\\n
-        \ License description: [data_licenses/ACCESS-ESM1-5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-ESM1-5.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew;
-        Law, Rachel; Bodman, Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter;
-        Srbinovsky, Jhan; Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan,
-        Arnold; O'Farrell, Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5
-        model output prepared for CMIP6 CMIP*. Version 20191115. Earth System Grid
-        Federation. https://doi.org/10.22033/ESGF/CMIP6.2288\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew; Law, Rachel; Bodman,
-        Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter; Srbinovsky, Jhan;
-        Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan, Arnold; O'Farrell,
-        Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5 model output prepared
-        for CMIP6 ScenarioMIP*. Version 20191115. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2291\\n\\n\\n*
-        **BCC-CSM2-MR**\\n\\n  License description: [data_licenses/BCC-CSM2-MR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/BCC-CSM2-MR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Xin, Xiaoge; Zhang, Jie; Zhang, Fang; Wu, Tongwen;
-        Shi, Xueli; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang;
-        Wei, Min **(2018)**. *BCC BCC-CSM2MR model output prepared for CMIP6 CMIP*.
-        Version 20181126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1725\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Xin, Xiaoge; Wu, Tongwen; Shi, Xueli; Zhang,
-        Fang; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang; Wei,
-        Min **(2019)**. *BCC BCC-CSM2MR model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20190315; SSP2-4.5 version 20190318; SSP3-7.0 version 20190318;
-        SSP5-8.5 version 20190318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1732\\n\\n\\n*
-        **CMCC-CM2-SR5**\\n\\n  License description: [data_licenses/CMCC-CM2-SR5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-CM2-SR5.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC
-        CMCC-CM2-SR5 model output prepared for CMIP6 CMIP*. Version 20200616. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1362\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC CMCC-CM2-SR5
-        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20200717; SSP2-4.5
-        version 20200617; SSP3-7.0 version 20200622; SSP5-8.5 version 20200622. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1365\\n\\n\\n*
-        **CMCC-ESM2**\\n\\n  License description: [data_licenses/CMCC-ESM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-ESM2.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n, Momme
-        **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 CMIP*. Version
-        20210114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13164\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n,
-        Momme **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20210126; SSP2-4.5 version 20210129; SSP3-7.0 version 20210202;
-        SSP5-8.5 version 20210126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13168\\n\\n\\n*
-        **EC-Earth3-AerChem**\\n\\n  License description: [data_licenses/EC-Earth3-AerChem.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-AerChem.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
-        EC-Earth3-AerChem model output prepared for CMIP6 CMIP*. Version 20200624.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.639\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
-        *EC-Earth-Consortium EC-Earth3-AerChem model output prepared for CMIP6 ScenarioMIP*.
-        Version 20200827. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.724\\n\\n\\n*
-        **EC-Earth3-CC**\\n\\n  License description: [data_licenses/EC-Earth3-CC.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-CC.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
-        EC-Earth-3-CC model output prepared for CMIP6 CMIP*. Version 20210113. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.640\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2021)**. *EC-Earth-Consortium
-        EC-Earth3-CC model output prepared for CMIP6 ScenarioMIP*. Version 20210113.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.15327\\n\\n\\n*
-        **EC-Earth3-Veg-LR**\\n\\n  License description: [data_licenses/EC-Earth3-Veg-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg-LR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
-        EC-Earth3-Veg-LR model output prepared for CMIP6 CMIP*. Version 20200217.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.643\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
-        *EC-Earth-Consortium EC-Earth3-Veg-LR model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20201201; SSP2-4.5 version 20201123; SSP3-7.0 version 20201123;
-        SSP5-8.5 version 20201201. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.728\\n\\n\\n*
-        **EC-Earth3-Veg**\\n\\n  License description: [data_licenses/EC-Earth3-Veg.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3-Veg model output prepared for CMIP6 CMIP*. Version 20200225. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.642\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3-Veg model output prepared for CMIP6 ScenarioMIP*. Version 20200225.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.727\\n\\n\\n*
-        **EC-Earth3**\\n\\n  License description: [data_licenses/EC-Earth3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3 model output prepared for CMIP6 CMIP*. Version 20200310. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.181\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3 model output prepared for CMIP6 ScenarioMIP*. Version 20200310.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.251\\n\\n\\n*
-        **GFDL-CM4**\\n\\n  License description: [data_licenses/GFDL-CM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-CM4.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh,
-        Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher; Zadeh,
-        Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
-        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Bushuk, Mitchell; Dunne,
-        Krista A.; Dussin, Raphael; Gauthier, Paul PG; Ginoux, Paul; Griffies, Stephen
-        M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu; Malyshev,
-        Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay, Jeffrey;
-        Reichl, Brandon G; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew;
-        Silvers, Levi; Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair;
-        Dunne, John P.; Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly,
-        P.C.D; Shevliakova, Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**.
-        *NOAA-GFDL GFDL-CM4 model output*. Version 20180701. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.1402\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh, Colleen; Nikonov, Serguei;
-        Radhakrishnan, Aparna; Rand, Kristopher; Zadeh, Niki T.; Balaji, V; Durachta,
-        Jeff; Dupuis, Christopher; Menzel, Raymond; Robinson, Thomas; Underwood, Seth;
-        Vahlenkamp, Hans; Dunne, Krista A.; Gauthier, Paul PG; Ginoux, Paul; Griffies,
-        Stephen M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu;
-        Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay,
-        Jeffrey; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew; Silvers, Levi;
-        Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair; Dunne, John P.;
-        Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly, Chris; Shevliakova,
-        Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**. *NOAA-GFDL GFDL-CM4
-        model output prepared for CMIP6 ScenarioMIP*. Version 20180701. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.9242\\n\\n\\n* **GFDL-ESM4**\\n\\n
-        \ License description: [data_licenses/GFDL-ESM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-ESM4.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Krasting, John P.; John, Jasmin G; Blanton, Chris;
-        McHugh, Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher;
-        Zadeh, Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
-        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Dunne, Krista A.; Gauthier,
-        Paul PG; Ginoux, Paul; Griffies, Stephen M.; Hallberg, Robert; Harrison, Matthew;
-        Hurlin, William; Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter,
-        David J; Ploshay, Jeffrey; Reichl, Brandon G; Schwarzkopf, Daniel M; Seman,
-        Charles J; Silvers, Levi; Wyman, Bruce; Zeng, Yujin; Adcroft, Alistair; Dunne,
-        John P.; Dussin, Raphael; Guo, Huan; He, Jian; Held, Isaac M; Horowitz, Larry
-        W.; Lin, Pu; Milly, P.C.D; Shevliakova, Elena; Stock, Charles; Winton, Michael;
-        Wittenberg, Andrew T.; Xie, Yuanyu; Zhao, Ming **(2018)**. *NOAA-GFDL GFDL-ESM4
-        model output prepared for CMIP6 CMIP*. Version 20190726. Earth System Grid
-        Federation. https://doi.org/10.22033/ESGF/CMIP6.1407\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > John, Jasmin G; Blanton, Chris; McHugh, Colleen; Radhakrishnan, Aparna;
-        Rand, Kristopher; Vahlenkamp, Hans; Wilson, Chandin; Zadeh, Niki T.; Dunne,
-        John P.; Dussin, Raphael; Horowitz, Larry W.; Krasting, John P.; Lin, Pu;
-        Malyshev, Sergey; Naik, Vaishali; Ploshay, Jeffrey; Shevliakova, Elena; Silvers,
-        Levi; Stock, Charles; Winton, Michael; Zeng, Yujin **(2018)**. *NOAA-GFDL
-        GFDL-ESM4 model output prepared for CMIP6 ScenarioMIP*. Version 20180701.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1414\\n\\n\\n*
-        **HadGEM3-GC31-LL**\\n\\n  License description: [data_licenses/HadGEM3-GC31-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/HadGEM3-GC31-LL.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Ridley, Jeff; Menary, Matthew; Kuhlbrodt, Till;
-        Andrews, Martin; Andrews, Tim **(2018)**. *MOHC HadGEM3-GC31-LL model output
-        prepared for CMIP6 CMIP*. Version 20190624. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.419\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Good, Peter **(2019)**. *MOHC HadGEM3-GC31-LL model output prepared for
-        CMIP6 ScenarioMIP*. SSP1-2.6 version 20200114; SSP2-4.5 version 20190908;
-        SSP5-8.5 version 20200114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.10845\\n\\n\\n*
-        **MIROC-ES2L**\\n\\n  License description: [data_licenses/MIROC-ES2L.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC-ES2L.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Hajima, Tomohiro; Abe, Manabu; Arakawa, Osamu; Suzuki,
-        Tatsuo; Komuro, Yoshiki; Ogura, Tomoo; Ogochi, Koji; Watanabe, Michio; Yamamoto,
-        Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito, Akinori; Yamazaki,
-        Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya, Michio; Tachiiri,
-        Kaoru **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 CMIP*.
-        Version 20191129. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.902\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Tachiiri, Kaoru; Abe, Manabu; Hajima, Tomohiro;
-        Arakawa, Osamu; Suzuki, Tatsuo; Komuro, Yoshiki; Ogochi, Koji; Watanabe, Michio;
-        Yamamoto, Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito,
-        Akinori; Yamazaki, Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya,
-        Michio **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 ScenarioMIP*.
-        Version 20200318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.936\\n\\n\\n*
-        **MIROC6**\\n\\n  License description: [data_licenses/MIROC6.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC6.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Tatebe, Hiroaki; Watanabe, Masahiro **(2018)**.
-        *MIROC MIROC6 model output prepared for CMIP6 CMIP*. Version 20191016. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.881\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Shiogama, Hideo; Abe, Manabu; Tatebe, Hiroaki **(2019)**.
-        *MIROC MIROC6 model output prepared for CMIP6 ScenarioMIP*. Version 20191016.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.898\\n\\n\\n*
-        **MPI-ESM1-2-HR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-HR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-HR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Jungclaus, Johann; Bittner, Matthias; Wieners, Karl-Hermann;
-        Wachsmann, Fabian; Schupfner, Martin; Legutke, Stephanie; Giorgetta, Marco;
-        Reick, Christian; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz,
-        Thomas; Esch, Monika; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens,
-        J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina;
-        Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster,
-        Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem;
-        Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
-        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
-        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
-        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
-        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-HR model output prepared
-        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.741\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Schupfner, Martin; Wieners, Karl-Hermann;
-        Wachsmann, Fabian; Steger, Christian; Bittner, Matthias; Jungclaus, Johann;
-        Fr\xFCh, Barbara; Pankatz, Klaus; Giorgetta, Marco; Reick, Christian; Legutke,
-        Stephanie; Esch, Monika; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp;
-        Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens, J\xF6rg;
-        Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina; Fiedler,
-        Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster, Silvia;
-        Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem; Matei, Daniela;
-        Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang;
-        Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten; Pincus, Robert; Pohlmann,
-        Holger; Pongratz, Julia; Rast, Sebastian; Schmidt, Hauke; Schnur, Reiner;
-        Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich
-        **(2019)**. *DKRZ MPI-ESM1.2-HR model output prepared for CMIP6 ScenarioMIP*.
-        Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2450\\n\\n\\n*
-        **MPI-ESM1-2-LR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-LR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco; Jungclaus,
-        Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Legutke, Stephanie;
-        Schupfner, Martin; Wachsmann, Fabian; Gayler, Veronika; Haak, Helmuth; de
-        Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song;
-        Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast,
-        Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas;
-        Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke,
-        Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
-        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
-        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
-        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
-        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR model output prepared
-        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.742\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco;
-        Jungclaus, Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Gayler,
-        Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten;
-        von Storch, Jin-Song; Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin;
-        Crueger, Traute; Fast, Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger,
-        Cathy; Jahns, Thomas; Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh,
-        Luis; Marotzke, Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz,
-        Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von
-        Gehlen, Karsten; Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast,
-        Sebastian; Schmidt, Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina;
-        Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR
-        model output prepared for CMIP6 ScenarioMIP*. Version 20190710. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.793\\n\\n\\n* **NESM3**\\n\\n
-        \ License description: [data_licenses/NESM3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NESM3.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Cao, Jian; Wang, Bin **(2019)**. *NUIST NESMv3 model
-        output prepared for CMIP6 CMIP*. Version 20190812. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.2021\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Cao, Jian **(2019)**. *NUIST NESMv3 model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20190806; SSP2-4.5 version 20190805; SSP5-8.5 version 20190811.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2027\\n\\n\\n*
-        **NorESM2-LM**\\n\\n  License description: [data_licenses/NorESM2-LM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-LM.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk
-        Jan Leo; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
-        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
-        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
-        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
-        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
-        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
-        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-LM model
-        output prepared for CMIP6 CMIP*. Version 20190815. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.502\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Toniazzo, Thomas;
-        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
-        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
-        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
-        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
-        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
-        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
-        Michael **(2019)**. *NCC NorESM2-LM model output prepared for CMIP6 ScenarioMIP*.
-        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.604\\n\\n\\n*
-        **NorESM2-MM**\\n\\n  License description: [data_licenses/NorESM2-MM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-MM.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland,
-        \xD8yvind; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
-        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
-        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
-        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
-        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
-        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
-        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-MM model
-        output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.506\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland, \xD8yvind; Toniazzo, Thomas;
-        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
-        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
-        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
-        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
-        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
-        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
-        Michael **(2019)**. *NCC NorESM2-MM model output prepared for CMIP6 ScenarioMIP*.
-        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.608\\n\\n\\n*
-        **UKESM1-0-LL**\\n\\n  License description: [data_licenses/UKESM1-0-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/UKESM1-0-LL.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Tang, Yongming; Rumbold, Steve; Ellis, Rich; Kelley,
-        Douglas; Mulcahy, Jane; Sellar, Alistair; Walton, Jeremy; Jones, Colin **(2019)**.
-        *MOHC UKESM1.0-LL model output prepared for CMIP6 CMIP*. Version 20190627.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1569\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Good, Peter; Sellar, Alistair; Tang, Yongming;
-        Rumbold, Steve; Ellis, Rich; Kelley, Douglas; Kuhlbrodt, Till; Walton, Jeremy
-        **(2019)**. *MOHC UKESM1.0-LL model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20190708; SSP2-4.5 version 20190715; SSP3-7.0 version 20190726;
-        SSP5-8.5 version 20190726. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1567\\n\\n\\n####
-        CC-BY-SA-4.0\\n\\nThe following bias corrected and downscaled model simulations
-        are licensed under a [Creative Commons Attribution-ShareAlike 4.0 International
-        License](https://creativecommons.org/licenses/by-sa/4.0/). Note that this
-        license requires citation of the source model output (included here) and requires
-        that derived works be shared under the same license. Please see https://creativecommons.org/licenses/by-sa/4.0/
-        for more information. Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by-sa.\\n\\n*
-        **CanESM5**\\n\\n  License description: [data_licenses/CanESM5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CanESM5.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Swart, Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav
-        V.; Lazare, Mike; Scinocca, John F.; Gillett, Nathan P.; Anstey, James; Arora,
-        Vivek; Christian, James R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad;
-        Saenko, Oleg A.; Seiler, Christian; Seinen, Clint; Shao, Andrew; Solheim,
-        Larry; von Salzen, Knut; Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**.
-        *CCCma CanESM5 model output prepared for CMIP6 CMIP*. Version 20190429. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1303\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Swart, Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav
-        V.; Lazare, Mike; Scinocca, John F.; Gillett, Nathan P.; Anstey, James; Arora,
-        Vivek; Christian, James R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad;
-        Saenko, Oleg A.; Seiler, Christian; Seinen, Clint; Shao, Andrew; Solheim,
-        Larry; von Salzen, Knut; Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**.
-        *CCCma CanESM5 model output prepared for CMIP6 ScenarioMIP*. Version 20190429.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1317\\n\\n##
-        Acknowledgements\\n\\nThis work is the result of many years worth of work
-        by members of the [Climate Impact Lab](https://impactlab.org), but would not
-        have been possible without many contributions from across the wider scientific
-        and computing communities.\\n\\nSpecifically, we would like to acknowledge
-        the World Climate Research Programme's Working Group on Coupled Modeling,
-        which is responsible for CMIP, and we would like to thank the climate modeling
-        groups for producing and making their model output available. We would particularly
-        like to thank the modeling institutions whose results are included as an input
-        to this repository (listed above) for their contributions to the CMIP6 project
-        and for responding to and granting our requests for license waivers.\\n\\nWe
-        would also like to thank Lamont-Doherty Earth Observatory, the [Pangeo Consortium](https://github.com/pangeo-data)
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-        Available institutions, models, and scenarios by license collection\\n\\n|
-        Modeling institution |   Source model    |           Available experiments
-        \           |   License collection   |\\n| -------------------- | -----------------
-        | ------------------------------------------ | ---------------------- |\\n|
-        CAS                  | FGOALS-g3 [^1]    | SSP2-4.5, SSP3-7.0, and SSP5-8.5
-        \          | Public domain datasets |\\n| INM                  | INM-CM4-8
-        \        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | Public domain datasets
-        |\\n| INM                  | INM-CM5-0         | SSP1-2.6, SSP2-4.5, SSP3-7.0,
-        and SSP5-8.5 | Public domain datasets |\\n| BCC                  | BCC-CSM2-MR
-        \      | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n|
-        CMCC                 | CMCC-CM2-SR5      | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5
-        \    | CC-BY-40               |\\n| CMCC                 | CMCC-ESM2         |
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-        CSIRO-ARCCSS         | ACCESS-CM2        | SSP2-4.5 and SSP3-7.0                      |
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-        MIROC-ES2L        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
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-        \              |\\n| MOHC                 | UKESM1-0-LL       | SSP1-2.6,
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-        MPI-ESM1-2-LR     | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
-        \              |\\n| MPI-M/DKRZ [^2]      | MPI-ESM1-2-HR     | SSP1-2.6 and
-        SSP5-8.5                      | CC-BY-40               |\\n| NCC                  |
-        NorESM2-LM        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
-        \              |\\n| NCC                  | NorESM2-MM        | SSP1-2.6,
-        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| NOAA-GFDL
-        \           | GFDL-CM4          | SSP2-4.5 and SSP5-8.5                      |
-        CC-BY-40               |\\n| NOAA-GFDL            | GFDL-ESM4         | SSP1-2.6,
-        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| NUIST                |
-        NESM3             | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40
-        \              |\\n| EC-Earth-Consortium  | EC-Earth3         | ssp1-2.6,
-        ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40               |\\n| EC-Earth-Consortium
-        \ | EC-Earth3-AerChem | ssp370                                     | CC-BY-40
-        \              |\\n| EC-Earth-Consortium  | EC-Earth3-CC      | ssp245 and
-        ssp585                          | CC-BY-40               |\\n| EC-Earth-Consortium
-        \ | EC-Earth3-Veg     | ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40
-        \              |\\n| EC-Earth-Consortium  | EC-Earth3-Veg-LR  | ssp1-2.6,
-        ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40               |\\n| CCCma                |
-        CanESM5           | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-40[^3]
-        \          |\\n\\n*Notes:*\\n\\n[^1]: At the time of running, no ssp1-2.6
-        precipitation data was available. Therefore, we provide `tasmin` and `tamax`
-        for this model and experiment, but not `pr`. All other model/experiment combinations
-        in the above table include all three variables.\\n\\n[^2]: The institution
-        which ran MPI-ESM1-2-HR\u2019s historical (CMIP) simulations is `MPI-M`, while
-        the future (ScenarioMIP) simulations were run by `DKRZ`. Therefore, the institution
-        component of `MPI-ESM1-2-HR` filepaths differ between `historical` and `SSP`
-        scenarios.\\n\\n[^3]: This dataset was previously licensed as [CC BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/),
-        but was relicensed under [CC BY 4.0](https://creativecommons.org/licenses/by/4.0)
-        in March, 2023. \\n\\n## Project methods\\n\\nThis project makes use of statistical
-        bias correction and downscaling algorithms, which are specifically designed
-        to accurately represent changes in the extremes. For this reason, we selected
-        Quantile Delta Mapping (QDM), following the method introduced by [Cannon et
-        al. (2015)](https://doi.org/10.1175/JCLI-D-14-00754.1), which preserves quantile-specific
-        trends from the GCM while fitting the full distribution for a given day-of-year
-        to a reference dataset (ERA5).\\n\\nWe then introduce a similar method tailored
-        to increase spatial resolution while preserving extreme behavior, Quantile-Preserving
-        Localized-Analog Downscaling (QPLAD).\\n\\nTogether, these methods provide
-        a robust means to handle both the central and tail behavior seen in climate
-        model output, while aligning the full distribution to a state-of-the-art reanalysis
-        dataset and providing the spatial granularity needed to study surface impacts.\\n\\nFor
-        further documentation, see [Global downscaled projections for climate impacts
-        research (GDPCIR): preserving extremes for modeling future climate impacts](https://egusphere.copernicus.org/preprints/2023/egusphere-2022-1513/)
-        (EGUsphere, 2022 [preprint]).\\n\\n\\n## Citing, licensing, and using data
-        produced by this project\\n\\nProjects making use of the data produced as
-        part of the Climate Impact Lab Global Downscaled Projections for Climate Impacts
-        Research (CIL GDPCIR) project are requested to cite both this project and
-        the source datasets from which these results are derived. Additionally, the
-        use of data derived from some GCMs *requires* citations, and some modeling
-        centers impose licensing restrictions & requirements on derived works. See
-        each GCM's license info in the links below for more information.\\n\\n###
-        CIL GDPCIR\\n\\nUsers are requested to cite this project in derived works.
-        Our method documentation paper may be cited using the following:\\n\\n> Gergel,
-        D. R., Malevich, S. B., McCusker, K. E., Tenezakis, E., Delgado, M. T., Fish,
-        M. A., and Kopp, R. E.: Global downscaled projections for climate impacts
-        research (GDPCIR): preserving extremes for modeling future climate impacts,
-        EGUsphere [preprint], https://doi.org/10.5194/egusphere-2022-1513, 2023. \\n\\nThe
-        code repository may be cited using the following:\\n\\n> Diana Gergel, Kelly
-        McCusker, Brewster Malevich, Emile Tenezakis, Meredith Fish, Michael Delgado
-        (2022). ClimateImpactLab/downscaleCMIP6: (v1.0.0). Zenodo. https://doi.org/10.5281/zenodo.6403794\\n\\n###
-        ERA5\\n\\nAdditionally, we request you cite the historical dataset used in
-        bias correction and downscaling, ERA5. See the [ECMWF guide to citing a dataset
-        on the Climate Data Store](https://confluence.ecmwf.int/display/CKB/How+to+acknowledge+and+cite+a+Climate+Data+Store+%28CDS%29+catalogue+entry+and+the+data+published+as+part+of+it):\\n\\n>
-        Hersbach, H, et al. The ERA5 global reanalysis. Q J R Meteorol Soc.2020; 146:
-        1999\u20132049. DOI: [10.1002/qj.3803](https://doi.org/10.1002/qj.3803)\\n>\\n>
-        Mu\xF1oz Sabater, J., (2019): ERA5-Land hourly data from 1981 to present.
-        Copernicus Climate Change Service (C3S) Climate Data Store (CDS). (Accessed
-        on June 4, 2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n>\\n>
-        Mu\xF1oz Sabater, J., (2021): ERA5-Land hourly data from 1950 to 1980. Copernicus
-        Climate Change Service (C3S) Climate Data Store (CDS). (Accessed on June 4,
-        2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n\\n###
-        GCM-specific citations & licenses\\n\\nThe CMIP6 simulation data made available
-        through the Earth System Grid Federation (ESGF) are subject to Creative Commons
-        [BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/) or [BY-NC-SA
-        4.0](https://creativecommons.org/licenses/by-nc-sa/4.0/) licenses. The Climate
-        Impact Lab has reached out to each of the modeling institutions to request
-        waivers from these terms so the outputs of this project may be used with fewer
-        restrictions, and has been granted permission to release the data using the
-        licenses listed here.\\n\\n#### Public Domain Datasets\\n\\nThe following
-        bias corrected and downscaled model simulations are available in the public
-        domain using a [CC0 1.0 Universal Public Domain Declaration](https://creativecommons.org/publicdomain/zero/1.0/).
-        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0.\\n\\n*
-        **FGOALS-g3**\\n\\n  License description: [data_licenses/FGOALS-g3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/FGOALS-g3.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output
-        prepared for CMIP6 CMIP*. Version 20190826. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.1783\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output prepared for CMIP6
-        ScenarioMIP*. SSP1-2.6 version 20190818; SSP2-4.5 version 20190818; SSP3-7.0
-        version 20190820; SSP5-8.5 tasmax version 20190819; SSP5-8.5 tasmin version
-        20190819; SSP5-8.5 pr version 20190818. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2056\\n\\n\\n*
-        **INM-CM4-8**\\n\\n  License description: [data_licenses/INM-CM4-8.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM4-8.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
-        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
-        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
-        *INM INM-CM4-8 model output prepared for CMIP6 CMIP*. Version 20190530. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1422\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
-        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
-        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM4-8
-        model output prepared for CMIP6 ScenarioMIP*. Version 20190603. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12321\\n\\n\\n* **INM-CM5-0**\\n\\n
-        \ License description: [data_licenses/INM-CM5-0.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM5-0.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
-        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
-        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
-        *INM INM-CM5-0 model output prepared for CMIP6 CMIP*. Version 20190610. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1423\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
-        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
-        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM5-0
-        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20190619; SSP2-4.5
-        version 20190619; SSP3-7.0 version 20190618; SSP5-8.5 version 20190724. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12322\\n\\n\\n####
-        CC-BY-4.0\\n\\nThe following bias corrected and downscaled model simulations
-        are licensed under a [Creative Commons Attribution 4.0 International License](https://creativecommons.org/licenses/by/4.0/).
-        Note that this license requires citation of the source model output (included
-        here). Please see https://creativecommons.org/licenses/by/4.0/ for more information.
-        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by.\\n\\n*
-        **ACCESS-CM2**\\n\\n  License description: [data_licenses/ACCESS-CM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-CM2.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler,
-        Russell; Harman, Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell,
-        Siobhan; Rashid, Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire;
-        Vohralik, Peter; Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman,
-        Roger; Dias, Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen,
-        Aidan; Savita, Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans,
-        Ben; Richards, Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon;
-        Snow, Kate; Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2
-        model output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid
-        Federation. https://doi.org/10.22033/ESGF/CMIP6.2281\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler, Russell; Harman,
-        Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell, Siobhan; Rashid,
-        Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire; Vohralik, Peter;
-        Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman, Roger; Dias,
-        Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen, Aidan; Savita,
-        Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans, Ben; Richards,
-        Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon; Snow, Kate;
-        Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2 model output
-        prepared for CMIP6 ScenarioMIP*. Version 20191108. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.2285\\n\\n\\n* **ACCESS-ESM1-5**\\n\\n
-        \ License description: [data_licenses/ACCESS-ESM1-5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-ESM1-5.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew;
-        Law, Rachel; Bodman, Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter;
-        Srbinovsky, Jhan; Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan,
-        Arnold; O'Farrell, Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5
-        model output prepared for CMIP6 CMIP*. Version 20191115. Earth System Grid
-        Federation. https://doi.org/10.22033/ESGF/CMIP6.2288\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew; Law, Rachel; Bodman,
-        Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter; Srbinovsky, Jhan;
-        Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan, Arnold; O'Farrell,
-        Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5 model output prepared
-        for CMIP6 ScenarioMIP*. Version 20191115. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2291\\n\\n\\n*
-        **BCC-CSM2-MR**\\n\\n  License description: [data_licenses/BCC-CSM2-MR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/BCC-CSM2-MR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Xin, Xiaoge; Zhang, Jie; Zhang, Fang; Wu, Tongwen;
-        Shi, Xueli; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang;
-        Wei, Min **(2018)**. *BCC BCC-CSM2MR model output prepared for CMIP6 CMIP*.
-        Version 20181126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1725\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Xin, Xiaoge; Wu, Tongwen; Shi, Xueli; Zhang,
-        Fang; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang; Wei,
-        Min **(2019)**. *BCC BCC-CSM2MR model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20190315; SSP2-4.5 version 20190318; SSP3-7.0 version 20190318;
-        SSP5-8.5 version 20190318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1732\\n\\n\\n*
-        **CMCC-CM2-SR5**\\n\\n  License description: [data_licenses/CMCC-CM2-SR5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-CM2-SR5.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC
-        CMCC-CM2-SR5 model output prepared for CMIP6 CMIP*. Version 20200616. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1362\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC CMCC-CM2-SR5
-        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20200717; SSP2-4.5
-        version 20200617; SSP3-7.0 version 20200622; SSP5-8.5 version 20200622. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1365\\n\\n\\n*
-        **CMCC-ESM2**\\n\\n  License description: [data_licenses/CMCC-ESM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-ESM2.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n, Momme
-        **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 CMIP*. Version
-        20210114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13164\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n,
-        Momme **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20210126; SSP2-4.5 version 20210129; SSP3-7.0 version 20210202;
-        SSP5-8.5 version 20210126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13168\\n\\n\\n*
-        **EC-Earth3-AerChem**\\n\\n  License description: [data_licenses/EC-Earth3-AerChem.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-AerChem.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
-        EC-Earth3-AerChem model output prepared for CMIP6 CMIP*. Version 20200624.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.639\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
-        *EC-Earth-Consortium EC-Earth3-AerChem model output prepared for CMIP6 ScenarioMIP*.
-        Version 20200827. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.724\\n\\n\\n*
-        **EC-Earth3-CC**\\n\\n  License description: [data_licenses/EC-Earth3-CC.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-CC.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
-        EC-Earth-3-CC model output prepared for CMIP6 CMIP*. Version 20210113. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.640\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2021)**. *EC-Earth-Consortium
-        EC-Earth3-CC model output prepared for CMIP6 ScenarioMIP*. Version 20210113.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.15327\\n\\n\\n*
-        **EC-Earth3-Veg-LR**\\n\\n  License description: [data_licenses/EC-Earth3-Veg-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg-LR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
-        EC-Earth3-Veg-LR model output prepared for CMIP6 CMIP*. Version 20200217.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.643\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
-        *EC-Earth-Consortium EC-Earth3-Veg-LR model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20201201; SSP2-4.5 version 20201123; SSP3-7.0 version 20201123;
-        SSP5-8.5 version 20201201. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.728\\n\\n\\n*
-        **EC-Earth3-Veg**\\n\\n  License description: [data_licenses/EC-Earth3-Veg.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3-Veg model output prepared for CMIP6 CMIP*. Version 20200225. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.642\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3-Veg model output prepared for CMIP6 ScenarioMIP*. Version 20200225.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.727\\n\\n\\n*
-        **EC-Earth3**\\n\\n  License description: [data_licenses/EC-Earth3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3 model output prepared for CMIP6 CMIP*. Version 20200310. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.181\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3 model output prepared for CMIP6 ScenarioMIP*. Version 20200310.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.251\\n\\n\\n*
-        **GFDL-CM4**\\n\\n  License description: [data_licenses/GFDL-CM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-CM4.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh,
-        Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher; Zadeh,
-        Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
-        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Bushuk, Mitchell; Dunne,
-        Krista A.; Dussin, Raphael; Gauthier, Paul PG; Ginoux, Paul; Griffies, Stephen
-        M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu; Malyshev,
-        Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay, Jeffrey;
-        Reichl, Brandon G; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew;
-        Silvers, Levi; Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair;
-        Dunne, John P.; Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly,
-        P.C.D; Shevliakova, Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**.
-        *NOAA-GFDL GFDL-CM4 model output*. Version 20180701. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.1402\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh, Colleen; Nikonov, Serguei;
-        Radhakrishnan, Aparna; Rand, Kristopher; Zadeh, Niki T.; Balaji, V; Durachta,
-        Jeff; Dupuis, Christopher; Menzel, Raymond; Robinson, Thomas; Underwood, Seth;
-        Vahlenkamp, Hans; Dunne, Krista A.; Gauthier, Paul PG; Ginoux, Paul; Griffies,
-        Stephen M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu;
-        Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay,
-        Jeffrey; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew; Silvers, Levi;
-        Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair; Dunne, John P.;
-        Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly, Chris; Shevliakova,
-        Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**. *NOAA-GFDL GFDL-CM4
-        model output prepared for CMIP6 ScenarioMIP*. Version 20180701. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.9242\\n\\n\\n* **GFDL-ESM4**\\n\\n
-        \ License description: [data_licenses/GFDL-ESM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-ESM4.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Krasting, John P.; John, Jasmin G; Blanton, Chris;
-        McHugh, Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher;
-        Zadeh, Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
-        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Dunne, Krista A.; Gauthier,
-        Paul PG; Ginoux, Paul; Griffies, Stephen M.; Hallberg, Robert; Harrison, Matthew;
-        Hurlin, William; Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter,
-        David J; Ploshay, Jeffrey; Reichl, Brandon G; Schwarzkopf, Daniel M; Seman,
-        Charles J; Silvers, Levi; Wyman, Bruce; Zeng, Yujin; Adcroft, Alistair; Dunne,
-        John P.; Dussin, Raphael; Guo, Huan; He, Jian; Held, Isaac M; Horowitz, Larry
-        W.; Lin, Pu; Milly, P.C.D; Shevliakova, Elena; Stock, Charles; Winton, Michael;
-        Wittenberg, Andrew T.; Xie, Yuanyu; Zhao, Ming **(2018)**. *NOAA-GFDL GFDL-ESM4
-        model output prepared for CMIP6 CMIP*. Version 20190726. Earth System Grid
-        Federation. https://doi.org/10.22033/ESGF/CMIP6.1407\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > John, Jasmin G; Blanton, Chris; McHugh, Colleen; Radhakrishnan, Aparna;
-        Rand, Kristopher; Vahlenkamp, Hans; Wilson, Chandin; Zadeh, Niki T.; Dunne,
-        John P.; Dussin, Raphael; Horowitz, Larry W.; Krasting, John P.; Lin, Pu;
-        Malyshev, Sergey; Naik, Vaishali; Ploshay, Jeffrey; Shevliakova, Elena; Silvers,
-        Levi; Stock, Charles; Winton, Michael; Zeng, Yujin **(2018)**. *NOAA-GFDL
-        GFDL-ESM4 model output prepared for CMIP6 ScenarioMIP*. Version 20180701.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1414\\n\\n\\n*
-        **HadGEM3-GC31-LL**\\n\\n  License description: [data_licenses/HadGEM3-GC31-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/HadGEM3-GC31-LL.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Ridley, Jeff; Menary, Matthew; Kuhlbrodt, Till;
-        Andrews, Martin; Andrews, Tim **(2018)**. *MOHC HadGEM3-GC31-LL model output
-        prepared for CMIP6 CMIP*. Version 20190624. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.419\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Good, Peter **(2019)**. *MOHC HadGEM3-GC31-LL model output prepared for
-        CMIP6 ScenarioMIP*. SSP1-2.6 version 20200114; SSP2-4.5 version 20190908;
-        SSP5-8.5 version 20200114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.10845\\n\\n\\n*
-        **MIROC-ES2L**\\n\\n  License description: [data_licenses/MIROC-ES2L.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC-ES2L.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Hajima, Tomohiro; Abe, Manabu; Arakawa, Osamu; Suzuki,
-        Tatsuo; Komuro, Yoshiki; Ogura, Tomoo; Ogochi, Koji; Watanabe, Michio; Yamamoto,
-        Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito, Akinori; Yamazaki,
-        Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya, Michio; Tachiiri,
-        Kaoru **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 CMIP*.
-        Version 20191129. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.902\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Tachiiri, Kaoru; Abe, Manabu; Hajima, Tomohiro;
-        Arakawa, Osamu; Suzuki, Tatsuo; Komuro, Yoshiki; Ogochi, Koji; Watanabe, Michio;
-        Yamamoto, Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito,
-        Akinori; Yamazaki, Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya,
-        Michio **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 ScenarioMIP*.
-        Version 20200318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.936\\n\\n\\n*
-        **MIROC6**\\n\\n  License description: [data_licenses/MIROC6.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC6.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Tatebe, Hiroaki; Watanabe, Masahiro **(2018)**.
-        *MIROC MIROC6 model output prepared for CMIP6 CMIP*. Version 20191016. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.881\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Shiogama, Hideo; Abe, Manabu; Tatebe, Hiroaki **(2019)**.
-        *MIROC MIROC6 model output prepared for CMIP6 ScenarioMIP*. Version 20191016.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.898\\n\\n\\n*
-        **MPI-ESM1-2-HR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-HR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-HR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Jungclaus, Johann; Bittner, Matthias; Wieners, Karl-Hermann;
-        Wachsmann, Fabian; Schupfner, Martin; Legutke, Stephanie; Giorgetta, Marco;
-        Reick, Christian; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz,
-        Thomas; Esch, Monika; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens,
-        J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina;
-        Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster,
-        Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem;
-        Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
-        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
-        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
-        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
-        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-HR model output prepared
-        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.741\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Schupfner, Martin; Wieners, Karl-Hermann;
-        Wachsmann, Fabian; Steger, Christian; Bittner, Matthias; Jungclaus, Johann;
-        Fr\xFCh, Barbara; Pankatz, Klaus; Giorgetta, Marco; Reick, Christian; Legutke,
-        Stephanie; Esch, Monika; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp;
-        Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens, J\xF6rg;
-        Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina; Fiedler,
-        Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster, Silvia;
-        Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem; Matei, Daniela;
-        Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang;
-        Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten; Pincus, Robert; Pohlmann,
-        Holger; Pongratz, Julia; Rast, Sebastian; Schmidt, Hauke; Schnur, Reiner;
-        Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich
-        **(2019)**. *DKRZ MPI-ESM1.2-HR model output prepared for CMIP6 ScenarioMIP*.
-        Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2450\\n\\n\\n*
-        **MPI-ESM1-2-LR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-LR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco; Jungclaus,
-        Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Legutke, Stephanie;
-        Schupfner, Martin; Wachsmann, Fabian; Gayler, Veronika; Haak, Helmuth; de
-        Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song;
-        Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast,
-        Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas;
-        Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke,
-        Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
-        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
-        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
-        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
-        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR model output prepared
-        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.742\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco;
-        Jungclaus, Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Gayler,
-        Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten;
-        von Storch, Jin-Song; Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin;
-        Crueger, Traute; Fast, Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger,
-        Cathy; Jahns, Thomas; Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh,
-        Luis; Marotzke, Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz,
-        Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von
-        Gehlen, Karsten; Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast,
-        Sebastian; Schmidt, Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina;
-        Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR
-        model output prepared for CMIP6 ScenarioMIP*. Version 20190710. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.793\\n\\n\\n* **NESM3**\\n\\n
-        \ License description: [data_licenses/NESM3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NESM3.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Cao, Jian; Wang, Bin **(2019)**. *NUIST NESMv3 model
-        output prepared for CMIP6 CMIP*. Version 20190812. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.2021\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Cao, Jian **(2019)**. *NUIST NESMv3 model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20190806; SSP2-4.5 version 20190805; SSP5-8.5 version 20190811.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2027\\n\\n\\n*
-        **NorESM2-LM**\\n\\n  License description: [data_licenses/NorESM2-LM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-LM.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk
-        Jan Leo; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
-        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
-        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
-        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
-        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
-        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
-        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-LM model
-        output prepared for CMIP6 CMIP*. Version 20190815. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.502\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Toniazzo, Thomas;
-        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
-        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
-        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
-        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
-        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
-        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
-        Michael **(2019)**. *NCC NorESM2-LM model output prepared for CMIP6 ScenarioMIP*.
-        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.604\\n\\n\\n*
-        **NorESM2-MM**\\n\\n  License description: [data_licenses/NorESM2-MM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-MM.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland,
-        \xD8yvind; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
-        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
-        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
-        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
-        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
-        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
-        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-MM model
-        output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.506\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland, \xD8yvind; Toniazzo, Thomas;
-        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
-        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
-        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
-        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
-        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
-        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
-        Michael **(2019)**. *NCC NorESM2-MM model output prepared for CMIP6 ScenarioMIP*.
-        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.608\\n\\n\\n*
-        **UKESM1-0-LL**\\n\\n  License description: [data_licenses/UKESM1-0-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/UKESM1-0-LL.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Tang, Yongming; Rumbold, Steve; Ellis, Rich; Kelley,
-        Douglas; Mulcahy, Jane; Sellar, Alistair; Walton, Jeremy; Jones, Colin **(2019)**.
-        *MOHC UKESM1.0-LL model output prepared for CMIP6 CMIP*. Version 20190627.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1569\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Good, Peter; Sellar, Alistair; Tang, Yongming;
-        Rumbold, Steve; Ellis, Rich; Kelley, Douglas; Kuhlbrodt, Till; Walton, Jeremy
-        **(2019)**. *MOHC UKESM1.0-LL model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20190708; SSP2-4.5 version 20190715; SSP3-7.0 version 20190726;
-        SSP5-8.5 version 20190726. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1567\\n\\n\\n*
-        **CanESM5**\\n\\n  License description: [data_licenses/CanESM5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CanESM5.txt).
-        Note: this dataset was previously licensed\\n  under CC BY-SA 4.0, but was
-        relicensed as CC BY 4.0 in March, 2023.\\n\\n  CMIP Citation:\\n\\n  > Swart,
-        Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav V.; Lazare, Mike; Scinocca,
-        John F.; Gillett, Nathan P.; Anstey, James; Arora, Vivek; Christian, James
-        R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad; Saenko, Oleg A.; Seiler,
-        Christian; Seinen, Clint; Shao, Andrew; Solheim, Larry; von Salzen, Knut;
-        Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**. *CCCma CanESM5 model
-        output prepared for CMIP6 CMIP*. Version 20190429. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.1303\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Swart, Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav V.; Lazare,
-        Mike; Scinocca, John F.; Gillett, Nathan P.; Anstey, James; Arora, Vivek;
-        Christian, James R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad; Saenko,
-        Oleg A.; Seiler, Christian; Seinen, Clint; Shao, Andrew; Solheim, Larry; von
-        Salzen, Knut; Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**. *CCCma
-        CanESM5 model output prepared for CMIP6 ScenarioMIP*. Version 20190429. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1317\\n\\n## Acknowledgements\\n\\nThis
-        work is the result of many years worth of work by members of the [Climate
-        Impact Lab](https://impactlab.org), but would not have been possible without
-        many contributions from across the wider scientific and computing communities.\\n\\nSpecifically,
-        we would like to acknowledge the World Climate Research Programme's Working
-        Group on Coupled Modeling, which is responsible for CMIP, and we would like
-        to thank the climate modeling groups for producing and making their model
-        output available. We would particularly like to thank the modeling institutions
-        whose results are included as an input to this repository (listed above) for
-        their contributions to the CMIP6 project and for responding to and granting
-        our requests for license waivers.\\n\\nWe would also like to thank Lamont-Doherty
-        Earth Observatory, the [Pangeo Consortium](https://github.com/pangeo-data)
-        (and especially the [ESGF Cloud Data Working Group](https://pangeo-data.github.io/pangeo-cmip6-cloud/#))
-        and Google Cloud and the Google Public Datasets program for making the [CMIP6
-        Google Cloud collection](https://console.cloud.google.com/marketplace/details/noaa-public/cmip6)
-        possible. In particular we're extremely grateful to [Ryan Abernathey](https://github.com/rabernat),
-        [Naomi Henderson](https://github.com/naomi-henderson), [Charles Blackmon-Luca](https://github.com/charlesbluca),
-        [Aparna Radhakrishnan](https://github.com/aradhakrishnanGFDL), [Julius Busecke](https://github.com/jbusecke),
-        and [Charles Stern](https://github.com/cisaacstern) for the huge amount of
-        work they've done to translate the ESGF CMIP6 netCDF archives into consistently-formattted,
-        analysis-ready zarr stores on Google Cloud.\\n\\nWe're also grateful to the
-        [xclim developers](https://github.com/Ouranosinc/xclim/graphs/contributors)
-        ([DOI: 10.5281/zenodo.2795043](https://doi.org/10.5281/zenodo.2795043)), in
-        particular [Pascal Bourgault](https://github.com/aulemahal), [David Huard](https://github.com/huard),
-        and [Travis Logan](https://github.com/tlogan2000), for implementing the QDM
-        bias correction method in the xclim python package, supporting our QPLAD implementation
-        into the package, and ongoing support in integrating dask into downscaling
-        workflows. For method advice and useful conversations, we would like to thank
-        Keith Dixon, Dennis Adams-Smith, and [Joe Hamman](https://github.com/jhamman).\\n\\n##
-        Financial support\\n\\nThis research has been supported by The Rockefeller
-        Foundation and the Microsoft AI for Earth Initiative.\\n\\n## Additional links:\\n\\n*
-        CIL GDPCIR project homepage: [github.com/ClimateImpactLab/downscaleCMIP6](https://github.com/ClimateImpactLab/downscaleCMIP6)\\n*
-        Project listing on zenodo: https://doi.org/10.5281/zenodo.6403794\\n* Climate
-        Impact Lab homepage: [impactlab.org](https://impactlab.org)\",\"item_assets\":{\"pr\":{\"type\":\"application/vnd+zarr\",\"roles\":[\"data\"],\"title\":\"Precipitation\",\"description\":\"Precipitation\"},\"tasmax\":{\"type\":\"application/vnd+zarr\",\"roles\":[\"data\"],\"title\":\"Daily
-        Maximum Near-Surface Air Temperature\",\"description\":\"Daily Maximum Near-Surface
-        Air Temperature\"},\"tasmin\":{\"type\":\"application/vnd+zarr\",\"roles\":[\"data\"],\"title\":\"Daily
-        Minimum Near-Surface Air Temperature\",\"description\":\"Daily Minimum Near-Surface
-        Air Temperature\"}},\"msft:region\":\"westeurope\",\"stac_version\":\"1.0.0\",\"msft:group_id\":\"cil-gdpcir\",\"cube:variables\":{\"pr\":{\"type\":\"data\",\"unit\":\"mm
-        day-1\",\"attrs\":{\"units\":\"mm day-1\"},\"dimensions\":[\"time\",\"lat\",\"lon\"]},\"tasmax\":{\"type\":\"data\",\"unit\":\"K\",\"attrs\":{\"units\":\"K\",\"comment\":\"maximum
-        near-surface (usually, 2 meter) air temperature (add cell_method attribute
-        'time: max')\",\"long_name\":\"Daily Maximum Near-Surface Air Temperature\",\"coordinates\":\"height\",\"cell_methods\":\"area:
-        mean time: maximum (interval: 5 minutes)\",\"cell_measures\":\"area: areacella\",\"original_name\":\"TREFHTMX\",\"standard_name\":\"air_temperature\"},\"dimensions\":[\"time\",\"lat\",\"lon\"],\"description\":\"Daily
-        Maximum Near-Surface Air Temperature\"},\"tasmin\":{\"type\":\"data\",\"unit\":\"K\",\"attrs\":{\"units\":\"K\",\"comment\":\"minimum
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-        World Climate Research Programme's [6th Coupled Model Intercomparison Project
-        (CMIP6)](https://www.wcrp-climate.org/wgcm-cmip/wgcm-cmip6) represents an
-        enormous advance in the quality, detail, and scope of climate modeling.\\n\\nThe
-        [Global Downscaled Projections for Climate Impacts Research](https://github.com/ClimateImpactLab/downscaleCMIP6)
-        dataset makes this modeling more applicable to understanding the impacts of
-        changes in the climate on humans and society with two key developments: trend-preserving
-        bias correction and downscaling. In this dataset, the [Climate Impact Lab](https://impactlab.org)
-        provides global, daily minimum and maximum air temperature at the surface
-        (`tasmin` and `tasmax`) and daily cumulative surface precipitation (`pr`)
-        corresponding to the CMIP6 historical, ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5
-        scenarios for 25 global climate models on a 1/4-degree regular global grid.\\n\\n##
-        Accessing the data\\n\\nGDPCIR data can be accessed on the Microsoft Planetary
-        Computer. The dataset is made of of three collections, distinguished by data
-        license:\\n* [Public domain (CC0-1.0) collection](https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0)\\n*
-        [Attribution (CC BY 4.0) collection](https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by)\\n\\nEach
-        modeling center with bias corrected and downscaled data in this collection
-        falls into one of these license categories - see the [table below](/dataset/cil-gdpcir-cc-by#available-institutions-models-and-scenarios-by-license-collection)
-        to see which model is in each collection, and see the section below on [Citing,
-        Licensing, and using data produced by this project](/dataset/cil-gdpcir-cc-by#citing-licensing-and-using-data-produced-by-this-project)
-        for citations and additional information about each license.\\n\\n## Data
-        format & contents\\n\\nThe data is stored as partitioned zarr stores (see
-        [https://zarr.readthedocs.io](https://zarr.readthedocs.io)), each of which
-        includes thousands of data and metadata files covering the full time span
-        of the experiment. Historical zarr stores contain just over 50 GB, while SSP
-        zarr stores contain nearly 70GB. Each store is stored as a 32-bit float, with
-        dimensions time (daily datetime), lat (float latitude), and lon (float longitude).
-        The data is chunked at each interval of 365 days and 90 degree interval of
-        latitude and longitude. Therefore, each chunk is `(365, 360, 360)`, with each
-        chunk occupying approximately 180MB in memory.\\n\\nHistorical data is daily,
-        excluding leap days, from Jan 1, 1950 to Dec 31, 2014; SSP data is daily,
-        excluding leap days, from Jan 1, 2015 to either Dec 31, 2099 or Dec 31, 2100,
-        depending on data availability in the source GCM.\\n\\nThe spatial domain
-        covers all 0.25-degree grid cells, indexed by the grid center, with grid edges
-        on the quarter-degree, using a -180 to 180 longitude convention. Thus, the
-        \u201Clon\u201D coordinate extends from -179.875 to 179.875, and the \u201Clat\u201D
-        coordinate extends from -89.875 to 89.875, with intermediate values at each
-        0.25-degree increment between (e.g. -179.875, -179.625, -179.375, etc).\\n\\n##
-        Available institutions, models, and scenarios by license collection\\n\\n|
-        Modeling institution |   Source model    |           Available experiments
-        \           |   License collection   |\\n| -------------------- | -----------------
-        | ------------------------------------------ | ---------------------- |\\n|
-        CAS                  | FGOALS-g3 [^1]    | SSP2-4.5, SSP3-7.0, and SSP5-8.5
-        \          | Public domain datasets |\\n| INM                  | INM-CM4-8
-        \        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | Public domain datasets
-        |\\n| INM                  | INM-CM5-0         | SSP1-2.6, SSP2-4.5, SSP3-7.0,
-        and SSP5-8.5 | Public domain datasets |\\n| BCC                  | BCC-CSM2-MR
-        \      | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n|
-        CMCC                 | CMCC-CM2-SR5      | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5
-        \    | CC-BY-40               |\\n| CMCC                 | CMCC-ESM2         |
-        ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-40               |\\n|
-        CSIRO-ARCCSS         | ACCESS-CM2        | SSP2-4.5 and SSP3-7.0                      |
-        CC-BY-40               |\\n| CSIRO                | ACCESS-ESM1-5     | SSP1-2.6,
-        SSP2-4.5, and SSP3-7.0           | CC-BY-40               |\\n| MIROC                |
-        MIROC-ES2L        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
-        \              |\\n| MIROC                | MIROC6            | SSP1-2.6,
-        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| MOHC                 |
-        HadGEM3-GC31-LL   | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40
-        \              |\\n| MOHC                 | UKESM1-0-LL       | SSP1-2.6,
-        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| MPI-M                |
-        MPI-ESM1-2-LR     | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
-        \              |\\n| MPI-M/DKRZ [^2]      | MPI-ESM1-2-HR     | SSP1-2.6 and
-        SSP5-8.5                      | CC-BY-40               |\\n| NCC                  |
-        NorESM2-LM        | SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40
-        \              |\\n| NCC                  | NorESM2-MM        | SSP1-2.6,
-        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| NOAA-GFDL
-        \           | GFDL-CM4          | SSP2-4.5 and SSP5-8.5                      |
-        CC-BY-40               |\\n| NOAA-GFDL            | GFDL-ESM4         | SSP1-2.6,
-        SSP2-4.5, SSP3-7.0, and SSP5-8.5 | CC-BY-40               |\\n| NUIST                |
-        NESM3             | SSP1-2.6, SSP2-4.5, and SSP5-8.5           | CC-BY-40
-        \              |\\n| EC-Earth-Consortium  | EC-Earth3         | ssp1-2.6,
-        ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40               |\\n| EC-Earth-Consortium
-        \ | EC-Earth3-AerChem | ssp370                                     | CC-BY-40
-        \              |\\n| EC-Earth-Consortium  | EC-Earth3-CC      | ssp245 and
-        ssp585                          | CC-BY-40               |\\n| EC-Earth-Consortium
-        \ | EC-Earth3-Veg     | ssp1-2.6, ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40
-        \              |\\n| EC-Earth-Consortium  | EC-Earth3-Veg-LR  | ssp1-2.6,
-        ssp2-4.5, ssp3-7.0, and ssp5-8.5 | CC-BY-40               |\\n| CCCma                |
-        CanESM5           | ssp1-2.6, ssp2-4.5, ssp3-7.0, ssp5-8.5     | CC-BY-40[^3]
-        \          |\\n\\n*Notes:*\\n\\n[^1]: At the time of running, no ssp1-2.6
-        precipitation data was available. Therefore, we provide `tasmin` and `tamax`
-        for this model and experiment, but not `pr`. All other model/experiment combinations
-        in the above table include all three variables.\\n\\n[^2]: The institution
-        which ran MPI-ESM1-2-HR\u2019s historical (CMIP) simulations is `MPI-M`, while
-        the future (ScenarioMIP) simulations were run by `DKRZ`. Therefore, the institution
-        component of `MPI-ESM1-2-HR` filepaths differ between `historical` and `SSP`
-        scenarios.\\n\\n[^3]: This dataset was previously licensed as [CC BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/),
-        but was relicensed under [CC BY 4.0](https://creativecommons.org/licenses/by/4.0)
-        in March, 2023. \\n\\n## Project methods\\n\\nThis project makes use of statistical
-        bias correction and downscaling algorithms, which are specifically designed
-        to accurately represent changes in the extremes. For this reason, we selected
-        Quantile Delta Mapping (QDM), following the method introduced by [Cannon et
-        al. (2015)](https://doi.org/10.1175/JCLI-D-14-00754.1), which preserves quantile-specific
-        trends from the GCM while fitting the full distribution for a given day-of-year
-        to a reference dataset (ERA5).\\n\\nWe then introduce a similar method tailored
-        to increase spatial resolution while preserving extreme behavior, Quantile-Preserving
-        Localized-Analog Downscaling (QPLAD).\\n\\nTogether, these methods provide
-        a robust means to handle both the central and tail behavior seen in climate
-        model output, while aligning the full distribution to a state-of-the-art reanalysis
-        dataset and providing the spatial granularity needed to study surface impacts.\\n\\nFor
-        further documentation, see [Global downscaled projections for climate impacts
-        research (GDPCIR): preserving extremes for modeling future climate impacts](https://egusphere.copernicus.org/preprints/2023/egusphere-2022-1513/)
-        (EGUsphere, 2022 [preprint]).\\n\\n## Citing, licensing, and using data produced
-        by this project\\n\\nProjects making use of the data produced as part of the
-        Climate Impact Lab Global Downscaled Projections for Climate Impacts Research
-        (CIL GDPCIR) project are requested to cite both this project and the source
-        datasets from which these results are derived. Additionally, the use of data
-        derived from some GCMs *requires* citations, and some modeling centers impose
-        licensing restrictions & requirements on derived works. See each GCM's license
-        info in the links below for more information.\\n\\n### CIL GDPCIR\\n\\nUsers
-        are requested to cite this project in derived works. Our method documentation
-        paper may be cited using the following:\\n\\n> Gergel, D. R., Malevich, S.
-        B., McCusker, K. E., Tenezakis, E., Delgado, M. T., Fish, M. A., and Kopp,
-        R. E.: Global downscaled projections for climate impacts research (GDPCIR):
-        preserving extremes for modeling future climate impacts, EGUsphere [preprint],
-        https://doi.org/10.5194/egusphere-2022-1513, 2023. \\n\\nThe code repository
-        may be cited using the following:\\n\\n> Diana Gergel, Kelly McCusker, Brewster
-        Malevich, Emile Tenezakis, Meredith Fish, Michael Delgado (2022). ClimateImpactLab/downscaleCMIP6:
-        (v1.0.0). Zenodo. https://doi.org/10.5281/zenodo.6403794\\n\\n### ERA5\\n\\nAdditionally,
-        we request you cite the historical dataset used in bias correction and downscaling,
-        ERA5. See the [ECMWF guide to citing a dataset on the Climate Data Store](https://confluence.ecmwf.int/display/CKB/How+to+acknowledge+and+cite+a+Climate+Data+Store+%28CDS%29+catalogue+entry+and+the+data+published+as+part+of+it):\\n\\n>
-        Hersbach, H, et al. The ERA5 global reanalysis. Q J R Meteorol Soc.2020; 146:
-        1999\u20132049. DOI: [10.1002/qj.3803](https://doi.org/10.1002/qj.3803)\\n>\\n>
-        Mu\xF1oz Sabater, J., (2019): ERA5-Land hourly data from 1981 to present.
-        Copernicus Climate Change Service (C3S) Climate Data Store (CDS). (Accessed
-        on June 4, 2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n>\\n>
-        Mu\xF1oz Sabater, J., (2021): ERA5-Land hourly data from 1950 to 1980. Copernicus
-        Climate Change Service (C3S) Climate Data Store (CDS). (Accessed on June 4,
-        2021), DOI: [10.24381/cds.e2161bac](https://doi.org/10.24381/cds.e2161bac)\\n\\n###
-        GCM-specific citations & licenses\\n\\nThe CMIP6 simulation data made available
-        through the Earth System Grid Federation (ESGF) are subject to Creative Commons
-        [BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/) or [BY-NC-SA
-        4.0](https://creativecommons.org/licenses/by-nc-sa/4.0/) licenses. The Climate
-        Impact Lab has reached out to each of the modeling institutions to request
-        waivers from these terms so the outputs of this project may be used with fewer
-        restrictions, and has been granted permission to release the data using the
-        licenses listed here.\\n\\n#### Public Domain Datasets\\n\\nThe following
-        bias corrected and downscaled model simulations are available in the public
-        domain using a [CC0 1.0 Universal Public Domain Declaration](https://creativecommons.org/publicdomain/zero/1.0/).
-        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc0.\\n\\n*
-        **FGOALS-g3**\\n\\n  License description: [data_licenses/FGOALS-g3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/FGOALS-g3.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output
-        prepared for CMIP6 CMIP*. Version 20190826. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.1783\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Li, Lijuan **(2019)**. *CAS FGOALS-g3 model output prepared for CMIP6
-        ScenarioMIP*. SSP1-2.6 version 20190818; SSP2-4.5 version 20190818; SSP3-7.0
-        version 20190820; SSP5-8.5 tasmax version 20190819; SSP5-8.5 tasmin version
-        20190819; SSP5-8.5 pr version 20190818. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2056\\n\\n\\n*
-        **INM-CM4-8**\\n\\n  License description: [data_licenses/INM-CM4-8.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM4-8.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
-        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
-        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
-        *INM INM-CM4-8 model output prepared for CMIP6 CMIP*. Version 20190530. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1422\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
-        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
-        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM4-8
-        model output prepared for CMIP6 ScenarioMIP*. Version 20190603. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12321\\n\\n\\n* **INM-CM5-0**\\n\\n
-        \ License description: [data_licenses/INM-CM5-0.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/INM-CM5-0.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey;
-        Lykossov, Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin,
-        Sergey; Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**.
-        *INM INM-CM5-0 model output prepared for CMIP6 CMIP*. Version 20190610. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1423\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Volodin, Evgeny; Mortikov, Evgeny; Gritsun, Andrey; Lykossov,
-        Vasily; Galin, Vener; Diansky, Nikolay; Gusev, Anatoly; Kostrykin, Sergey;
-        Iakovlev, Nikolay; Shestakova, Anna; Emelina, Svetlana **(2019)**. *INM INM-CM5-0
-        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20190619; SSP2-4.5
-        version 20190619; SSP3-7.0 version 20190618; SSP5-8.5 version 20190724. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.12322\\n\\n\\n####
-        CC-BY-4.0\\n\\nThe following bias corrected and downscaled model simulations
-        are licensed under a [Creative Commons Attribution 4.0 International License](https://creativecommons.org/licenses/by/4.0/).
-        Note that this license requires citation of the source model output (included
-        here). Please see https://creativecommons.org/licenses/by/4.0/ for more information.
-        Access the collection on Planetary Computer at https://planetarycomputer.microsoft.com/dataset/cil-gdpcir-cc-by.\\n\\n*
-        **ACCESS-CM2**\\n\\n  License description: [data_licenses/ACCESS-CM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-CM2.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler,
-        Russell; Harman, Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell,
-        Siobhan; Rashid, Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire;
-        Vohralik, Peter; Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman,
-        Roger; Dias, Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen,
-        Aidan; Savita, Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans,
-        Ben; Richards, Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon;
-        Snow, Kate; Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2
-        model output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid
-        Federation. https://doi.org/10.22033/ESGF/CMIP6.2281\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Dix, Martin; Bi, Doahua; Dobrohotoff, Peter; Fiedler, Russell; Harman,
-        Ian; Law, Rachel; Mackallah, Chloe; Marsland, Simon; O'Farrell, Siobhan; Rashid,
-        Harun; Srbinovsky, Jhan; Sullivan, Arnold; Trenham, Claire; Vohralik, Peter;
-        Watterson, Ian; Williams, Gareth; Woodhouse, Matthew; Bodman, Roger; Dias,
-        Fabio Boeira; Domingues, Catia; Hannah, Nicholas; Heerdegen, Aidan; Savita,
-        Abhishek; Wales, Scott; Allen, Chris; Druken, Kelsey; Evans, Ben; Richards,
-        Clare; Ridzwan, Syazwan Mohamed; Roberts, Dale; Smillie, Jon; Snow, Kate;
-        Ward, Marshall; Yang, Rui **(2019)**. *CSIRO-ARCCSS ACCESS-CM2 model output
-        prepared for CMIP6 ScenarioMIP*. Version 20191108. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.2285\\n\\n\\n* **ACCESS-ESM1-5**\\n\\n
-        \ License description: [data_licenses/ACCESS-ESM1-5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/ACCESS-ESM1-5.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew;
-        Law, Rachel; Bodman, Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter;
-        Srbinovsky, Jhan; Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan,
-        Arnold; O'Farrell, Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5
-        model output prepared for CMIP6 CMIP*. Version 20191115. Earth System Grid
-        Federation. https://doi.org/10.22033/ESGF/CMIP6.2288\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Ziehn, Tilo; Chamberlain, Matthew; Lenton, Andrew; Law, Rachel; Bodman,
-        Roger; Dix, Martin; Wang, Yingping; Dobrohotoff, Peter; Srbinovsky, Jhan;
-        Stevens, Lauren; Vohralik, Peter; Mackallah, Chloe; Sullivan, Arnold; O'Farrell,
-        Siobhan; Druken, Kelsey **(2019)**. *CSIRO ACCESS-ESM1.5 model output prepared
-        for CMIP6 ScenarioMIP*. Version 20191115. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2291\\n\\n\\n*
-        **BCC-CSM2-MR**\\n\\n  License description: [data_licenses/BCC-CSM2-MR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/BCC-CSM2-MR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Xin, Xiaoge; Zhang, Jie; Zhang, Fang; Wu, Tongwen;
-        Shi, Xueli; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang;
-        Wei, Min **(2018)**. *BCC BCC-CSM2MR model output prepared for CMIP6 CMIP*.
-        Version 20181126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1725\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Xin, Xiaoge; Wu, Tongwen; Shi, Xueli; Zhang,
-        Fang; Li, Jianglong; Chu, Min; Liu, Qianxia; Yan, Jinghui; Ma, Qiang; Wei,
-        Min **(2019)**. *BCC BCC-CSM2MR model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20190315; SSP2-4.5 version 20190318; SSP3-7.0 version 20190318;
-        SSP5-8.5 version 20190318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1732\\n\\n\\n*
-        **CMCC-CM2-SR5**\\n\\n  License description: [data_licenses/CMCC-CM2-SR5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-CM2-SR5.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC
-        CMCC-CM2-SR5 model output prepared for CMIP6 CMIP*. Version 20200616. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1362\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele **(2020)**. *CMCC CMCC-CM2-SR5
-        model output prepared for CMIP6 ScenarioMIP*. SSP1-2.6 version 20200717; SSP2-4.5
-        version 20200617; SSP3-7.0 version 20200622; SSP5-8.5 version 20200622. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1365\\n\\n\\n*
-        **CMCC-ESM2**\\n\\n  License description: [data_licenses/CMCC-ESM2.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CMCC-ESM2.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n, Momme
-        **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 CMIP*. Version
-        20210114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13164\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Lovato, Tomas; Peano, Daniele; Butensch\xF6n,
-        Momme **(2021)**. *CMCC CMCC-ESM2 model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20210126; SSP2-4.5 version 20210129; SSP3-7.0 version 20210202;
-        SSP5-8.5 version 20210126. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.13168\\n\\n\\n*
-        **EC-Earth3-AerChem**\\n\\n  License description: [data_licenses/EC-Earth3-AerChem.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-AerChem.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
-        EC-Earth3-AerChem model output prepared for CMIP6 CMIP*. Version 20200624.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.639\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
-        *EC-Earth-Consortium EC-Earth3-AerChem model output prepared for CMIP6 ScenarioMIP*.
-        Version 20200827. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.724\\n\\n\\n*
-        **EC-Earth3-CC**\\n\\n  License description: [data_licenses/EC-Earth3-CC.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-CC.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
-        EC-Earth-3-CC model output prepared for CMIP6 CMIP*. Version 20210113. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.640\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2021)**. *EC-Earth-Consortium
-        EC-Earth3-CC model output prepared for CMIP6 ScenarioMIP*. Version 20210113.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.15327\\n\\n\\n*
-        **EC-Earth3-Veg-LR**\\n\\n  License description: [data_licenses/EC-Earth3-Veg-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg-LR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**. *EC-Earth-Consortium
-        EC-Earth3-Veg-LR model output prepared for CMIP6 CMIP*. Version 20200217.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.643\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2020)**.
-        *EC-Earth-Consortium EC-Earth3-Veg-LR model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20201201; SSP2-4.5 version 20201123; SSP3-7.0 version 20201123;
-        SSP5-8.5 version 20201201. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.728\\n\\n\\n*
-        **EC-Earth3-Veg**\\n\\n  License description: [data_licenses/EC-Earth3-Veg.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3-Veg.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3-Veg model output prepared for CMIP6 CMIP*. Version 20200225. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.642\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3-Veg model output prepared for CMIP6 ScenarioMIP*. Version 20200225.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.727\\n\\n\\n*
-        **EC-Earth3**\\n\\n  License description: [data_licenses/EC-Earth3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/EC-Earth3.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3 model output prepared for CMIP6 CMIP*. Version 20200310. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.181\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > EC-Earth Consortium (EC-Earth) **(2019)**. *EC-Earth-Consortium
-        EC-Earth3 model output prepared for CMIP6 ScenarioMIP*. Version 20200310.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.251\\n\\n\\n*
-        **GFDL-CM4**\\n\\n  License description: [data_licenses/GFDL-CM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-CM4.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh,
-        Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher; Zadeh,
-        Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
-        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Bushuk, Mitchell; Dunne,
-        Krista A.; Dussin, Raphael; Gauthier, Paul PG; Ginoux, Paul; Griffies, Stephen
-        M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu; Malyshev,
-        Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay, Jeffrey;
-        Reichl, Brandon G; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew;
-        Silvers, Levi; Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair;
-        Dunne, John P.; Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly,
-        P.C.D; Shevliakova, Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**.
-        *NOAA-GFDL GFDL-CM4 model output*. Version 20180701. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.1402\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Guo, Huan; John, Jasmin G; Blanton, Chris; McHugh, Colleen; Nikonov, Serguei;
-        Radhakrishnan, Aparna; Rand, Kristopher; Zadeh, Niki T.; Balaji, V; Durachta,
-        Jeff; Dupuis, Christopher; Menzel, Raymond; Robinson, Thomas; Underwood, Seth;
-        Vahlenkamp, Hans; Dunne, Krista A.; Gauthier, Paul PG; Ginoux, Paul; Griffies,
-        Stephen M.; Hallberg, Robert; Harrison, Matthew; Hurlin, William; Lin, Pu;
-        Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter, David J; Ploshay,
-        Jeffrey; Schwarzkopf, Daniel M; Seman, Charles J; Shao, Andrew; Silvers, Levi;
-        Wyman, Bruce; Yan, Xiaoqin; Zeng, Yujin; Adcroft, Alistair; Dunne, John P.;
-        Held, Isaac M; Krasting, John P.; Horowitz, Larry W.; Milly, Chris; Shevliakova,
-        Elena; Winton, Michael; Zhao, Ming; Zhang, Rong **(2018)**. *NOAA-GFDL GFDL-CM4
-        model output prepared for CMIP6 ScenarioMIP*. Version 20180701. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.9242\\n\\n\\n* **GFDL-ESM4**\\n\\n
-        \ License description: [data_licenses/GFDL-ESM4.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/GFDL-ESM4.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Krasting, John P.; John, Jasmin G; Blanton, Chris;
-        McHugh, Colleen; Nikonov, Serguei; Radhakrishnan, Aparna; Rand, Kristopher;
-        Zadeh, Niki T.; Balaji, V; Durachta, Jeff; Dupuis, Christopher; Menzel, Raymond;
-        Robinson, Thomas; Underwood, Seth; Vahlenkamp, Hans; Dunne, Krista A.; Gauthier,
-        Paul PG; Ginoux, Paul; Griffies, Stephen M.; Hallberg, Robert; Harrison, Matthew;
-        Hurlin, William; Malyshev, Sergey; Naik, Vaishali; Paulot, Fabien; Paynter,
-        David J; Ploshay, Jeffrey; Reichl, Brandon G; Schwarzkopf, Daniel M; Seman,
-        Charles J; Silvers, Levi; Wyman, Bruce; Zeng, Yujin; Adcroft, Alistair; Dunne,
-        John P.; Dussin, Raphael; Guo, Huan; He, Jian; Held, Isaac M; Horowitz, Larry
-        W.; Lin, Pu; Milly, P.C.D; Shevliakova, Elena; Stock, Charles; Winton, Michael;
-        Wittenberg, Andrew T.; Xie, Yuanyu; Zhao, Ming **(2018)**. *NOAA-GFDL GFDL-ESM4
-        model output prepared for CMIP6 CMIP*. Version 20190726. Earth System Grid
-        Federation. https://doi.org/10.22033/ESGF/CMIP6.1407\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > John, Jasmin G; Blanton, Chris; McHugh, Colleen; Radhakrishnan, Aparna;
-        Rand, Kristopher; Vahlenkamp, Hans; Wilson, Chandin; Zadeh, Niki T.; Dunne,
-        John P.; Dussin, Raphael; Horowitz, Larry W.; Krasting, John P.; Lin, Pu;
-        Malyshev, Sergey; Naik, Vaishali; Ploshay, Jeffrey; Shevliakova, Elena; Silvers,
-        Levi; Stock, Charles; Winton, Michael; Zeng, Yujin **(2018)**. *NOAA-GFDL
-        GFDL-ESM4 model output prepared for CMIP6 ScenarioMIP*. Version 20180701.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1414\\n\\n\\n*
-        **HadGEM3-GC31-LL**\\n\\n  License description: [data_licenses/HadGEM3-GC31-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/HadGEM3-GC31-LL.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Ridley, Jeff; Menary, Matthew; Kuhlbrodt, Till;
-        Andrews, Martin; Andrews, Tim **(2018)**. *MOHC HadGEM3-GC31-LL model output
-        prepared for CMIP6 CMIP*. Version 20190624. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.419\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Good, Peter **(2019)**. *MOHC HadGEM3-GC31-LL model output prepared for
-        CMIP6 ScenarioMIP*. SSP1-2.6 version 20200114; SSP2-4.5 version 20190908;
-        SSP5-8.5 version 20200114. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.10845\\n\\n\\n*
-        **MIROC-ES2L**\\n\\n  License description: [data_licenses/MIROC-ES2L.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC-ES2L.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Hajima, Tomohiro; Abe, Manabu; Arakawa, Osamu; Suzuki,
-        Tatsuo; Komuro, Yoshiki; Ogura, Tomoo; Ogochi, Koji; Watanabe, Michio; Yamamoto,
-        Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito, Akinori; Yamazaki,
-        Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya, Michio; Tachiiri,
-        Kaoru **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 CMIP*.
-        Version 20191129. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.902\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Tachiiri, Kaoru; Abe, Manabu; Hajima, Tomohiro;
-        Arakawa, Osamu; Suzuki, Tatsuo; Komuro, Yoshiki; Ogochi, Koji; Watanabe, Michio;
-        Yamamoto, Akitomo; Tatebe, Hiroaki; Noguchi, Maki A.; Ohgaito, Rumi; Ito,
-        Akinori; Yamazaki, Dai; Ito, Akihiko; Takata, Kumiko; Watanabe, Shingo; Kawamiya,
-        Michio **(2019)**. *MIROC MIROC-ES2L model output prepared for CMIP6 ScenarioMIP*.
-        Version 20200318. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.936\\n\\n\\n*
-        **MIROC6**\\n\\n  License description: [data_licenses/MIROC6.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MIROC6.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Tatebe, Hiroaki; Watanabe, Masahiro **(2018)**.
-        *MIROC MIROC6 model output prepared for CMIP6 CMIP*. Version 20191016. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.881\\n\\n  ScenarioMIP
-        Citation:\\n\\n  > Shiogama, Hideo; Abe, Manabu; Tatebe, Hiroaki **(2019)**.
-        *MIROC MIROC6 model output prepared for CMIP6 ScenarioMIP*. Version 20191016.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.898\\n\\n\\n*
-        **MPI-ESM1-2-HR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-HR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-HR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Jungclaus, Johann; Bittner, Matthias; Wieners, Karl-Hermann;
-        Wachsmann, Fabian; Schupfner, Martin; Legutke, Stephanie; Giorgetta, Marco;
-        Reick, Christian; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz,
-        Thomas; Esch, Monika; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens,
-        J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina;
-        Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster,
-        Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem;
-        Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
-        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
-        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
-        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
-        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-HR model output prepared
-        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.741\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Schupfner, Martin; Wieners, Karl-Hermann;
-        Wachsmann, Fabian; Steger, Christian; Bittner, Matthias; Jungclaus, Johann;
-        Fr\xFCh, Barbara; Pankatz, Klaus; Giorgetta, Marco; Reick, Christian; Legutke,
-        Stephanie; Esch, Monika; Gayler, Veronika; Haak, Helmuth; de Vrese, Philipp;
-        Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song; Behrens, J\xF6rg;
-        Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast, Irina; Fiedler,
-        Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas; Kloster, Silvia;
-        Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke, Jochem; Matei, Daniela;
-        Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang;
-        Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten; Pincus, Robert; Pohlmann,
-        Holger; Pongratz, Julia; Rast, Sebastian; Schmidt, Hauke; Schnur, Reiner;
-        Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich
-        **(2019)**. *DKRZ MPI-ESM1.2-HR model output prepared for CMIP6 ScenarioMIP*.
-        Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2450\\n\\n\\n*
-        **MPI-ESM1-2-LR**\\n\\n  License description: [data_licenses/MPI-ESM1-2-LR.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/MPI-ESM1-2-LR.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco; Jungclaus,
-        Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Legutke, Stephanie;
-        Schupfner, Martin; Wachsmann, Fabian; Gayler, Veronika; Haak, Helmuth; de
-        Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten; von Storch, Jin-Song;
-        Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin; Crueger, Traute; Fast,
-        Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger, Cathy; Jahns, Thomas;
-        Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh, Luis; Marotzke,
-        Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz, Uwe; Modali, Kameswarrao;
-        M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von Gehlen, Karsten;
-        Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast, Sebastian; Schmidt,
-        Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina; Stevens, Bjorn; Voigt,
-        Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR model output prepared
-        for CMIP6 CMIP*. Version 20190710. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.742\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Wieners, Karl-Hermann; Giorgetta, Marco;
-        Jungclaus, Johann; Reick, Christian; Esch, Monika; Bittner, Matthias; Gayler,
-        Veronika; Haak, Helmuth; de Vrese, Philipp; Raddatz, Thomas; Mauritsen, Thorsten;
-        von Storch, Jin-Song; Behrens, J\xF6rg; Brovkin, Victor; Claussen, Martin;
-        Crueger, Traute; Fast, Irina; Fiedler, Stephanie; Hagemann, Stefan; Hohenegger,
-        Cathy; Jahns, Thomas; Kloster, Silvia; Kinne, Stefan; Lasslop, Gitta; Kornblueh,
-        Luis; Marotzke, Jochem; Matei, Daniela; Meraner, Katharina; Mikolajewicz,
-        Uwe; Modali, Kameswarrao; M\xFCller, Wolfgang; Nabel, Julia; Notz, Dirk; Peters-von
-        Gehlen, Karsten; Pincus, Robert; Pohlmann, Holger; Pongratz, Julia; Rast,
-        Sebastian; Schmidt, Hauke; Schnur, Reiner; Schulzweida, Uwe; Six, Katharina;
-        Stevens, Bjorn; Voigt, Aiko; Roeckner, Erich **(2019)**. *MPI-M MPIESM1.2-LR
-        model output prepared for CMIP6 ScenarioMIP*. Version 20190710. Earth System
-        Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.793\\n\\n\\n* **NESM3**\\n\\n
-        \ License description: [data_licenses/NESM3.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NESM3.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Cao, Jian; Wang, Bin **(2019)**. *NUIST NESMv3 model
-        output prepared for CMIP6 CMIP*. Version 20190812. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.2021\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Cao, Jian **(2019)**. *NUIST NESMv3 model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20190806; SSP2-4.5 version 20190805; SSP5-8.5 version 20190811.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.2027\\n\\n\\n*
-        **NorESM2-LM**\\n\\n  License description: [data_licenses/NorESM2-LM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-LM.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk
-        Jan Leo; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
-        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
-        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
-        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
-        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
-        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
-        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-LM model
-        output prepared for CMIP6 CMIP*. Version 20190815. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.502\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Seland, \xD8yvind; Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Toniazzo, Thomas;
-        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
-        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
-        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
-        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
-        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
-        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
-        Michael **(2019)**. *NCC NorESM2-LM model output prepared for CMIP6 ScenarioMIP*.
-        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.604\\n\\n\\n*
-        **NorESM2-MM**\\n\\n  License description: [data_licenses/NorESM2-MM.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/NorESM2-MM.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland,
-        \xD8yvind; Toniazzo, Thomas; Gjermundsen, Ada; Graff, Lise Seland; Debernard,
-        Jens Boldingh; Gupta, Alok Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger,
-        J\xF6rg; Tjiputra, Jerry; Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao;
-        Griesfeller, Jan; Grini, Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger
-        Helene Hafsahl; Landgren, Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum;
-        Nummelin, Aleksi; Spensberger, Clemens; Tang, Hui; Zhang, Zhongshi; Heinze,
-        Christoph; Iversen, Trond; Schulz, Michael **(2019)**. *NCC NorESM2-MM model
-        output prepared for CMIP6 CMIP*. Version 20191108. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.506\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Bentsen, Mats; Olivi\xE8, Dirk Jan Leo; Seland, \xD8yvind; Toniazzo, Thomas;
-        Gjermundsen, Ada; Graff, Lise Seland; Debernard, Jens Boldingh; Gupta, Alok
-        Kumar; He, Yanchun; Kirkev\xE5g, Alf; Schwinger, J\xF6rg; Tjiputra, Jerry;
-        Aas, Kjetil Schanke; Bethke, Ingo; Fan, Yuanchao; Griesfeller, Jan; Grini,
-        Alf; Guo, Chuncheng; Ilicak, Mehmet; Karset, Inger Helene Hafsahl; Landgren,
-        Oskar Andreas; Liakka, Johan; Moseid, Kine Onsum; Nummelin, Aleksi; Spensberger,
-        Clemens; Tang, Hui; Zhang, Zhongshi; Heinze, Christoph; Iversen, Trond; Schulz,
-        Michael **(2019)**. *NCC NorESM2-MM model output prepared for CMIP6 ScenarioMIP*.
-        Version 20191108. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.608\\n\\n\\n*
-        **UKESM1-0-LL**\\n\\n  License description: [data_licenses/UKESM1-0-LL.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/UKESM1-0-LL.txt)\\n\\n
-        \ CMIP Citation:\\n\\n  > Tang, Yongming; Rumbold, Steve; Ellis, Rich; Kelley,
-        Douglas; Mulcahy, Jane; Sellar, Alistair; Walton, Jeremy; Jones, Colin **(2019)**.
-        *MOHC UKESM1.0-LL model output prepared for CMIP6 CMIP*. Version 20190627.
-        Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1569\\n\\n
-        \ ScenarioMIP Citation:\\n\\n  > Good, Peter; Sellar, Alistair; Tang, Yongming;
-        Rumbold, Steve; Ellis, Rich; Kelley, Douglas; Kuhlbrodt, Till; Walton, Jeremy
-        **(2019)**. *MOHC UKESM1.0-LL model output prepared for CMIP6 ScenarioMIP*.
-        SSP1-2.6 version 20190708; SSP2-4.5 version 20190715; SSP3-7.0 version 20190726;
-        SSP5-8.5 version 20190726. Earth System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1567\\n\\n*
-        **CanESM5**\\n\\n  License description: [data_licenses/CanESM5.txt](https://raw.githubusercontent.com/ClimateImpactLab/downscaleCMIP6/master/data_licenses/CanESM5.txt).
-        Note: this dataset was previously licensed\\n  under CC BY-SA 4.0, but was
-        relicensed as CC BY 4.0 in March, 2023.\\n\\n  CMIP Citation:\\n\\n  > Swart,
-        Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav V.; Lazare, Mike; Scinocca,
-        John F.; Gillett, Nathan P.; Anstey, James; Arora, Vivek; Christian, James
-        R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad; Saenko, Oleg A.; Seiler,
-        Christian; Seinen, Clint; Shao, Andrew; Solheim, Larry; von Salzen, Knut;
-        Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**. *CCCma CanESM5 model
-        output prepared for CMIP6 CMIP*. Version 20190429. Earth System Grid Federation.
-        https://doi.org/10.22033/ESGF/CMIP6.1303\\n\\n  ScenarioMIP Citation:\\n\\n
-        \ > Swart, Neil Cameron; Cole, Jason N.S.; Kharin, Viatcheslav V.; Lazare,
-        Mike; Scinocca, John F.; Gillett, Nathan P.; Anstey, James; Arora, Vivek;
-        Christian, James R.; Jiao, Yanjun; Lee, Warren G.; Majaess, Fouad; Saenko,
-        Oleg A.; Seiler, Christian; Seinen, Clint; Shao, Andrew; Solheim, Larry; von
-        Salzen, Knut; Yang, Duo; Winter, Barbara; Sigmond, Michael **(2019)**. *CCCma
-        CanESM5 model output prepared for CMIP6 ScenarioMIP*. Version 20190429. Earth
-        System Grid Federation. https://doi.org/10.22033/ESGF/CMIP6.1317\\n\\n## Acknowledgements\\n\\nThis
-        work is the result of many years worth of work by members of the [Climate
-        Impact Lab](https://impactlab.org), but would not have been possible without
-        many contributions from across the wider scientific and computing communities.\\n\\nSpecifically,
-        we would like to acknowledge the World Climate Research Programme's Working
-        Group on Coupled Modeling, which is responsible for CMIP, and we would like
-        to thank the climate modeling groups for producing and making their model
-        output available. We would particularly like to thank the modeling institutions
-        whose results are included as an input to this repository (listed above) for
-        their contributions to the CMIP6 project and for responding to and granting
-        our requests for license waivers.\\n\\nWe would also like to thank Lamont-Doherty
-        Earth Observatory, the [Pangeo Consortium](https://github.com/pangeo-data)
-        (and especially the [ESGF Cloud Data Working Group](https://pangeo-data.github.io/pangeo-cmip6-cloud/#))
-        and Google Cloud and the Google Public Datasets program for making the [CMIP6
-        Google Cloud collection](https://console.cloud.google.com/marketplace/details/noaa-public/cmip6)
-        possible. In particular we're extremely grateful to [Ryan Abernathey](https://github.com/rabernat),
-        [Naomi Henderson](https://github.com/naomi-henderson), [Charles Blackmon-Luca](https://github.com/charlesbluca),
-        [Aparna Radhakrishnan](https://github.com/aradhakrishnanGFDL), [Julius Busecke](https://github.com/jbusecke),
-        and [Charles Stern](https://github.com/cisaacstern) for the huge amount of
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-        workflows. For method advice and useful conversations, we would like to thank
-        Keith Dixon, Dennis Adams-Smith, and [Joe Hamman](https://github.com/jhamman).\\n\\n##
-        Financial support\\n\\nThis research has been supported by The Rockefeller
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-        CIL GDPCIR project homepage: [github.com/ClimateImpactLab/downscaleCMIP6](https://github.com/ClimateImpactLab/downscaleCMIP6)\\n*
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-        oblique channel S2","center_wavelength":0.659,"full_width_half_max":0.02},{"name":"SYN24","description":"SLSTR
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-        Collection provides the Sentinel-3 [Synergy Level-2 Land Surface Reflectance
-        and Aerosol](https://sentinels.copernicus.eu/web/sentinel/user-guides/sentinel-3-synergy/product-types/level-2-syn)
-        product, which contains data on Surface Directional Reflectance, Aerosol Optical
-        Thickness, and an Angstrom coefficient estimate over land.\n\n## Data Files\n\nIndividual
-        NetCDF files for the following variables:\n\n- Surface Directional Reflectance
-        (SDR) with their associated error estimates for the sun-reflective [SLSTR](https://sentinels.copernicus.eu/web/sentinel/user-guides/sentinel-3-slstr)
-        channels (S1 to S6 for both nadir and oblique views, except S4) and for all
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-        water vapor bands Oa19 and Oa20.\n- Aerosol optical thickness at 550nm with
-        error estimates.\n- Angstrom coefficient at 550nm.\n\nMore information about
-        the product and data processing can be found in the [User Guide](https://sentinels.copernicus.eu/web/sentinel/user-guides/sentinel-3-synergy/product-types/level-2-syn)
-        and [Technical Guide](https://sentinel.esa.int/web/sentinel/technical-guides/sentinel-3-synergy/level-2/syn-level-2-product).\n\nThis
-        Collection contains Level-2 data in NetCDF files from September 2018 to present.\n","item_assets":{"time":{"type":"application/x-netcdf","roles":["data"],"description":"Time
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diff --git a/tests/test_client.py b/tests/test_client.py
index 9cd1ce82..35548849 100644
--- a/tests/test_client.py
+++ b/tests/test_client.py
@@ -744,8 +744,9 @@ def test_get_items_recursion_collections_required_without_ids() -> None:
     when searching
     """
     client = Client.open(
-        "https://planetarycomputer.microsoft.com/api/stac/v1/",
+        "https://earth-search.aws.element84.com/v0",
     )
+    client.add_conforms_to("ITEM_SEARCH")
     next(client.get_items())
 
 

From a0ebc89f4f9387441fe115c85ccd3c773a55bbb6 Mon Sep 17 00:00:00 2001
From: mishaschwartz <4380924+mishaschwartz@users.noreply.github.com>
Date: Tue, 20 May 2025 14:49:59 -0400
Subject: [PATCH 8/9] test update

---
 ...sion_collections_required_without_ids.yaml | 840 +++++++++++++-----
 tests/test_client.py                          |   3 +-
 2 files changed, 595 insertions(+), 248 deletions(-)

diff --git a/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml b/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml
index 2e151d92..d559fb84 100644
--- a/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml
+++ b/tests/cassettes/test_client/test_get_items_recursion_collections_required_without_ids.yaml
@@ -11,38 +11,54 @@ interactions:
       User-Agent:
       - python-requests/2.32.3
     method: GET
-    uri: https://earth-search.aws.element84.com/v0
+    uri: https://stac.sage.uvt.ro/
   response:
     body:
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diff --git a/tests/test_client.py b/tests/test_client.py
index 35548849..db1f3ab2 100644
--- a/tests/test_client.py
+++ b/tests/test_client.py
@@ -744,9 +744,8 @@ def test_get_items_recursion_collections_required_without_ids() -> None:
     when searching
     """
     client = Client.open(
-        "https://earth-search.aws.element84.com/v0",
+        "https://stac.sage.uvt.ro/",
     )
-    client.add_conforms_to("ITEM_SEARCH")
     next(client.get_items())
 
 

From 8a268d22c6b0b3be2236bf0621d2033155388b3e Mon Sep 17 00:00:00 2001
From: mishaschwartz <4380924+mishaschwartz@users.noreply.github.com>
Date: Wed, 21 May 2025 15:46:15 -0400
Subject: [PATCH 9/9] make default False

---
 pystac_client/client.py | 6 +++---
 tests/test_client.py    | 2 +-
 2 files changed, 4 insertions(+), 4 deletions(-)

diff --git a/pystac_client/client.py b/pystac_client/client.py
index 1665baac..f446a937 100644
--- a/pystac_client/client.py
+++ b/pystac_client/client.py
@@ -443,14 +443,14 @@ def get_collections(self) -> Iterator[Collection]:
                 call_modifier(self.modifier, collection)
                 yield collection
 
-    def get_items(self, *ids: str, recursive: bool = True) -> Iterator["Item_Type"]:
+    def get_items(self, *ids: str, recursive: bool = False) -> Iterator["Item_Type"]:
         """Return all items of this catalog.
 
         Args:
             ids: Zero or more item ids to find.
             recursive : If True, search this catalog and all children for the
                 item; otherwise, only search the items of this catalog. Defaults
-                to True.
+                to False.
 
         Return:
             Iterator[Item]: Iterator of items whose parent is this
@@ -481,7 +481,7 @@ def get_all_items(self) -> Iterator["Item_Type"]:
                 catalogs or collections connected to this catalog through
                 child links.
         """
-        yield from self.get_items()
+        yield from self.get_items(recursive=True)
 
     def search(
         self,
diff --git a/tests/test_client.py b/tests/test_client.py
index db1f3ab2..0225451d 100644
--- a/tests/test_client.py
+++ b/tests/test_client.py
@@ -789,7 +789,7 @@ def test_recursion_on_fallback() -> None:
     path = "https://raw.githubusercontent.com/stac-utils/pystac/v1.9.0/docs/example-catalog/catalog.json"
     catalog = Client.from_file(path)
     with pytest.warns(FallbackToPystac):
-        next(catalog.get_items())
+        next(catalog.get_items(recursive=True))
 
 
 @pytest.mark.vcr