diff --git a/gee_catalog.json b/gee_catalog.json
index bd130d6..7e89e2c 100644
--- a/gee_catalog.json
+++ b/gee_catalog.json
@@ -114,7 +114,7 @@
         "snippet": "ee.ImageCollection('ASTER/AST_L1T_003')",
         "provider": "NASA LP DAAC at the USGS EROS Center",
         "state_date": "2000-03-04",
-        "end_date": "2024-11-02",
+        "end_date": "2024-11-03",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "aster, eos, imagery, nasa, nir, radiance, swir, terra, thermal, tir, toa, usgs, vnir",
@@ -726,7 +726,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S1_GRD')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2014-10-03",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "backscatter, copernicus, esa, eu, polarization, radar, sar, sentinel",
@@ -744,7 +744,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S2')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2015-06-27",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -56, 180, 83",
         "deprecated": true,
         "keywords": "copernicus, esa, eu, msi, radiance, sentinel",
@@ -762,7 +762,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S2_CLOUD_PROBABILITY')",
         "provider": "European Union/ESA/Copernicus/SentinelHub",
         "state_date": "2015-06-27",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -56, 180, 83",
         "deprecated": false,
         "keywords": "cloud, copernicus, esa, eu, msi, radiance, sentinel, sentinelhub",
@@ -780,7 +780,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S2_HARMONIZED')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2015-06-27",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -56, 180, 83",
         "deprecated": false,
         "keywords": "copernicus, esa, eu, msi, radiance, sentinel",
@@ -798,7 +798,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S2_SR')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2017-03-28",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -56, 180, 83",
         "deprecated": true,
         "keywords": "copernicus, esa, eu, msi, reflectance, sentinel, sr",
@@ -816,7 +816,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S2_SR_HARMONIZED')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2017-03-28",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -56, 180, 83",
         "deprecated": false,
         "keywords": "copernicus, esa, eu, msi, reflectance, sentinel, sr",
@@ -852,7 +852,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_AER_AI')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-07-10",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "aai, aerosol, air_quality, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai",
@@ -870,7 +870,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_AER_LH')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-07-10",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "aerosol, air_quality, alh, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai",
@@ -888,7 +888,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_CLOUD')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-07-05",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, cloud, copernicus, dlr, esa, eu, s5p, sentinel, tropomi",
@@ -906,7 +906,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_CO')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-11-22",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, carbon_monoxide, copernicus, esa, eu, knmi, pollution, s5p, sentinel, sron, tropomi",
@@ -924,7 +924,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_HCHO')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-10-02",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, bira, copernicus, dlr, esa, eu, formaldehyde, hcho, pollution, s5p, sentinel, tropomi",
@@ -942,7 +942,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_NO2')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-07-10",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, copernicus, esa, eu, knmi, nitrogen_dioxide, no2, pollution, s5p, sentinel, tropomi",
@@ -960,7 +960,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_O3')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-07-10",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, copernicus, esa, eu, o3, ozone, pollution, s5p, sentinel, tropomi",
@@ -978,7 +978,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_SO2')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-07-10",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, bira, copernicus, dlr, esa, eu, pollution, s5p, sentinel, so2, sulfur_dioxide, tropomi",
@@ -996,7 +996,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_AER_AI')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-07-04",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "aai, aerosol, air_quality, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai",
@@ -1014,7 +1014,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_AER_LH')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-07-04",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "aerosol, air_quality, alh, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai",
@@ -1032,7 +1032,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_CH4')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2019-02-08",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, copernicus, esa, eu, knmi, methane, s5p, sentinel, sron, tropomi",
@@ -1050,7 +1050,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_CLOUD')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-07-04",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, cloud, copernicus, dlr, esa, eu, s5p, sentinel, tropomi",
@@ -1068,7 +1068,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_CO')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-06-28",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, carbon_monoxide, copernicus, esa, eu, knmi, pollution, s5p, sentinel, sron, tropomi",
@@ -1086,7 +1086,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_HCHO')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-12-05",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, bira, copernicus, dlr, esa, eu, formaldehyde, hcho, pollution, s5p, sentinel, tropomi",
@@ -1104,7 +1104,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_NO2')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-06-28",
-        "end_date": "2024-10-25",
+        "end_date": "2024-10-26",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, copernicus, esa, eu, knmi, nitrogen_dioxide, no2, pollution, s5p, sentinel, tropomi",
@@ -1122,7 +1122,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_O3')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-09-08",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, copernicus, esa, eu, o3, ozone, pollution, s5p, sentinel, tropomi",
@@ -1140,7 +1140,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_O3_TCL')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-04-30",
-        "end_date": "2024-10-19",
+        "end_date": "2024-10-20",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, copernicus, esa, eu, o3, ozone, pollution, s5p, sentinel, tropomi",
@@ -1158,7 +1158,7 @@
         "snippet": "ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_SO2')",
         "provider": "European Union/ESA/Copernicus",
         "state_date": "2018-12-05",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "air_quality, bira, copernicus, dlr, esa, eu, pollution, s5p, sentinel, so2, sulfur_dioxide, tropomi",
@@ -1572,7 +1572,7 @@
         "snippet": "ee.ImageCollection('ECMWF/CAMS/NRT')",
         "provider": "European Centre for Medium-Range Weather Forecasts (ECMWF)",
         "state_date": "2016-06-22",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "aerosol, atmosphere, climate, copernicus, ecmwf, forecast, particulate_matter",
@@ -1626,7 +1626,7 @@
         "snippet": "ee.ImageCollection('ECMWF/ERA5_LAND/DAILY_AGGR')",
         "provider": "Daily Aggregates: Google and Copernicus Climate Data Store",
         "state_date": "1950-01-02",
-        "end_date": "2024-10-27",
+        "end_date": "2024-10-28",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "cds, climate, copernicus, ecmwf, era5_land, evaporation, heat, lakes, precipitation, pressure, radiation, reanalysis, runoff, snow, soil_water, temperature, vegetation, wind",
@@ -1644,7 +1644,7 @@
         "snippet": "ee.ImageCollection('ECMWF/ERA5_LAND/HOURLY')",
         "provider": "Copernicus Climate Data Store",
         "state_date": "1950-01-01",
-        "end_date": "2024-10-28",
+        "end_date": "2024-10-29",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "cds, climate, copernicus, ecmwf, era5_land, evaporation, heat, lakes, precipitation, pressure, radiation, reanalysis, runoff, snow, soil_water, temperature, vegetation, wind",
@@ -2400,7 +2400,7 @@
         "snippet": "ee.ImageCollection('FIRMS')",
         "provider": "NASA / LANCE / EOSDIS",
         "state_date": "2000-11-01",
-        "end_date": "2024-11-02",
+        "end_date": "2024-11-03",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "eosdis, fire, firms, geophysical, hotspot, lance, modis, nasa, thermal",
@@ -2688,7 +2688,7 @@
         "snippet": "ee.ImageCollection('GOOGLE/CLOUD_SCORE_PLUS/V1/S2_HARMONIZED')",
         "provider": "Google Earth Engine",
         "state_date": "2015-06-27",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "google, cloud, sentinel2_derived",
@@ -2706,7 +2706,7 @@
         "snippet": "ee.ImageCollection('GOOGLE/DYNAMICWORLD/V1')",
         "provider": "World Resources Institute",
         "state_date": "2015-06-27",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "global, google, landcover, landuse, nrt, sentinel2_derived",
@@ -2994,7 +2994,7 @@
         "snippet": "ee.ImageCollection('IDAHO_EPSCOR/GRIDMET')",
         "provider": "University of California Merced",
         "state_date": "1979-01-01",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-124.9, 24.9, -66.8, 49.6",
         "deprecated": false,
         "keywords": "climate, fireburning, gridmet, humidity, merced, metdata, nfdrs, precipitation, radiation, temperature, wind",
@@ -3750,7 +3750,7 @@
         "snippet": "ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LAI/V3')",
         "provider": "Global Change Observation Mission (GCOM)",
         "state_date": "2021-11-29",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, g_portal, gcom, gcom_c, jaxa, lai, land, leaf_area_index",
@@ -3804,7 +3804,7 @@
         "snippet": "ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LST/V3')",
         "provider": "Global Change Observation Mission (GCOM)",
         "state_date": "2021-11-29",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, g_portal, gcom, gcom_c, jaxa, land, land_surface_temperature, lst",
@@ -3858,7 +3858,7 @@
         "snippet": "ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/CHLA/V3')",
         "provider": "Global Change Observation Mission (GCOM)",
         "state_date": "2021-11-29",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "chla, chlorophyll_a, climate, g_portal, gcom, gcom_c, jaxa, ocean, ocean_color",
@@ -3912,7 +3912,7 @@
         "snippet": "ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/SST/V3')",
         "provider": "Global Change Observation Mission (GCOM)",
         "state_date": "2021-11-29",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, g_portal, gcom, gcom_c, jaxa, ocean, sea_surface_temperature, sst",
@@ -3930,7 +3930,7 @@
         "snippet": "ee.ImageCollection('JAXA/GPM_L3/GSMaP/v6/operational')",
         "provider": "JAXA Earth Observation Research Center",
         "state_date": "2014-03-01",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -60, 180, 60",
         "deprecated": false,
         "keywords": "climate, geophysical, gpm, hourly, jaxa, precipitation, weather",
@@ -3966,7 +3966,7 @@
         "snippet": "ee.ImageCollection('JAXA/GPM_L3/GSMaP/v7/operational')",
         "provider": "JAXA Earth Observation Research Center",
         "state_date": "2014-03-01",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -60, 180, 60",
         "deprecated": false,
         "keywords": "climate, geophysical, gpm, hourly, jaxa, precipitation, weather",
@@ -3984,7 +3984,7 @@
         "snippet": "ee.ImageCollection('JAXA/GPM_L3/GSMaP/v8/operational')",
         "provider": "JAXA Earth Observation Research Center",
         "state_date": "1998-01-01",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -60, 180, 60",
         "deprecated": false,
         "keywords": "climate, geophysical, gpm, hourly, jaxa, precipitation, weather",
@@ -5496,7 +5496,7 @@
         "snippet": "ee.ImageCollection('LANDSAT/LC08/C02/T1_RT')",
         "provider": "USGS",
         "state_date": "2013-03-18",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "c2, global, l8, landsat, lc8, nrt, oli_tirs, radiance, rt, t1, tier1, usgs",
@@ -5514,7 +5514,7 @@
         "snippet": "ee.ImageCollection('LANDSAT/LC08/C02/T1_RT_TOA')",
         "provider": "USGS/Google",
         "state_date": "2013-03-18",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "c2, global, l8, landsat, lc8, toa, usgs",
@@ -5604,7 +5604,7 @@
         "snippet": "ee.ImageCollection('LANDSAT/LC09/C02/T1')",
         "provider": "USGS",
         "state_date": "2021-10-31",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "c2, global, l9, landsat, lc9, oli_tirs, radiance, t1, tier1, usgs",
@@ -5622,7 +5622,7 @@
         "snippet": "ee.ImageCollection('LANDSAT/LC09/C02/T1_L2')",
         "provider": "USGS",
         "state_date": "2021-10-31",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "cfmask, cloud, fmask, global, l9sr, landsat, lasrc, lc09, lst, reflectance, sr, usgs",
@@ -5640,7 +5640,7 @@
         "snippet": "ee.ImageCollection('LANDSAT/LC09/C02/T1_TOA')",
         "provider": "USGS/Google",
         "state_date": "2021-10-31",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "c2, global, landsat, toa, usgs",
@@ -5658,7 +5658,7 @@
         "snippet": "ee.ImageCollection('LANDSAT/LC09/C02/T2')",
         "provider": "USGS",
         "state_date": "2021-11-02",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "c2, global, l9, landsat, lc9, oli_tirs, radiance, t2, tier2, usgs",
@@ -5676,7 +5676,7 @@
         "snippet": "ee.ImageCollection('LANDSAT/LC09/C02/T2_L2')",
         "provider": "USGS",
         "state_date": "2021-10-31",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "cfmask, cloud, fmask, global, l9sr, landsat, lasrc, lc09, lst, reflectance, sr, usgs",
@@ -5694,7 +5694,7 @@
         "snippet": "ee.ImageCollection('LANDSAT/LC09/C02/T2_TOA')",
         "provider": "USGS/Google",
         "state_date": "2021-11-02",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "c2, global, l9, landsat, lc9, toa, usgs",
@@ -7908,7 +7908,7 @@
         "snippet": "ee.ImageCollection('MODIS/061/MOD10A1')",
         "provider": "NASA NSIDC DAAC at CIRES",
         "state_date": "2000-02-24",
-        "end_date": "2024-10-31",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "albedo, daily, geophysical, global, mod10a1, modis, nasa, nsidc, snow, terra",
@@ -8394,7 +8394,7 @@
         "snippet": "ee.ImageCollection('MODIS/061/MYD10A1')",
         "provider": "NASA NSIDC DAAC at CIRES",
         "state_date": "2002-07-04",
-        "end_date": "2024-10-31",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "albedo, aqua, daily, geophysical, global, modis, myd10a1, nasa, nsidc, snow",
@@ -8538,7 +8538,7 @@
         "snippet": "ee.ImageCollection('MODIS/061/MYD14A1')",
         "provider": "NASA LP DAAC at the USGS EROS Center",
         "state_date": "2002-07-04",
-        "end_date": "2024-10-22",
+        "end_date": "2024-10-30",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "aqua, daily, fire, global, modis, myd14a1, nasa, usgs",
@@ -9690,7 +9690,7 @@
         "snippet": "ee.ImageCollection('NASA/EMIT/L1B/RAD')",
         "provider": "NASA Jet Propulsion Laboratory",
         "state_date": "2022-08-09",
-        "end_date": "2024-11-02",
+        "end_date": "2024-11-03",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "daily, emit, nasa, radiance",
@@ -9708,7 +9708,7 @@
         "snippet": "ee.ImageCollection('NASA/EMIT/L2A/RFL')",
         "provider": "NASA Jet Propulsion Laboratory",
         "state_date": "2022-08-09",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-03",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "daily, emit, nasa, reflectance",
@@ -9798,7 +9798,7 @@
         "snippet": "ee.ImageCollection('NASA/GEOS-CF/v1/fcst/htf')",
         "provider": "NASA / GMAO",
         "state_date": "2022-10-01",
-        "end_date": "2024-11-02",
+        "end_date": "2024-11-03",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "composition, forecast, geos, gmao, nasa",
@@ -9816,7 +9816,7 @@
         "snippet": "ee.ImageCollection('NASA/GEOS-CF/v1/fcst/tavg1hr')",
         "provider": "NASA / GMAO",
         "state_date": "2022-10-01",
-        "end_date": "2024-11-02",
+        "end_date": "2024-11-03",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "composition, forecast, geos, gmao, nasa",
@@ -9834,7 +9834,7 @@
         "snippet": "ee.ImageCollection('NASA/GEOS-CF/v1/rpl/htf')",
         "provider": "NASA / GMAO",
         "state_date": "2018-01-01",
-        "end_date": "2024-11-02",
+        "end_date": "2024-11-03",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "composition, forecast, geos, gmao, nasa",
@@ -9852,7 +9852,7 @@
         "snippet": "ee.ImageCollection('NASA/GEOS-CF/v1/rpl/tavg1hr')",
         "provider": "NASA / GMAO",
         "state_date": "2018-01-01",
-        "end_date": "2024-11-02",
+        "end_date": "2024-11-03",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "composition, forecast, geos, gmao, nasa",
@@ -9996,7 +9996,7 @@
         "snippet": "ee.ImageCollection('NASA/GPM_L3/IMERG_V07')",
         "provider": "NASA GES DISC at NASA Goddard Space Flight Center",
         "state_date": "2000-06-01",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, geophysical, gpm, half_hourly, imerg, jaxa, nasa, precipitation, weather",
@@ -10320,7 +10320,7 @@
         "snippet": "ee.ImageCollection('NASA/LANCE/NOAA20_VIIRS/C2')",
         "provider": "NASA / LANCE / NOAA20_VIIRS",
         "state_date": "2023-10-08",
-        "end_date": "2024-11-02",
+        "end_date": "2024-11-03",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "eosdis, fire, firms, geophysical, hotspot, lance, modis, nasa, thermal, viirs",
@@ -10608,7 +10608,7 @@
         "snippet": "ee.ImageCollection('NASA/SMAP/SPL3SMP_E/006')",
         "provider": "Google and NSIDC",
         "state_date": "2023-12-04",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-03",
         "bbox": "-180, -84, 180, 84",
         "deprecated": false,
         "keywords": "drought, nasa, smap, soil_moisture, surface, weather",
@@ -10626,7 +10626,7 @@
         "snippet": "ee.ImageCollection('NASA/SMAP/SPL4SMGP/007')",
         "provider": "Google and NSIDC",
         "state_date": "2015-03-31",
-        "end_date": "2024-10-31",
+        "end_date": "2024-11-02",
         "bbox": "-180, -84, 180, 84",
         "deprecated": false,
         "keywords": "drought, nasa, smap, soil_moisture, surface, weather",
@@ -10824,7 +10824,7 @@
         "snippet": "ee.ImageCollection('NCEP_RE/sea_level_pressure')",
         "provider": "NCEP",
         "state_date": "1948-01-01",
-        "end_date": "2024-10-31",
+        "end_date": "2024-11-01",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "atmosphere, climate, geophysical, ncep, noaa, pressure, reanalysis",
@@ -10842,7 +10842,7 @@
         "snippet": "ee.ImageCollection('NCEP_RE/surface_temp')",
         "provider": "NCEP",
         "state_date": "1948-01-01",
-        "end_date": "2024-10-31",
+        "end_date": "2024-11-01",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "atmosphere, climate, geophysical, ncep, noaa, reanalysis, temperature",
@@ -10860,7 +10860,7 @@
         "snippet": "ee.ImageCollection('NCEP_RE/surface_wv')",
         "provider": "NCEP",
         "state_date": "1948-01-01",
-        "end_date": "2024-10-31",
+        "end_date": "2024-11-01",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "atmosphere, climate, geophysical, ncep, noaa, precipitable, reanalysis, vapor",
@@ -11094,7 +11094,7 @@
         "snippet": "ee.ImageCollection('NOAA/CDR/OISST/V2_1')",
         "provider": "NOAA",
         "state_date": "1981-09-01",
-        "end_date": "2024-11-01",
+        "end_date": "2024-11-02",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "avhrr, cdr, daily, ice, noaa, ocean, oisst, real_time, sst, temperature",
@@ -11166,7 +11166,7 @@
         "snippet": "ee.ImageCollection('NOAA/CFSR')",
         "provider": "NOAA NWS National Centers for Environmental Prediction (NCEP)",
         "state_date": "2018-12-13",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, daylight, flux, forecast, geophysical, ncep, noaa, nws, precipitation, radiation, snow, temperature, vapor, water, weather",
@@ -11184,7 +11184,7 @@
         "snippet": "ee.ImageCollection('NOAA/CFSV2/FOR6H')",
         "provider": "NOAA NWS National Centers for Environmental Prediction (NCEP)",
         "state_date": "1979-01-01",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, daylight, flux, forecast, geophysical, ncep, noaa, nws, precipitation, radiation, snow, temperature, vapor, water, weather",
@@ -11238,7 +11238,7 @@
         "snippet": "ee.ImageCollection('NOAA/GFS0P25')",
         "provider": "NOAA/NCEP/EMC",
         "state_date": "2015-07-01",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "climate, cloud, emc, flux, forecast, geophysical, gfs, humidity, ncep, noaa, precipitation, radiation, temperature, vapor, weather, wind",
@@ -11256,7 +11256,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/16/FDCC')",
         "provider": "NOAA",
         "state_date": "2017-05-24",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-152.11, 14, -49.18, 56.77",
         "deprecated": false,
         "keywords": "abi, climate, fdc, fire, goes, goes_16, goes_east, goes_r, hotspot, nesdis, noaa, ospo, wildfire",
@@ -11274,7 +11274,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/16/FDCF')",
         "provider": "NOAA",
         "state_date": "2017-05-24",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "abi, climate, fdc, fire, goes, goes_16, goes_east, goes_r, hotspot, nesdis, noaa, ospo, wildfire",
@@ -11292,7 +11292,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/16/MCMIPC')",
         "provider": "NOAA",
         "state_date": "2017-07-10",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-152.11, 14, -49.18, 56.77",
         "deprecated": false,
         "keywords": "abi, climate, goes, goes_16, goes_east, goes_r, mcmip, nesdis, noaa, ospo, weather",
@@ -11310,7 +11310,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/16/MCMIPF')",
         "provider": "NOAA",
         "state_date": "2017-07-10",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "abi, climate, goes, goes_16, goes_east, goes_r, mcmip, nesdis, noaa, ospo, weather",
@@ -11328,7 +11328,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/16/MCMIPM')",
         "provider": "NOAA",
         "state_date": "2017-07-10",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "abi, climate, goes, goes_16, goes_east, goes_r, mcmip, nesdis, noaa, ospo, weather",
@@ -11436,7 +11436,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/18/FDCC')",
         "provider": "NOAA",
         "state_date": "2022-10-13",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, 14.57, 180, 53.51",
         "deprecated": false,
         "keywords": "abi, climate, fdc, fire, goes, goes_18, goes_t, goes_west, hotspot, nesdis, noaa, ospo, wildfire",
@@ -11454,7 +11454,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/18/FDCF')",
         "provider": "NOAA",
         "state_date": "2022-10-13",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "abi, climate, fdc, fire, goes, goes_18, goes_t, goes_west, hotspot, nesdis, noaa, ospo, wildfire",
@@ -11472,7 +11472,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/18/MCMIPC')",
         "provider": "NOAA",
         "state_date": "2018-12-04",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, 14.57, 180, 53.51",
         "deprecated": false,
         "keywords": "abi, climate, goes, goes_18, goes_t, goes_west, mcmip, nesdis, noaa, ospo, weather",
@@ -11490,7 +11490,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/18/MCMIPF')",
         "provider": "NOAA",
         "state_date": "2018-12-04",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "abi, climate, goes, goes_18, goes_t, goes_west, mcmip, nesdis, noaa, ospo, weather",
@@ -11508,7 +11508,7 @@
         "snippet": "ee.ImageCollection('NOAA/GOES/18/MCMIPM')",
         "provider": "NOAA",
         "state_date": "2018-12-04",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "abi, climate, goes, goes_18, goes_t, goes_west, mcmip, nesdis, noaa, ospo, weather",
@@ -11616,7 +11616,7 @@
         "snippet": "ee.ImageCollection('NOAA/NWS/RTMA')",
         "provider": "NOAA/NWS",
         "state_date": "2011-01-01",
-        "end_date": "2024-11-03",
+        "end_date": "2024-11-04",
         "bbox": "-130.17, 20.15, -60.81, 52.91",
         "deprecated": false,
         "keywords": "climate, cloud, geophysical, humidity, noaa, nws, precipitation, pressure, rtma, surface, temperature, visibility, weather, wind",
@@ -11994,7 +11994,7 @@
         "snippet": "ee.ImageCollection('OREGONSTATE/PRISM/AN81d')",
         "provider": "PRISM / OREGONSTATE",
         "state_date": "1981-01-01",
-        "end_date": "2024-10-31",
+        "end_date": "2024-11-01",
         "bbox": "-125, 24, -66, 50",
         "deprecated": false,
         "keywords": "climate, daily, geophysical, oregonstate, precipitation, pressure, prism, temperature, vapor, weather",
@@ -13128,7 +13128,7 @@
         "snippet": "ee.ImageCollection('TOMS/MERGED')",
         "provider": "NASA / GES DISC",
         "state_date": "1978-11-01",
-        "end_date": "2024-10-31",
+        "end_date": "2024-11-01",
         "bbox": "-180, -90, 180, 90",
         "deprecated": false,
         "keywords": "atmosphere, aura, climate, geophysical, ges_disc, goddard, nasa, omi, ozone, toms",
@@ -14784,7 +14784,7 @@
         "snippet": "ee.ImageCollection('UTOKYO/WTLAB/KBDI/v1')",
         "provider": "Institute of Industrial Science, The University of Tokyo, Japan",
         "state_date": "2007-01-01",
-        "end_date": "2024-11-02",
+        "end_date": "2024-11-03",
         "bbox": "60, -60, 180, 60",
         "deprecated": false,
         "keywords": "drought, kbdi, lst_derived, rainfall, utokyo, wtlab",
diff --git a/gee_catalog.tsv b/gee_catalog.tsv
index 3d2d231..0052c6f 100644
--- a/gee_catalog.tsv
+++ b/gee_catalog.tsv
@@ -5,7 +5,7 @@ ACA/reef_habitat/v2_0	Allen Coral Atlas (ACA) - Geomorphic Zonation and Benthic
 AHN/AHN2_05M_INT	AHN Netherlands 0.5m DEM, Interpolated	image	ee.Image('AHN/AHN2_05M_INT')	AHN	2012-01-01	2012-01-01	3.35, 50.74, 7.24, 53.55	False	ahn, dem, elevation, geophysical, lidar, netherlands	https://storage.googleapis.com/earthengine-stac/catalog/AHN/AHN_AHN2_05M_INT.json	https://developers.google.com/earth-engine/datasets/catalog/AHN_AHN2_05M_INT	CC0-1.0
 AHN/AHN2_05M_NON	AHN Netherlands 0.5m DEM, Non-Interpolated	image	ee.Image('AHN/AHN2_05M_NON')	AHN	2012-01-01	2012-01-01	3.35, 50.74, 7.24, 53.55	False	ahn, dem, elevation, geophysical, lidar, netherlands	https://storage.googleapis.com/earthengine-stac/catalog/AHN/AHN_AHN2_05M_NON.json	https://developers.google.com/earth-engine/datasets/catalog/AHN_AHN2_05M_NON	CC0-1.0
 AHN/AHN2_05M_RUW	AHN Netherlands 0.5m DEM, Raw Samples	image	ee.Image('AHN/AHN2_05M_RUW')	AHN	2012-01-01	2012-01-01	3.35, 50.74, 7.24, 53.55	False	ahn, dem, elevation, geophysical, lidar, netherlands	https://storage.googleapis.com/earthengine-stac/catalog/AHN/AHN_AHN2_05M_RUW.json	https://developers.google.com/earth-engine/datasets/catalog/AHN_AHN2_05M_RUW	CC0-1.0
-ASTER/AST_L1T_003	ASTER L1T Radiance	image_collection	ee.ImageCollection('ASTER/AST_L1T_003')	NASA LP DAAC at the USGS EROS Center	2000-03-04	2024-11-02	-180, -90, 180, 90	False	aster, eos, imagery, nasa, nir, radiance, swir, terra, thermal, tir, toa, usgs, vnir	https://storage.googleapis.com/earthengine-stac/catalog/ASTER/ASTER_AST_L1T_003.json	https://developers.google.com/earth-engine/datasets/catalog/ASTER_AST_L1T_003	proprietary
+ASTER/AST_L1T_003	ASTER L1T Radiance	image_collection	ee.ImageCollection('ASTER/AST_L1T_003')	NASA LP DAAC at the USGS EROS Center	2000-03-04	2024-11-03	-180, -90, 180, 90	False	aster, eos, imagery, nasa, nir, radiance, swir, terra, thermal, tir, toa, usgs, vnir	https://storage.googleapis.com/earthengine-stac/catalog/ASTER/ASTER_AST_L1T_003.json	https://developers.google.com/earth-engine/datasets/catalog/ASTER_AST_L1T_003	proprietary
 AU/GA/AUSTRALIA_5M_DEM	Australian 5M DEM	image_collection	ee.ImageCollection('AU/GA/AUSTRALIA_5M_DEM')	Geoscience Australia	2015-12-01	2015-12-01	114.09, -43.45, 153.64, -9.88	False	australia, dem, elevation, ga, geophysical, geoscience_australia, lidar	https://storage.googleapis.com/earthengine-stac/catalog/AU/AU_GA_AUSTRALIA_5M_DEM.json	https://developers.google.com/earth-engine/datasets/catalog/AU_GA_AUSTRALIA_5M_DEM	CC-BY-4.0
 AU/GA/DEM_1SEC/v10/DEM-H	DEM-H: Australian SRTM Hydrologically Enforced Digital Elevation Model	image	ee.Image('AU/GA/DEM_1SEC/v10/DEM-H')	Geoscience Australia	2010-02-01	2010-02-01	112.99, -44.06, 154, -9.99	False	australia, dem, elevation, ga, geophysical, geoscience_australia, smoothed, srtm	https://storage.googleapis.com/earthengine-stac/catalog/AU/AU_GA_DEM_1SEC_v10_DEM-H.json	https://developers.google.com/earth-engine/datasets/catalog/AU_GA_DEM_1SEC_v10_DEM-H	CC-BY-4.0
 AU/GA/DEM_1SEC/v10/DEM-S	DEM-S: Australian Smoothed Digital Elevation Model	image	ee.Image('AU/GA/DEM_1SEC/v10/DEM-S')	Geoscience Australia	2010-02-01	2010-02-01	112.99, -44.06, 154, -9.99	False	australia, dem, elevation, ga, geophysical, geoscience_australia, smoothed, srtm	https://storage.googleapis.com/earthengine-stac/catalog/AU/AU_GA_DEM_1SEC_v10_DEM-S.json	https://developers.google.com/earth-engine/datasets/catalog/AU_GA_DEM_1SEC_v10_DEM-S	CC-BY-4.0
@@ -39,31 +39,31 @@ COPERNICUS/CORINE/V20/100m	Copernicus CORINE Land Cover	image_collection	ee.Imag
 COPERNICUS/DEM/GLO30	Copernicus DEM GLO-30: Global 30m Digital Elevation Model	image_collection	ee.ImageCollection('COPERNICUS/DEM/GLO30')	Copernicus	2010-12-01	2015-01-31	-180, -90, 180, 90	False	copernicus, dem, elevation, geophysical	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_DEM_GLO30.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_DEM_GLO30	proprietary
 COPERNICUS/Landcover/100m/Proba-V-C3/Global	Copernicus Global Land Cover Layers: CGLS-LC100 Collection 3	image_collection	ee.ImageCollection('COPERNICUS/Landcover/100m/Proba-V-C3/Global')	Copernicus	2015-01-01	2019-12-31	-180, -90, 180, 90	False	copernicus, eea, esa, eu, landcover, proba, probav, vito	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_Landcover_100m_Proba-V-C3_Global.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_Landcover_100m_Proba-V-C3_Global	proprietary
 COPERNICUS/Landcover/100m/Proba-V/Global	Copernicus Global Land Cover Layers: CGLS-LC100 Collection 2 [deprecated]	image_collection	ee.ImageCollection('COPERNICUS/Landcover/100m/Proba-V/Global')	Copernicus	2015-01-01	2015-01-01	-180, -90, 180, 90	True	copernicus, eea, esa, eu, landcover, proba, probav, vito	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_Landcover_100m_Proba-V_Global.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_Landcover_100m_Proba-V_Global	proprietary
-COPERNICUS/S1_GRD	Sentinel-1 SAR GRD: C-band Synthetic Aperture Radar Ground Range Detected, log scaling	image_collection	ee.ImageCollection('COPERNICUS/S1_GRD')	European Union/ESA/Copernicus	2014-10-03	2024-11-01	-180, -90, 180, 90	False	backscatter, copernicus, esa, eu, polarization, radar, sar, sentinel	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S1_GRD.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S1_GRD	proprietary
-COPERNICUS/S2	Sentinel-2 MSI: MultiSpectral Instrument, Level-1C [deprecated]	image_collection	ee.ImageCollection('COPERNICUS/S2')	European Union/ESA/Copernicus	2015-06-27	2024-11-03	-180, -56, 180, 83	True	copernicus, esa, eu, msi, radiance, sentinel	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2	proprietary
-COPERNICUS/S2_CLOUD_PROBABILITY	Sentinel-2: Cloud Probability	image_collection	ee.ImageCollection('COPERNICUS/S2_CLOUD_PROBABILITY')	European Union/ESA/Copernicus/SentinelHub	2015-06-27	2024-11-03	-180, -56, 180, 83	False	cloud, copernicus, esa, eu, msi, radiance, sentinel, sentinelhub	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2_CLOUD_PROBABILITY.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2_CLOUD_PROBABILITY	proprietary
-COPERNICUS/S2_HARMONIZED	Harmonized Sentinel-2 MSI: MultiSpectral Instrument, Level-1C	image_collection	ee.ImageCollection('COPERNICUS/S2_HARMONIZED')	European Union/ESA/Copernicus	2015-06-27	2024-11-03	-180, -56, 180, 83	False	copernicus, esa, eu, msi, radiance, sentinel	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2_HARMONIZED.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2_HARMONIZED	proprietary
-COPERNICUS/S2_SR	Sentinel-2 MSI: MultiSpectral Instrument, Level-2A [deprecated]	image_collection	ee.ImageCollection('COPERNICUS/S2_SR')	European Union/ESA/Copernicus	2017-03-28	2024-11-03	-180, -56, 180, 83	True	copernicus, esa, eu, msi, reflectance, sentinel, sr	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2_SR.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2_SR	proprietary
-COPERNICUS/S2_SR_HARMONIZED	Harmonized Sentinel-2 MSI: MultiSpectral Instrument, Level-2A	image_collection	ee.ImageCollection('COPERNICUS/S2_SR_HARMONIZED')	European Union/ESA/Copernicus	2017-03-28	2024-11-03	-180, -56, 180, 83	False	copernicus, esa, eu, msi, reflectance, sentinel, sr	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2_SR_HARMONIZED.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2_SR_HARMONIZED	proprietary
+COPERNICUS/S1_GRD	Sentinel-1 SAR GRD: C-band Synthetic Aperture Radar Ground Range Detected, log scaling	image_collection	ee.ImageCollection('COPERNICUS/S1_GRD')	European Union/ESA/Copernicus	2014-10-03	2024-11-04	-180, -90, 180, 90	False	backscatter, copernicus, esa, eu, polarization, radar, sar, sentinel	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S1_GRD.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S1_GRD	proprietary
+COPERNICUS/S2	Sentinel-2 MSI: MultiSpectral Instrument, Level-1C [deprecated]	image_collection	ee.ImageCollection('COPERNICUS/S2')	European Union/ESA/Copernicus	2015-06-27	2024-11-04	-180, -56, 180, 83	True	copernicus, esa, eu, msi, radiance, sentinel	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2	proprietary
+COPERNICUS/S2_CLOUD_PROBABILITY	Sentinel-2: Cloud Probability	image_collection	ee.ImageCollection('COPERNICUS/S2_CLOUD_PROBABILITY')	European Union/ESA/Copernicus/SentinelHub	2015-06-27	2024-11-04	-180, -56, 180, 83	False	cloud, copernicus, esa, eu, msi, radiance, sentinel, sentinelhub	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2_CLOUD_PROBABILITY.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2_CLOUD_PROBABILITY	proprietary
+COPERNICUS/S2_HARMONIZED	Harmonized Sentinel-2 MSI: MultiSpectral Instrument, Level-1C	image_collection	ee.ImageCollection('COPERNICUS/S2_HARMONIZED')	European Union/ESA/Copernicus	2015-06-27	2024-11-04	-180, -56, 180, 83	False	copernicus, esa, eu, msi, radiance, sentinel	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2_HARMONIZED.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2_HARMONIZED	proprietary
+COPERNICUS/S2_SR	Sentinel-2 MSI: MultiSpectral Instrument, Level-2A [deprecated]	image_collection	ee.ImageCollection('COPERNICUS/S2_SR')	European Union/ESA/Copernicus	2017-03-28	2024-11-04	-180, -56, 180, 83	True	copernicus, esa, eu, msi, reflectance, sentinel, sr	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2_SR.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2_SR	proprietary
+COPERNICUS/S2_SR_HARMONIZED	Harmonized Sentinel-2 MSI: MultiSpectral Instrument, Level-2A	image_collection	ee.ImageCollection('COPERNICUS/S2_SR_HARMONIZED')	European Union/ESA/Copernicus	2017-03-28	2024-11-04	-180, -56, 180, 83	False	copernicus, esa, eu, msi, reflectance, sentinel, sr	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S2_SR_HARMONIZED.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S2_SR_HARMONIZED	proprietary
 COPERNICUS/S3/OLCI	Sentinel-3 OLCI EFR: Ocean and Land Color Instrument Earth Observation Full Resolution	image_collection	ee.ImageCollection('COPERNICUS/S3/OLCI')	European Union/ESA/Copernicus	2016-10-18	2024-11-01	-180, -90, 180, 90	False	copernicus, esa, eu, olci, radiance, sentinel, toa	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S3_OLCI.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S3_OLCI	proprietary
-COPERNICUS/S5P/NRTI/L3_AER_AI	Sentinel-5P NRTI AER AI: Near Real-Time UV Aerosol Index	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_AER_AI')	European Union/ESA/Copernicus	2018-07-10	2024-11-03	-180, -90, 180, 90	False	aai, aerosol, air_quality, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_AER_AI.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_AER_AI	proprietary
-COPERNICUS/S5P/NRTI/L3_AER_LH	Sentinel-5P NRTI AER LH: Near Real-Time UV Aerosol Layer Height	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_AER_LH')	European Union/ESA/Copernicus	2018-07-10	2024-11-03	-180, -90, 180, 90	False	aerosol, air_quality, alh, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_AER_LH.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_AER_LH	proprietary
-COPERNICUS/S5P/NRTI/L3_CLOUD	Sentinel-5P NRTI CLOUD: Near Real-Time Cloud	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_CLOUD')	European Union/ESA/Copernicus	2018-07-05	2024-11-03	-180, -90, 180, 90	False	climate, cloud, copernicus, dlr, esa, eu, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_CLOUD.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_CLOUD	proprietary
-COPERNICUS/S5P/NRTI/L3_CO	Sentinel-5P NRTI CO: Near Real-Time Carbon Monoxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_CO')	European Union/ESA/Copernicus	2018-11-22	2024-11-03	-180, -90, 180, 90	False	air_quality, carbon_monoxide, copernicus, esa, eu, knmi, pollution, s5p, sentinel, sron, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_CO.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_CO	proprietary
-COPERNICUS/S5P/NRTI/L3_HCHO	Sentinel-5P NRTI HCHO: Near Real-Time Formaldehyde	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_HCHO')	European Union/ESA/Copernicus	2018-10-02	2024-11-03	-180, -90, 180, 90	False	air_quality, bira, copernicus, dlr, esa, eu, formaldehyde, hcho, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_HCHO.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_HCHO	proprietary
-COPERNICUS/S5P/NRTI/L3_NO2	Sentinel-5P NRTI NO2: Near Real-Time Nitrogen Dioxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_NO2')	European Union/ESA/Copernicus	2018-07-10	2024-11-03	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, knmi, nitrogen_dioxide, no2, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_NO2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_NO2	proprietary
-COPERNICUS/S5P/NRTI/L3_O3	Sentinel-5P NRTI O3: Near Real-Time Ozone	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_O3')	European Union/ESA/Copernicus	2018-07-10	2024-11-03	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, o3, ozone, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_O3.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_O3	proprietary
-COPERNICUS/S5P/NRTI/L3_SO2	Sentinel-5P NRTI SO2: Near Real-Time Sulfur Dioxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_SO2')	European Union/ESA/Copernicus	2018-07-10	2024-11-03	-180, -90, 180, 90	False	air_quality, bira, copernicus, dlr, esa, eu, pollution, s5p, sentinel, so2, sulfur_dioxide, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_SO2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_SO2	proprietary
-COPERNICUS/S5P/OFFL/L3_AER_AI	Sentinel-5P OFFL AER AI: Offline UV Aerosol Index	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_AER_AI')	European Union/ESA/Copernicus	2018-07-04	2024-11-01	-180, -90, 180, 90	False	aai, aerosol, air_quality, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_AER_AI.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_AER_AI	proprietary
-COPERNICUS/S5P/OFFL/L3_AER_LH	Sentinel-5P OFFL AER LH: Offline UV Aerosol Layer Height	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_AER_LH')	European Union/ESA/Copernicus	2018-07-04	2024-11-01	-180, -90, 180, 90	False	aerosol, air_quality, alh, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_AER_LH.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_AER_LH	proprietary
-COPERNICUS/S5P/OFFL/L3_CH4	Sentinel-5P OFFL CH4: Offline Methane	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_CH4')	European Union/ESA/Copernicus	2019-02-08	2024-11-01	-180, -90, 180, 90	False	climate, copernicus, esa, eu, knmi, methane, s5p, sentinel, sron, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_CH4.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_CH4	proprietary
-COPERNICUS/S5P/OFFL/L3_CLOUD	Sentinel-5P OFFL CLOUD: Near Real-Time Cloud	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_CLOUD')	European Union/ESA/Copernicus	2018-07-04	2024-11-01	-180, -90, 180, 90	False	climate, cloud, copernicus, dlr, esa, eu, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_CLOUD.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_CLOUD	proprietary
-COPERNICUS/S5P/OFFL/L3_CO	Sentinel-5P OFFL CO: Offline Carbon Monoxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_CO')	European Union/ESA/Copernicus	2018-06-28	2024-11-01	-180, -90, 180, 90	False	air_quality, carbon_monoxide, copernicus, esa, eu, knmi, pollution, s5p, sentinel, sron, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_CO.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_CO	proprietary
-COPERNICUS/S5P/OFFL/L3_HCHO	Sentinel-5P OFFL HCHO: Offline Formaldehyde	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_HCHO')	European Union/ESA/Copernicus	2018-12-05	2024-11-01	-180, -90, 180, 90	False	air_quality, bira, copernicus, dlr, esa, eu, formaldehyde, hcho, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_HCHO.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_HCHO	proprietary
-COPERNICUS/S5P/OFFL/L3_NO2	Sentinel-5P OFFL NO2: Offline Nitrogen Dioxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_NO2')	European Union/ESA/Copernicus	2018-06-28	2024-10-25	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, knmi, nitrogen_dioxide, no2, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_NO2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_NO2	proprietary
-COPERNICUS/S5P/OFFL/L3_O3	Sentinel-5P OFFL O3: Offline Ozone	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_O3')	European Union/ESA/Copernicus	2018-09-08	2024-11-01	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, o3, ozone, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_O3.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_O3	proprietary
-COPERNICUS/S5P/OFFL/L3_O3_TCL	Sentinel-5P OFFL O3 TCL: Offline Tropospheric Ozone	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_O3_TCL')	European Union/ESA/Copernicus	2018-04-30	2024-10-19	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, o3, ozone, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_O3_TCL.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_O3_TCL	proprietary
-COPERNICUS/S5P/OFFL/L3_SO2	Sentinel-5P OFFL SO2: Offline Sulfur Dioxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_SO2')	European Union/ESA/Copernicus	2018-12-05	2024-11-01	-180, -90, 180, 90	False	air_quality, bira, copernicus, dlr, esa, eu, pollution, s5p, sentinel, so2, sulfur_dioxide, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_SO2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_SO2	proprietary
+COPERNICUS/S5P/NRTI/L3_AER_AI	Sentinel-5P NRTI AER AI: Near Real-Time UV Aerosol Index	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_AER_AI')	European Union/ESA/Copernicus	2018-07-10	2024-11-04	-180, -90, 180, 90	False	aai, aerosol, air_quality, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_AER_AI.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_AER_AI	proprietary
+COPERNICUS/S5P/NRTI/L3_AER_LH	Sentinel-5P NRTI AER LH: Near Real-Time UV Aerosol Layer Height	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_AER_LH')	European Union/ESA/Copernicus	2018-07-10	2024-11-04	-180, -90, 180, 90	False	aerosol, air_quality, alh, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_AER_LH.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_AER_LH	proprietary
+COPERNICUS/S5P/NRTI/L3_CLOUD	Sentinel-5P NRTI CLOUD: Near Real-Time Cloud	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_CLOUD')	European Union/ESA/Copernicus	2018-07-05	2024-11-04	-180, -90, 180, 90	False	climate, cloud, copernicus, dlr, esa, eu, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_CLOUD.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_CLOUD	proprietary
+COPERNICUS/S5P/NRTI/L3_CO	Sentinel-5P NRTI CO: Near Real-Time Carbon Monoxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_CO')	European Union/ESA/Copernicus	2018-11-22	2024-11-04	-180, -90, 180, 90	False	air_quality, carbon_monoxide, copernicus, esa, eu, knmi, pollution, s5p, sentinel, sron, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_CO.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_CO	proprietary
+COPERNICUS/S5P/NRTI/L3_HCHO	Sentinel-5P NRTI HCHO: Near Real-Time Formaldehyde	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_HCHO')	European Union/ESA/Copernicus	2018-10-02	2024-11-04	-180, -90, 180, 90	False	air_quality, bira, copernicus, dlr, esa, eu, formaldehyde, hcho, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_HCHO.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_HCHO	proprietary
+COPERNICUS/S5P/NRTI/L3_NO2	Sentinel-5P NRTI NO2: Near Real-Time Nitrogen Dioxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_NO2')	European Union/ESA/Copernicus	2018-07-10	2024-11-04	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, knmi, nitrogen_dioxide, no2, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_NO2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_NO2	proprietary
+COPERNICUS/S5P/NRTI/L3_O3	Sentinel-5P NRTI O3: Near Real-Time Ozone	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_O3')	European Union/ESA/Copernicus	2018-07-10	2024-11-04	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, o3, ozone, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_O3.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_O3	proprietary
+COPERNICUS/S5P/NRTI/L3_SO2	Sentinel-5P NRTI SO2: Near Real-Time Sulfur Dioxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/NRTI/L3_SO2')	European Union/ESA/Copernicus	2018-07-10	2024-11-04	-180, -90, 180, 90	False	air_quality, bira, copernicus, dlr, esa, eu, pollution, s5p, sentinel, so2, sulfur_dioxide, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_NRTI_L3_SO2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_NRTI_L3_SO2	proprietary
+COPERNICUS/S5P/OFFL/L3_AER_AI	Sentinel-5P OFFL AER AI: Offline UV Aerosol Index	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_AER_AI')	European Union/ESA/Copernicus	2018-07-04	2024-11-02	-180, -90, 180, 90	False	aai, aerosol, air_quality, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_AER_AI.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_AER_AI	proprietary
+COPERNICUS/S5P/OFFL/L3_AER_LH	Sentinel-5P OFFL AER LH: Offline UV Aerosol Layer Height	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_AER_LH')	European Union/ESA/Copernicus	2018-07-04	2024-11-02	-180, -90, 180, 90	False	aerosol, air_quality, alh, copernicus, esa, eu, knmi, pollution, s5p, sentinel, tropomi, uvai	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_AER_LH.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_AER_LH	proprietary
+COPERNICUS/S5P/OFFL/L3_CH4	Sentinel-5P OFFL CH4: Offline Methane	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_CH4')	European Union/ESA/Copernicus	2019-02-08	2024-11-02	-180, -90, 180, 90	False	climate, copernicus, esa, eu, knmi, methane, s5p, sentinel, sron, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_CH4.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_CH4	proprietary
+COPERNICUS/S5P/OFFL/L3_CLOUD	Sentinel-5P OFFL CLOUD: Near Real-Time Cloud	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_CLOUD')	European Union/ESA/Copernicus	2018-07-04	2024-11-02	-180, -90, 180, 90	False	climate, cloud, copernicus, dlr, esa, eu, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_CLOUD.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_CLOUD	proprietary
+COPERNICUS/S5P/OFFL/L3_CO	Sentinel-5P OFFL CO: Offline Carbon Monoxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_CO')	European Union/ESA/Copernicus	2018-06-28	2024-11-02	-180, -90, 180, 90	False	air_quality, carbon_monoxide, copernicus, esa, eu, knmi, pollution, s5p, sentinel, sron, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_CO.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_CO	proprietary
+COPERNICUS/S5P/OFFL/L3_HCHO	Sentinel-5P OFFL HCHO: Offline Formaldehyde	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_HCHO')	European Union/ESA/Copernicus	2018-12-05	2024-11-02	-180, -90, 180, 90	False	air_quality, bira, copernicus, dlr, esa, eu, formaldehyde, hcho, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_HCHO.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_HCHO	proprietary
+COPERNICUS/S5P/OFFL/L3_NO2	Sentinel-5P OFFL NO2: Offline Nitrogen Dioxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_NO2')	European Union/ESA/Copernicus	2018-06-28	2024-10-26	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, knmi, nitrogen_dioxide, no2, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_NO2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_NO2	proprietary
+COPERNICUS/S5P/OFFL/L3_O3	Sentinel-5P OFFL O3: Offline Ozone	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_O3')	European Union/ESA/Copernicus	2018-09-08	2024-11-02	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, o3, ozone, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_O3.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_O3	proprietary
+COPERNICUS/S5P/OFFL/L3_O3_TCL	Sentinel-5P OFFL O3 TCL: Offline Tropospheric Ozone	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_O3_TCL')	European Union/ESA/Copernicus	2018-04-30	2024-10-20	-180, -90, 180, 90	False	air_quality, copernicus, esa, eu, o3, ozone, pollution, s5p, sentinel, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_O3_TCL.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_O3_TCL	proprietary
+COPERNICUS/S5P/OFFL/L3_SO2	Sentinel-5P OFFL SO2: Offline Sulfur Dioxide	image_collection	ee.ImageCollection('COPERNICUS/S5P/OFFL/L3_SO2')	European Union/ESA/Copernicus	2018-12-05	2024-11-02	-180, -90, 180, 90	False	air_quality, bira, copernicus, dlr, esa, eu, pollution, s5p, sentinel, so2, sulfur_dioxide, tropomi	https://storage.googleapis.com/earthengine-stac/catalog/COPERNICUS/COPERNICUS_S5P_OFFL_L3_SO2.json	https://developers.google.com/earth-engine/datasets/catalog/COPERNICUS_S5P_OFFL_L3_SO2	proprietary
 CPOM/CryoSat2/ANTARCTICA_DEM	CryoSat-2 Antarctica 1km DEM	image	ee.Image('CPOM/CryoSat2/ANTARCTICA_DEM')	CPOM	2010-07-01	2016-07-01	-180, -88, 180, -60	False	antarctica, cpom, cryosat_2, dem, elevation, polar	https://storage.googleapis.com/earthengine-stac/catalog/CPOM/CPOM_CryoSat2_ANTARCTICA_DEM.json	https://developers.google.com/earth-engine/datasets/catalog/CPOM_CryoSat2_ANTARCTICA_DEM	proprietary
 CSIC/SPEI/2_8	SPEIbase: Standardised Precipitation-Evapotranspiration Index database, Version 2.8 [deprecated]	image_collection	ee.ImageCollection('CSIC/SPEI/2_8')	Spanish National Research Council (CSIC)	1901-01-01	2021-01-01	-180, -90, 180, 90	True	climate, climate_change, drought, evapotranspiration, global, monthly, palmer, precipitation, temperature	https://storage.googleapis.com/earthengine-stac/catalog/CSIC/CSIC_SPEI_2_8.json	https://developers.google.com/earth-engine/datasets/catalog/CSIC_SPEI_2_8	CC-BY-4.0
 CSIC/SPEI/2_9	SPEIbase: Standardised Precipitation-Evapotranspiration Index database, Version 2.9	image_collection	ee.ImageCollection('CSIC/SPEI/2_9')	Spanish National Research Council (CSIC)	1901-01-01	2023-01-01	-180, -90, 180, 90	False	climate, climate_change, drought, evapotranspiration, global, monthly, palmer, precipitation, temperature	https://storage.googleapis.com/earthengine-stac/catalog/CSIC/CSIC_SPEI_2_9.json	https://developers.google.com/earth-engine/datasets/catalog/CSIC_SPEI_2_9	CC-BY-4.0
@@ -86,11 +86,11 @@ CSP/ERGo/1_0/US/topoDiversity	US NED Topographic Diversity	image	ee.Image('CSP/E
 CSP/HM/GlobalHumanModification	CSP gHM: Global Human Modification	image_collection	ee.ImageCollection('CSP/HM/GlobalHumanModification')	Conservation Science Partners	2016-01-01	2016-12-31	-180, -90, 180, 90	False	csp, fragmentation, human_modification, landcover, landscape_gradient, stressors, tnc	https://storage.googleapis.com/earthengine-stac/catalog/CSP/CSP_HM_GlobalHumanModification.json	https://developers.google.com/earth-engine/datasets/catalog/CSP_HM_GlobalHumanModification	CC-BY-NC-SA-4.0
 DLR/WSF/WSF2015/v1	World Settlement Footprint 2015	image	ee.Image('DLR/WSF/WSF2015/v1')	Deutsches Zentrum für Luft- und Raumfahrt (DLR)	2015-01-01	2016-01-01	-180, -90, 180, 90	False	landcover, landsat_derived, sentinel1_derived, settlement, urban	https://storage.googleapis.com/earthengine-stac/catalog/DLR/DLR_WSF_WSF2015_v1.json	https://developers.google.com/earth-engine/datasets/catalog/DLR_WSF_WSF2015_v1	CC0-1.0
 DOE/ORNL/LandScan_HD/Ukraine_202201	LandScan High Definition Data for Ukraine, January 2022	image	ee.Image('DOE/ORNL/LandScan_HD/Ukraine_202201')	Oak Ridge National Laboratory	2022-01-01	2022-02-01	22.125, 44.175, 40.225, 52.4	False	landscan, population, ukraine	https://storage.googleapis.com/earthengine-stac/catalog/DOE/DOE_ORNL_LandScan_HD_Ukraine_202201.json	https://developers.google.com/earth-engine/datasets/catalog/DOE_ORNL_LandScan_HD_Ukraine_202201	CC-BY-4.0
-ECMWF/CAMS/NRT	Copernicus Atmosphere Monitoring Service (CAMS) Global Near-Real-Time	image_collection	ee.ImageCollection('ECMWF/CAMS/NRT')	European Centre for Medium-Range Weather Forecasts (ECMWF)	2016-06-22	2024-11-03	-180, -90, 180, 90	False	aerosol, atmosphere, climate, copernicus, ecmwf, forecast, particulate_matter	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_CAMS_NRT.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_CAMS_NRT	proprietary
+ECMWF/CAMS/NRT	Copernicus Atmosphere Monitoring Service (CAMS) Global Near-Real-Time	image_collection	ee.ImageCollection('ECMWF/CAMS/NRT')	European Centre for Medium-Range Weather Forecasts (ECMWF)	2016-06-22	2024-11-04	-180, -90, 180, 90	False	aerosol, atmosphere, climate, copernicus, ecmwf, forecast, particulate_matter	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_CAMS_NRT.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_CAMS_NRT	proprietary
 ECMWF/ERA5/DAILY	ERA5 Daily Aggregates - Latest Climate Reanalysis Produced by ECMWF / Copernicus Climate Change Service	image_collection	ee.ImageCollection('ECMWF/ERA5/DAILY')	ECMWF / Copernicus Climate Change Service	1979-01-02	2020-07-09	-180, -90, 180, 90	False	climate, copernicus, dewpoint, ecmwf, era5, precipitation, pressure, reanalysis, surface, temperature, wind	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_ERA5_DAILY.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_ERA5_DAILY	proprietary
 ECMWF/ERA5/MONTHLY	ERA5 Monthly Aggregates - Latest Climate Reanalysis Produced by ECMWF / Copernicus Climate Change Service	image_collection	ee.ImageCollection('ECMWF/ERA5/MONTHLY')	ECMWF / Copernicus Climate Change Service	1979-01-01	2020-06-01	-180, -90, 180, 90	False	climate, copernicus, dewpoint, ecmwf, era5, precipitation, pressure, reanalysis, surface, temperature, wind	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_ERA5_MONTHLY.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_ERA5_MONTHLY	proprietary
-ECMWF/ERA5_LAND/DAILY_AGGR	ERA5-Land Daily Aggregated - ECMWF Climate Reanalysis	image_collection	ee.ImageCollection('ECMWF/ERA5_LAND/DAILY_AGGR')	Daily Aggregates: Google and Copernicus Climate Data Store	1950-01-02	2024-10-27	-180, -90, 180, 90	False	cds, climate, copernicus, ecmwf, era5_land, evaporation, heat, lakes, precipitation, pressure, radiation, reanalysis, runoff, snow, soil_water, temperature, vegetation, wind	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_ERA5_LAND_DAILY_AGGR.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_ERA5_LAND_DAILY_AGGR	proprietary
-ECMWF/ERA5_LAND/HOURLY	ERA5-Land Hourly - ECMWF Climate Reanalysis	image_collection	ee.ImageCollection('ECMWF/ERA5_LAND/HOURLY')	Copernicus Climate Data Store	1950-01-01	2024-10-28	-180, -90, 180, 90	False	cds, climate, copernicus, ecmwf, era5_land, evaporation, heat, lakes, precipitation, pressure, radiation, reanalysis, runoff, snow, soil_water, temperature, vegetation, wind	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_ERA5_LAND_HOURLY.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_ERA5_LAND_HOURLY	proprietary
+ECMWF/ERA5_LAND/DAILY_AGGR	ERA5-Land Daily Aggregated - ECMWF Climate Reanalysis	image_collection	ee.ImageCollection('ECMWF/ERA5_LAND/DAILY_AGGR')	Daily Aggregates: Google and Copernicus Climate Data Store	1950-01-02	2024-10-28	-180, -90, 180, 90	False	cds, climate, copernicus, ecmwf, era5_land, evaporation, heat, lakes, precipitation, pressure, radiation, reanalysis, runoff, snow, soil_water, temperature, vegetation, wind	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_ERA5_LAND_DAILY_AGGR.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_ERA5_LAND_DAILY_AGGR	proprietary
+ECMWF/ERA5_LAND/HOURLY	ERA5-Land Hourly - ECMWF Climate Reanalysis	image_collection	ee.ImageCollection('ECMWF/ERA5_LAND/HOURLY')	Copernicus Climate Data Store	1950-01-01	2024-10-29	-180, -90, 180, 90	False	cds, climate, copernicus, ecmwf, era5_land, evaporation, heat, lakes, precipitation, pressure, radiation, reanalysis, runoff, snow, soil_water, temperature, vegetation, wind	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_ERA5_LAND_HOURLY.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_ERA5_LAND_HOURLY	proprietary
 ECMWF/ERA5_LAND/MONTHLY	ERA5-Land Monthly Averaged - ECMWF Climate Reanalysis [deprecated]	image_collection	ee.ImageCollection('ECMWF/ERA5_LAND/MONTHLY')	Copernicus Climate Data Store	1950-02-01	2023-04-01	-180, -90, 180, 90	True	cds, climate, copernicus, ecmwf, era5_land, evaporation, heat, lakes, precipitation, pressure, radiation, reanalysis, runoff, snow, soil_water, temperature, vegetation, wind	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_ERA5_LAND_MONTHLY.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_ERA5_LAND_MONTHLY	proprietary
 ECMWF/ERA5_LAND/MONTHLY_AGGR	ERA5-Land Monthly Aggregated - ECMWF Climate Reanalysis	image_collection	ee.ImageCollection('ECMWF/ERA5_LAND/MONTHLY_AGGR')	Monthly Aggregates: Google and Copernicus Climate Data Store	1950-02-01	2024-09-01	-180, -90, 180, 90	False	cds, climate, copernicus, ecmwf, era5_land, evaporation, heat, lakes, precipitation, pressure, radiation, reanalysis, runoff, snow, soil_water, temperature, vegetation, wind	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_ERA5_LAND_MONTHLY_AGGR.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_ERA5_LAND_MONTHLY_AGGR	proprietary
 ECMWF/ERA5_LAND/MONTHLY_BY_HOUR	ERA5-Land Monthly Averaged by Hour of Day - ECMWF Climate Reanalysis	image_collection	ee.ImageCollection('ECMWF/ERA5_LAND/MONTHLY_BY_HOUR')	Climate Data Store	1950-01-01	2024-09-01	-180, -90, 180, 90	False	cds, climate, copernicus, ecmwf, era5_land, evaporation, heat, lakes, precipitation, pressure, radiation, reanalysis, runoff, snow, soil_water, temperature, vegetation, wind	https://storage.googleapis.com/earthengine-stac/catalog/ECMWF/ECMWF_ERA5_LAND_MONTHLY_BY_HOUR.json	https://developers.google.com/earth-engine/datasets/catalog/ECMWF_ERA5_LAND_MONTHLY_BY_HOUR	proprietary
@@ -132,7 +132,7 @@ FAO/WAPOR/2/L1_NPP_D	WAPOR Dekadal Net Primary Production 2.0	image_collection	e
 FAO/WAPOR/2/L1_RET_D	WAPOR Dekadal Reference Evapotranspiration 2.0	image_collection	ee.ImageCollection('FAO/WAPOR/2/L1_RET_D')	FAO UN	2009-01-01	2023-03-11	-30.15, -39.9953437, 65.13, 40.0044643	False	agriculture, fao, wapor, water	https://storage.googleapis.com/earthengine-stac/catalog/FAO/FAO_WAPOR_2_L1_RET_D.json	https://developers.google.com/earth-engine/datasets/catalog/FAO_WAPOR_2_L1_RET_D	proprietary
 FAO/WAPOR/2/L1_RET_E	WAPOR Daily Reference Evapotranspiration 2.0	image_collection	ee.ImageCollection('FAO/WAPOR/2/L1_RET_E')	FAO UN	2009-01-01	2023-03-20	-30.15, -39.9953437, 65.13, 40.0044643	False	agriculture, fao, wapor, water	https://storage.googleapis.com/earthengine-stac/catalog/FAO/FAO_WAPOR_2_L1_RET_E.json	https://developers.google.com/earth-engine/datasets/catalog/FAO_WAPOR_2_L1_RET_E	proprietary
 FAO/WAPOR/2/L1_T_D	WAPOR Dekadal Transpiration 2.0	image_collection	ee.ImageCollection('FAO/WAPOR/2/L1_T_D')	FAO UN	2009-01-01	2023-03-01	-30.0044643, -40.0044644, 65.0044644, 40.0044643	False	agriculture, fao, wapor, water	https://storage.googleapis.com/earthengine-stac/catalog/FAO/FAO_WAPOR_2_L1_T_D.json	https://developers.google.com/earth-engine/datasets/catalog/FAO_WAPOR_2_L1_T_D	proprietary
-FIRMS	FIRMS: Fire Information for Resource Management System	image_collection	ee.ImageCollection('FIRMS')	NASA / LANCE / EOSDIS	2000-11-01	2024-11-02	-180, -90, 180, 90	False	eosdis, fire, firms, geophysical, hotspot, lance, modis, nasa, thermal	https://storage.googleapis.com/earthengine-stac/catalog/FIRMS/FIRMS.json	https://developers.google.com/earth-engine/datasets/catalog/FIRMS	proprietary
+FIRMS	FIRMS: Fire Information for Resource Management System	image_collection	ee.ImageCollection('FIRMS')	NASA / LANCE / EOSDIS	2000-11-01	2024-11-03	-180, -90, 180, 90	False	eosdis, fire, firms, geophysical, hotspot, lance, modis, nasa, thermal	https://storage.googleapis.com/earthengine-stac/catalog/FIRMS/FIRMS.json	https://developers.google.com/earth-engine/datasets/catalog/FIRMS	proprietary
 FORMA/FORMA_500m	FORMA Global Forest Watch Deforestation Alerts, 500m [deprecated]	image	ee.Image('FORMA/FORMA_500m')	Global Forest Watch, World Resources Institute	2006-01-01	2015-06-10	-180, -90, 180, 90	True	alerts, deforestation, forest, forma, geophysical, gfw, modis, nasa, wri	https://storage.googleapis.com/earthengine-stac/catalog/FORMA/FORMA_FORMA_500m.json	https://developers.google.com/earth-engine/datasets/catalog/FORMA_FORMA_500m	proprietary
 Finland/MAVI/VV/50cm	Finland NRG NLS orthophotos 50 cm by Mavi	image_collection	ee.ImageCollection('Finland/MAVI/VV/50cm')	NLS orthophotos	2015-01-01	2018-01-01	18, 59, 29.2, 69.4	False	falsecolor, finland, mavi, nrg, orthophoto	https://storage.googleapis.com/earthengine-stac/catalog/Finland/Finland_MAVI_VV_50cm.json	https://developers.google.com/earth-engine/datasets/catalog/Finland_MAVI_VV_50cm	CC-BY-4.0
 Finland/SMK/V/50cm	Finland RGB NLS orthophotos 50 cm by SMK	image_collection	ee.ImageCollection('Finland/SMK/V/50cm')	NLS orthophotos	2015-01-01	2023-01-01	18, 59, 29.2, 69.4	False	finland, orthophoto, rgb, smk	https://storage.googleapis.com/earthengine-stac/catalog/Finland/Finland_SMK_V_50cm.json	https://developers.google.com/earth-engine/datasets/catalog/Finland_SMK_V_50cm	proprietary
@@ -148,8 +148,8 @@ GLIMS/20230607	GLIMS 2023: Global Land Ice Measurements From Space	table	ee.Feat
 GLIMS/current	GLIMS Current: Global Land Ice Measurements From Space	table	ee.FeatureCollection('GLIMS/current')	National Snow and Ice Data Center (NSDIC)	1750-01-01	2023-06-07	-180, -90, 180, 90	False	glacier, glims, ice, landcover, nasa, nsidc, snow	https://storage.googleapis.com/earthengine-stac/catalog/GLIMS/GLIMS_current.json	https://developers.google.com/earth-engine/datasets/catalog/GLIMS_current	proprietary
 GLOBAL_FLOOD_DB/MODIS_EVENTS/V1	Global Flood Database v1 (2000-2018)	image_collection	ee.ImageCollection('GLOBAL_FLOOD_DB/MODIS_EVENTS/V1')	Cloud to Street (C2S) / Dartmouth Flood Observatory (DFO)	2000-02-17	2018-12-10	-180, -90, 180, 90	False	c2s, cloudtostreet, dartmouth, dfo, flood, gfd, inundation, surface, water	https://storage.googleapis.com/earthengine-stac/catalog/GLOBAL_FLOOD_DB/GLOBAL_FLOOD_DB_MODIS_EVENTS_V1.json	https://developers.google.com/earth-engine/datasets/catalog/GLOBAL_FLOOD_DB_MODIS_EVENTS_V1	CC-BY-NC-4.0
 GOOGLE/AirView/California_Unified_2015_2019	Google Street View Air Quality: High Resolution Air Pollution Mapping in California	table	ee.FeatureCollection('GOOGLE/AirView/California_Unified_2015_2019')	Google / Aclima	2015-05-28	2019-06-07	-180, -90, 180, 90	False	air_quality, nitrogen_dioxide, pollution	https://storage.googleapis.com/earthengine-stac/catalog/GOOGLE/GOOGLE_AirView_California_Unified_2015_2019.json	https://developers.google.com/earth-engine/datasets/catalog/GOOGLE_AirView_California_Unified_2015_2019	CC-BY-NC-4.0
-GOOGLE/CLOUD_SCORE_PLUS/V1/S2_HARMONIZED	Cloud Score+ S2_HARMONIZED V1	image_collection	ee.ImageCollection('GOOGLE/CLOUD_SCORE_PLUS/V1/S2_HARMONIZED')	Google Earth Engine	2015-06-27	2024-11-03	-180, -90, 180, 90	False	google, cloud, sentinel2_derived	https://storage.googleapis.com/earthengine-stac/catalog/GOOGLE/GOOGLE_CLOUD_SCORE_PLUS_V1_S2_HARMONIZED.json	https://developers.google.com/earth-engine/datasets/catalog/GOOGLE_CLOUD_SCORE_PLUS_V1_S2_HARMONIZED	CC-BY-4.0
-GOOGLE/DYNAMICWORLD/V1	Dynamic World V1	image_collection	ee.ImageCollection('GOOGLE/DYNAMICWORLD/V1')	World Resources Institute	2015-06-27	2024-11-03	-180, -90, 180, 90	False	global, google, landcover, landuse, nrt, sentinel2_derived	https://storage.googleapis.com/earthengine-stac/catalog/GOOGLE/GOOGLE_DYNAMICWORLD_V1.json	https://developers.google.com/earth-engine/datasets/catalog/GOOGLE_DYNAMICWORLD_V1	CC-BY-4.0
+GOOGLE/CLOUD_SCORE_PLUS/V1/S2_HARMONIZED	Cloud Score+ S2_HARMONIZED V1	image_collection	ee.ImageCollection('GOOGLE/CLOUD_SCORE_PLUS/V1/S2_HARMONIZED')	Google Earth Engine	2015-06-27	2024-11-04	-180, -90, 180, 90	False	google, cloud, sentinel2_derived	https://storage.googleapis.com/earthengine-stac/catalog/GOOGLE/GOOGLE_CLOUD_SCORE_PLUS_V1_S2_HARMONIZED.json	https://developers.google.com/earth-engine/datasets/catalog/GOOGLE_CLOUD_SCORE_PLUS_V1_S2_HARMONIZED	CC-BY-4.0
+GOOGLE/DYNAMICWORLD/V1	Dynamic World V1	image_collection	ee.ImageCollection('GOOGLE/DYNAMICWORLD/V1')	World Resources Institute	2015-06-27	2024-11-04	-180, -90, 180, 90	False	global, google, landcover, landuse, nrt, sentinel2_derived	https://storage.googleapis.com/earthengine-stac/catalog/GOOGLE/GOOGLE_DYNAMICWORLD_V1.json	https://developers.google.com/earth-engine/datasets/catalog/GOOGLE_DYNAMICWORLD_V1	CC-BY-4.0
 GOOGLE/GLOBAL_CCDC/V1	Google Global Landsat-based CCDC Segments (1999-2019)	image_collection	ee.ImageCollection('GOOGLE/GLOBAL_CCDC/V1')	Google	1999-01-01	2020-01-01	-180, -60, 180, 72	False	change_detection, google, landcover, landsat_derived, landuse	https://storage.googleapis.com/earthengine-stac/catalog/GOOGLE/GOOGLE_GLOBAL_CCDC_V1.json	https://developers.google.com/earth-engine/datasets/catalog/GOOGLE_GLOBAL_CCDC_V1	CC-BY-4.0
 GOOGLE/Research/open-buildings-temporal/v1	Open Buildings Temporal V1	image_collection	ee.ImageCollection('GOOGLE/Research/open-buildings-temporal/v1')	Google Research - Open Buildings	2016-06-30	2023-06-30	-180, -90, 180, 90	False	building_height, height, annual, built_up, open_buildings, africa, asia, south_asia, southeast_asia, high_resolution	https://storage.googleapis.com/earthengine-stac/catalog/GOOGLE/GOOGLE_Research_open-buildings-temporal_v1.json	https://developers.google.com/earth-engine/datasets/catalog/GOOGLE_Research_open-buildings-temporal_v1	CC-BY-4.0
 GOOGLE/Research/open-buildings/v1/polygons	Open Buildings V1 Polygons [deprecated]	table	ee.FeatureCollection('GOOGLE/Research/open-buildings/v1/polygons')	Google Research - Open Buildings	2021-04-30	2021-04-30	-180, -90, 180, 90	True	africa, building, built_up, open_buildings, structure	https://storage.googleapis.com/earthengine-stac/catalog/GOOGLE/GOOGLE_Research_open-buildings_v1_polygons.json	https://developers.google.com/earth-engine/datasets/catalog/GOOGLE_Research_open-buildings_v1_polygons	CC-BY-4.0
@@ -165,7 +165,7 @@ HYCOM/GLBu0_08/sea_water_velocity	HYCOM: Hybrid Coordinate Ocean Model, Water Ve
 HYCOM/sea_surface_elevation	HYCOM: Hybrid Coordinate Ocean Model, Sea Surface Elevation	image_collection	ee.ImageCollection('HYCOM/sea_surface_elevation')	NOPP	1992-10-02	2024-09-05	-180, -80.48, 180, 80.48	False	elevation, hycom, nopp, ocean, ssh, water	https://storage.googleapis.com/earthengine-stac/catalog/HYCOM/HYCOM_sea_surface_elevation.json	https://developers.google.com/earth-engine/datasets/catalog/HYCOM_sea_surface_elevation	proprietary
 HYCOM/sea_temp_salinity	HYCOM: Hybrid Coordinate Ocean Model, Water Temperature and Salinity	image_collection	ee.ImageCollection('HYCOM/sea_temp_salinity')	NOPP	1992-10-02	2024-09-05	-180, -80.48, 180, 80.48	False	hycom, nopp, ocean, salinity, sst, water, water_temp	https://storage.googleapis.com/earthengine-stac/catalog/HYCOM/HYCOM_sea_temp_salinity.json	https://developers.google.com/earth-engine/datasets/catalog/HYCOM_sea_temp_salinity	proprietary
 HYCOM/sea_water_velocity	HYCOM: Hybrid Coordinate Ocean Model, Water Velocity	image_collection	ee.ImageCollection('HYCOM/sea_water_velocity')	NOPP	1992-10-02	2024-09-05	-180, -80.48, 180, 80.48	False	hycom, nopp, ocean, velocity, water	https://storage.googleapis.com/earthengine-stac/catalog/HYCOM/HYCOM_sea_water_velocity.json	https://developers.google.com/earth-engine/datasets/catalog/HYCOM_sea_water_velocity	proprietary
-IDAHO_EPSCOR/GRIDMET	GRIDMET: University of Idaho Gridded Surface Meteorological Dataset	image_collection	ee.ImageCollection('IDAHO_EPSCOR/GRIDMET')	University of California Merced	1979-01-01	2024-11-01	-124.9, 24.9, -66.8, 49.6	False	climate, fireburning, gridmet, humidity, merced, metdata, nfdrs, precipitation, radiation, temperature, wind	https://storage.googleapis.com/earthengine-stac/catalog/IDAHO_EPSCOR/IDAHO_EPSCOR_GRIDMET.json	https://developers.google.com/earth-engine/datasets/catalog/IDAHO_EPSCOR_GRIDMET	proprietary
+IDAHO_EPSCOR/GRIDMET	GRIDMET: University of Idaho Gridded Surface Meteorological Dataset	image_collection	ee.ImageCollection('IDAHO_EPSCOR/GRIDMET')	University of California Merced	1979-01-01	2024-11-02	-124.9, 24.9, -66.8, 49.6	False	climate, fireburning, gridmet, humidity, merced, metdata, nfdrs, precipitation, radiation, temperature, wind	https://storage.googleapis.com/earthengine-stac/catalog/IDAHO_EPSCOR/IDAHO_EPSCOR_GRIDMET.json	https://developers.google.com/earth-engine/datasets/catalog/IDAHO_EPSCOR_GRIDMET	proprietary
 IDAHO_EPSCOR/MACAv2_METDATA	MACAv2-METDATA: University of Idaho, Multivariate Adaptive Constructed Analogs Applied to Global Climate Models	image_collection	ee.ImageCollection('IDAHO_EPSCOR/MACAv2_METDATA')	University of California Merced	1900-01-01	2100-12-31	-124.9, 24.9, -67, 49.6	False	climate, conus, geophysical, idaho, maca, monthly	https://storage.googleapis.com/earthengine-stac/catalog/IDAHO_EPSCOR/IDAHO_EPSCOR_MACAv2_METDATA.json	https://developers.google.com/earth-engine/datasets/catalog/IDAHO_EPSCOR_MACAv2_METDATA	CC0-1.0
 IDAHO_EPSCOR/MACAv2_METDATA_MONTHLY	MACAv2-METDATA Monthly Summaries: University of Idaho, Multivariate Adaptive Constructed Analogs Applied to Global  Climate Models	image_collection	ee.ImageCollection('IDAHO_EPSCOR/MACAv2_METDATA_MONTHLY')	University of California Merced	1900-01-01	2099-12-31	-124.9, 24.9, -67, 49.6	False	climate, conus, geophysical, idaho, maca, monthly	https://storage.googleapis.com/earthengine-stac/catalog/IDAHO_EPSCOR/IDAHO_EPSCOR_MACAv2_METDATA_MONTHLY.json	https://developers.google.com/earth-engine/datasets/catalog/IDAHO_EPSCOR_MACAv2_METDATA_MONTHLY	CC0-1.0
 IDAHO_EPSCOR/PDSI	PDSI: University of Idaho Palmer Drought Severity Index [deprecated]	image_collection	ee.ImageCollection('IDAHO_EPSCOR/PDSI')	University of California Merced	1979-03-01	2020-06-20	-124.9, 24.9, -66.8, 49.6	True	climate, conus, crop, drought, geophysical, merced, palmer, pdsi	https://storage.googleapis.com/earthengine-stac/catalog/IDAHO_EPSCOR/IDAHO_EPSCOR_PDSI.json	https://developers.google.com/earth-engine/datasets/catalog/IDAHO_EPSCOR_PDSI	proprietary
@@ -207,20 +207,20 @@ JAXA/ALOS/PALSAR/YEARLY/SAR	Global PALSAR-2/PALSAR Yearly Mosaic, version 1	imag
 JAXA/ALOS/PALSAR/YEARLY/SAR_EPOCH	Global PALSAR-2/PALSAR Yearly Mosaic, version 2	image_collection	ee.ImageCollection('JAXA/ALOS/PALSAR/YEARLY/SAR_EPOCH')	JAXA EORC	2015-01-01	2023-01-01	-180, -90, 180, 90	False	alos, alos2, eroc, jaxa, palsar, palsar2, sar	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_ALOS_PALSAR_YEARLY_SAR_EPOCH.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_ALOS_PALSAR_YEARLY_SAR_EPOCH	proprietary
 JAXA/GCOM-C/L3/LAND/LAI/V1	GCOM-C/SGLI L3 Leaf Area Index (V1)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LAI/V1')	Global Change Observation Mission (GCOM)	2018-01-01	2020-06-28	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, lai, land, leaf_area_index	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_LAND_LAI_V1.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_LAND_LAI_V1	proprietary
 JAXA/GCOM-C/L3/LAND/LAI/V2	GCOM-C/SGLI L3 Leaf Area Index (V2)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LAI/V2')	Global Change Observation Mission (GCOM)	2018-01-01	2021-11-28	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, lai, land, leaf_area_index	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_LAND_LAI_V2.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_LAND_LAI_V2	proprietary
-JAXA/GCOM-C/L3/LAND/LAI/V3	GCOM-C/SGLI L3 Leaf Area Index (V3)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LAI/V3')	Global Change Observation Mission (GCOM)	2021-11-29	2024-11-01	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, lai, land, leaf_area_index	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_LAND_LAI_V3.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_LAND_LAI_V3	proprietary
+JAXA/GCOM-C/L3/LAND/LAI/V3	GCOM-C/SGLI L3 Leaf Area Index (V3)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LAI/V3')	Global Change Observation Mission (GCOM)	2021-11-29	2024-11-02	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, lai, land, leaf_area_index	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_LAND_LAI_V3.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_LAND_LAI_V3	proprietary
 JAXA/GCOM-C/L3/LAND/LST/V1	GCOM-C/SGLI L3 Land Surface Temperature (V1)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LST/V1')	Global Change Observation Mission (GCOM)	2018-01-01	2020-06-28	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, land, land_surface_temperature, lst	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_LAND_LST_V1.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_LAND_LST_V1	proprietary
 JAXA/GCOM-C/L3/LAND/LST/V2	GCOM-C/SGLI L3 Land Surface Temperature (V2)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LST/V2')	Global Change Observation Mission (GCOM)	2018-01-01	2021-11-28	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, land, land_surface_temperature, lst	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_LAND_LST_V2.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_LAND_LST_V2	proprietary
-JAXA/GCOM-C/L3/LAND/LST/V3	GCOM-C/SGLI L3 Land Surface Temperature (V3)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LST/V3')	Global Change Observation Mission (GCOM)	2021-11-29	2024-11-01	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, land, land_surface_temperature, lst	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_LAND_LST_V3.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_LAND_LST_V3	proprietary
+JAXA/GCOM-C/L3/LAND/LST/V3	GCOM-C/SGLI L3 Land Surface Temperature (V3)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/LAND/LST/V3')	Global Change Observation Mission (GCOM)	2021-11-29	2024-11-02	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, land, land_surface_temperature, lst	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_LAND_LST_V3.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_LAND_LST_V3	proprietary
 JAXA/GCOM-C/L3/OCEAN/CHLA/V1	GCOM-C/SGLI L3 Chlorophyll-a Concentration (V1)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/CHLA/V1')	Global Change Observation Mission (GCOM)	2018-01-01	2020-06-28	-180, -90, 180, 90	False	chla, chlorophyll_a, climate, g_portal, gcom, gcom_c, jaxa, ocean, ocean_color	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_OCEAN_CHLA_V1.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_OCEAN_CHLA_V1	proprietary
 JAXA/GCOM-C/L3/OCEAN/CHLA/V2	GCOM-C/SGLI L3 Chlorophyll-a Concentration (V2)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/CHLA/V2')	Global Change Observation Mission (GCOM)	2018-01-01	2021-11-28	-180, -90, 180, 90	False	chla, chlorophyll_a, climate, g_portal, gcom, gcom_c, jaxa, ocean, ocean_color	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_OCEAN_CHLA_V2.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_OCEAN_CHLA_V2	proprietary
-JAXA/GCOM-C/L3/OCEAN/CHLA/V3	GCOM-C/SGLI L3 Chlorophyll-a Concentration (V3)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/CHLA/V3')	Global Change Observation Mission (GCOM)	2021-11-29	2024-11-01	-180, -90, 180, 90	False	chla, chlorophyll_a, climate, g_portal, gcom, gcom_c, jaxa, ocean, ocean_color	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_OCEAN_CHLA_V3.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_OCEAN_CHLA_V3	proprietary
+JAXA/GCOM-C/L3/OCEAN/CHLA/V3	GCOM-C/SGLI L3 Chlorophyll-a Concentration (V3)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/CHLA/V3')	Global Change Observation Mission (GCOM)	2021-11-29	2024-11-02	-180, -90, 180, 90	False	chla, chlorophyll_a, climate, g_portal, gcom, gcom_c, jaxa, ocean, ocean_color	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_OCEAN_CHLA_V3.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_OCEAN_CHLA_V3	proprietary
 JAXA/GCOM-C/L3/OCEAN/SST/V1	GCOM-C/SGLI L3 Sea Surface Temperature (V1)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/SST/V1')	Global Change Observation Mission (GCOM)	2018-01-01	2020-06-28	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, ocean, sea_surface_temperature, sst	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_OCEAN_SST_V1.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_OCEAN_SST_V1	proprietary
 JAXA/GCOM-C/L3/OCEAN/SST/V2	GCOM-C/SGLI L3 Sea Surface Temperature (V2)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/SST/V2')	Global Change Observation Mission (GCOM)	2018-01-01	2021-11-28	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, ocean, sea_surface_temperature, sst	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_OCEAN_SST_V2.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_OCEAN_SST_V2	proprietary
-JAXA/GCOM-C/L3/OCEAN/SST/V3	GCOM-C/SGLI L3 Sea Surface Temperature (V3)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/SST/V3')	Global Change Observation Mission (GCOM)	2021-11-29	2024-11-01	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, ocean, sea_surface_temperature, sst	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_OCEAN_SST_V3.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_OCEAN_SST_V3	proprietary
-JAXA/GPM_L3/GSMaP/v6/operational	GSMaP Operational: Global Satellite Mapping of Precipitation - V6	image_collection	ee.ImageCollection('JAXA/GPM_L3/GSMaP/v6/operational')	JAXA Earth Observation Research Center	2014-03-01	2024-11-03	-180, -60, 180, 60	False	climate, geophysical, gpm, hourly, jaxa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GPM_L3_GSMaP_v6_operational.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GPM_L3_GSMaP_v6_operational	proprietary
+JAXA/GCOM-C/L3/OCEAN/SST/V3	GCOM-C/SGLI L3 Sea Surface Temperature (V3)	image_collection	ee.ImageCollection('JAXA/GCOM-C/L3/OCEAN/SST/V3')	Global Change Observation Mission (GCOM)	2021-11-29	2024-11-02	-180, -90, 180, 90	False	climate, g_portal, gcom, gcom_c, jaxa, ocean, sea_surface_temperature, sst	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GCOM-C_L3_OCEAN_SST_V3.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GCOM-C_L3_OCEAN_SST_V3	proprietary
+JAXA/GPM_L3/GSMaP/v6/operational	GSMaP Operational: Global Satellite Mapping of Precipitation - V6	image_collection	ee.ImageCollection('JAXA/GPM_L3/GSMaP/v6/operational')	JAXA Earth Observation Research Center	2014-03-01	2024-11-04	-180, -60, 180, 60	False	climate, geophysical, gpm, hourly, jaxa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GPM_L3_GSMaP_v6_operational.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GPM_L3_GSMaP_v6_operational	proprietary
 JAXA/GPM_L3/GSMaP/v6/reanalysis	GSMaP Reanalysis: Global Satellite Mapping of Precipitation	image_collection	ee.ImageCollection('JAXA/GPM_L3/GSMaP/v6/reanalysis')	JAXA Earth Observation Research Center	2000-03-01	2014-03-12	-180, -60, 180, 60	False	climate, geophysical, gpm, hourly, jaxa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GPM_L3_GSMaP_v6_reanalysis.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GPM_L3_GSMaP_v6_reanalysis	proprietary
-JAXA/GPM_L3/GSMaP/v7/operational	GSMaP Operational: Global Satellite Mapping of Precipitation - V7	image_collection	ee.ImageCollection('JAXA/GPM_L3/GSMaP/v7/operational')	JAXA Earth Observation Research Center	2014-03-01	2024-11-03	-180, -60, 180, 60	False	climate, geophysical, gpm, hourly, jaxa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GPM_L3_GSMaP_v7_operational.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GPM_L3_GSMaP_v7_operational	proprietary
-JAXA/GPM_L3/GSMaP/v8/operational	GSMaP Operational: Global Satellite Mapping of Precipitation - V8	image_collection	ee.ImageCollection('JAXA/GPM_L3/GSMaP/v8/operational')	JAXA Earth Observation Research Center	1998-01-01	2024-11-03	-180, -60, 180, 60	False	climate, geophysical, gpm, hourly, jaxa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GPM_L3_GSMaP_v8_operational.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GPM_L3_GSMaP_v8_operational	proprietary
+JAXA/GPM_L3/GSMaP/v7/operational	GSMaP Operational: Global Satellite Mapping of Precipitation - V7	image_collection	ee.ImageCollection('JAXA/GPM_L3/GSMaP/v7/operational')	JAXA Earth Observation Research Center	2014-03-01	2024-11-04	-180, -60, 180, 60	False	climate, geophysical, gpm, hourly, jaxa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GPM_L3_GSMaP_v7_operational.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GPM_L3_GSMaP_v7_operational	proprietary
+JAXA/GPM_L3/GSMaP/v8/operational	GSMaP Operational: Global Satellite Mapping of Precipitation - V8	image_collection	ee.ImageCollection('JAXA/GPM_L3/GSMaP/v8/operational')	JAXA Earth Observation Research Center	1998-01-01	2024-11-04	-180, -60, 180, 60	False	climate, geophysical, gpm, hourly, jaxa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/JAXA/JAXA_GPM_L3_GSMaP_v8_operational.json	https://developers.google.com/earth-engine/datasets/catalog/JAXA_GPM_L3_GSMaP_v8_operational	proprietary
 JCU/Murray/GIC/global_tidal_wetland_change/2019	Murray Global Tidal Wetland Change v1.0 (1999-2019)	image	ee.Image('JCU/Murray/GIC/global_tidal_wetland_change/2019')	Murray/JCU	1999-01-01	2019-12-31	-180, -90, 180, 90	False	coastal, ecosystem, intertidal, landsat_derived, mangrove, murray, saltmarsh, tidal_flat, tidal_marsh	https://storage.googleapis.com/earthengine-stac/catalog/JCU/JCU_Murray_GIC_global_tidal_wetland_change_2019.json	https://developers.google.com/earth-engine/datasets/catalog/JCU_Murray_GIC_global_tidal_wetland_change_2019	CC-BY-4.0
 JRC/CEMS_GLOFAS/FloodHazard/v1	JRC Global River Flood Hazard Maps Version 1	image_collection	ee.ImageCollection('JRC/CEMS_GLOFAS/FloodHazard/v1')	Joint Research Centre	2024-03-16	2024-03-16	-180, -90, 180, 90	False	flood, monitoring, wri	https://storage.googleapis.com/earthengine-stac/catalog/JRC/JRC_CEMS_GLOFAS_FloodHazard_v1.json	https://developers.google.com/earth-engine/datasets/catalog/JRC_CEMS_GLOFAS_FloodHazard_v1	CC-BY-4.0
 JRC/D5/EUCROPMAP/V1	EUCROPMAP	image_collection	ee.ImageCollection('JRC/D5/EUCROPMAP/V1')	Joint Research Center (JRC)	2018-01-01	2022-01-01	-16.171875, 34.313433, 36.386719, 72.182526	False	crop, eu, jrc, lucas, sentinel1_derived	https://storage.googleapis.com/earthengine-stac/catalog/JRC/JRC_D5_EUCROPMAP_V1.json	https://developers.google.com/earth-engine/datasets/catalog/JRC_D5_EUCROPMAP_V1	CC-BY-4.0
@@ -304,18 +304,18 @@ LANDSAT/GLS2005_L5	Landsat Global Land Survey 2005, Landsat 5 scenes	image_colle
 LANDSAT/GLS2005_L7	Landsat Global Land Survey 2005, Landsat 7 scenes	image_collection	ee.ImageCollection('LANDSAT/GLS2005_L7')	USGS	2003-07-29	2008-07-29	-180, -90, 180, 90	False	etm, gls, l7, landsat, radiance, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_GLS2005_L7.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_GLS2005_L7	PDDL-1.0
 LANDSAT/LC08/C02/T1	USGS Landsat 8 Collection 2 Tier 1 Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T1')	USGS	2013-03-18	2024-11-02	-180, -90, 180, 90	False	c2, global, l8, landsat, lc8, oli_tirs, radiance, t1, tier1, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T1.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T1	PDDL-1.0
 LANDSAT/LC08/C02/T1_L2	USGS Landsat 8 Level 2, Collection 2, Tier 1	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T1_L2')	USGS	2013-03-18	2024-10-26	-180, -90, 180, 90	False	cfmask, cloud, fmask, global, l8sr, landsat, lasrc, lc08, lst, reflectance, sr, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T1_L2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T1_L2	proprietary
-LANDSAT/LC08/C02/T1_RT	USGS Landsat 8 Collection 2 Tier 1 and Real-Time data Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T1_RT')	USGS	2013-03-18	2024-11-03	-180, -90, 180, 90	False	c2, global, l8, landsat, lc8, nrt, oli_tirs, radiance, rt, t1, tier1, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T1_RT.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T1_RT	PDDL-1.0
-LANDSAT/LC08/C02/T1_RT_TOA	USGS Landsat 8 Collection 2 Tier 1 and Real-Time data TOA Reflectance	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T1_RT_TOA')	USGS/Google	2013-03-18	2024-11-03	-180, -90, 180, 90	False	c2, global, l8, landsat, lc8, toa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T1_RT_TOA.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T1_RT_TOA	PDDL-1.0
+LANDSAT/LC08/C02/T1_RT	USGS Landsat 8 Collection 2 Tier 1 and Real-Time data Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T1_RT')	USGS	2013-03-18	2024-11-04	-180, -90, 180, 90	False	c2, global, l8, landsat, lc8, nrt, oli_tirs, radiance, rt, t1, tier1, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T1_RT.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T1_RT	PDDL-1.0
+LANDSAT/LC08/C02/T1_RT_TOA	USGS Landsat 8 Collection 2 Tier 1 and Real-Time data TOA Reflectance	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T1_RT_TOA')	USGS/Google	2013-03-18	2024-11-04	-180, -90, 180, 90	False	c2, global, l8, landsat, lc8, toa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T1_RT_TOA.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T1_RT_TOA	PDDL-1.0
 LANDSAT/LC08/C02/T1_TOA	USGS Landsat 8 Collection 2 Tier 1 TOA Reflectance	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T1_TOA')	USGS/Google	2013-03-18	2024-11-02	-180, -90, 180, 90	False	c2, global, landsat, toa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T1_TOA.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T1_TOA	PDDL-1.0
 LANDSAT/LC08/C02/T2	USGS Landsat 8 Collection 2 Tier 2 Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T2')	USGS	2021-10-28	2024-11-02	-180, -90, 180, 90	False	c2, global, l8, landsat, lc8, oli_tirs, radiance, t2, tier2, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T2	PDDL-1.0
 LANDSAT/LC08/C02/T2_L2	USGS Landsat 8 Level 2, Collection 2, Tier 2	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T2_L2')	USGS	2013-03-18	2024-10-26	-180, -90, 180, 90	False	cfmask, cloud, fmask, global, l8sr, landsat, lasrc, lc08, lst, reflectance, sr, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T2_L2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T2_L2	proprietary
 LANDSAT/LC08/C02/T2_TOA	USGS Landsat 8 Collection 2 Tier 2 TOA Reflectance	image_collection	ee.ImageCollection('LANDSAT/LC08/C02/T2_TOA')	USGS/Google	2021-10-28	2024-11-02	-180, -90, 180, 90	False	c2, global, landsat, toa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC08_C02_T2_TOA.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC08_C02_T2_TOA	PDDL-1.0
-LANDSAT/LC09/C02/T1	USGS Landsat 9 Collection 2 Tier 1 Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T1')	USGS	2021-10-31	2024-11-03	-180, -90, 180, 90	False	c2, global, l9, landsat, lc9, oli_tirs, radiance, t1, tier1, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T1.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T1	PDDL-1.0
-LANDSAT/LC09/C02/T1_L2	USGS Landsat 9 Level 2, Collection 2, Tier 1	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T1_L2')	USGS	2021-10-31	2024-11-01	-180, -90, 180, 90	False	cfmask, cloud, fmask, global, l9sr, landsat, lasrc, lc09, lst, reflectance, sr, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T1_L2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T1_L2	proprietary
-LANDSAT/LC09/C02/T1_TOA	USGS Landsat 9 Collection 2 Tier 1 TOA Reflectance	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T1_TOA')	USGS/Google	2021-10-31	2024-11-03	-180, -90, 180, 90	False	c2, global, landsat, toa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T1_TOA.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T1_TOA	PDDL-1.0
-LANDSAT/LC09/C02/T2	USGS Landsat 9 Collection 2 Tier 2 Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T2')	USGS	2021-11-02	2024-11-03	-180, -90, 180, 90	False	c2, global, l9, landsat, lc9, oli_tirs, radiance, t2, tier2, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T2	PDDL-1.0
-LANDSAT/LC09/C02/T2_L2	USGS Landsat 9 Level 2, Collection 2, Tier 2	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T2_L2')	USGS	2021-10-31	2024-11-01	-180, -90, 180, 90	False	cfmask, cloud, fmask, global, l9sr, landsat, lasrc, lc09, lst, reflectance, sr, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T2_L2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T2_L2	proprietary
-LANDSAT/LC09/C02/T2_TOA	USGS Landsat 9 Collection 2 Tier 2 TOA Reflectance	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T2_TOA')	USGS/Google	2021-11-02	2024-11-03	-180, -90, 180, 90	False	c2, global, l9, landsat, lc9, toa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T2_TOA.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T2_TOA	PDDL-1.0
+LANDSAT/LC09/C02/T1	USGS Landsat 9 Collection 2 Tier 1 Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T1')	USGS	2021-10-31	2024-11-04	-180, -90, 180, 90	False	c2, global, l9, landsat, lc9, oli_tirs, radiance, t1, tier1, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T1.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T1	PDDL-1.0
+LANDSAT/LC09/C02/T1_L2	USGS Landsat 9 Level 2, Collection 2, Tier 1	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T1_L2')	USGS	2021-10-31	2024-11-02	-180, -90, 180, 90	False	cfmask, cloud, fmask, global, l9sr, landsat, lasrc, lc09, lst, reflectance, sr, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T1_L2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T1_L2	proprietary
+LANDSAT/LC09/C02/T1_TOA	USGS Landsat 9 Collection 2 Tier 1 TOA Reflectance	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T1_TOA')	USGS/Google	2021-10-31	2024-11-04	-180, -90, 180, 90	False	c2, global, landsat, toa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T1_TOA.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T1_TOA	PDDL-1.0
+LANDSAT/LC09/C02/T2	USGS Landsat 9 Collection 2 Tier 2 Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T2')	USGS	2021-11-02	2024-11-04	-180, -90, 180, 90	False	c2, global, l9, landsat, lc9, oli_tirs, radiance, t2, tier2, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T2	PDDL-1.0
+LANDSAT/LC09/C02/T2_L2	USGS Landsat 9 Level 2, Collection 2, Tier 2	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T2_L2')	USGS	2021-10-31	2024-11-02	-180, -90, 180, 90	False	cfmask, cloud, fmask, global, l9sr, landsat, lasrc, lc09, lst, reflectance, sr, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T2_L2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T2_L2	proprietary
+LANDSAT/LC09/C02/T2_TOA	USGS Landsat 9 Collection 2 Tier 2 TOA Reflectance	image_collection	ee.ImageCollection('LANDSAT/LC09/C02/T2_TOA')	USGS/Google	2021-11-02	2024-11-04	-180, -90, 180, 90	False	c2, global, l9, landsat, lc9, toa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LC09_C02_T2_TOA.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LC09_C02_T2_TOA	PDDL-1.0
 LANDSAT/LE07/C02/T1	USGS Landsat 7 Collection 2 Tier 1 Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LE07/C02/T1')	USGS	1999-05-28	2024-01-19	-180, -90, 180, 90	False	c2, etm, global, l7, landsat, le7, radiance, t1, tier1, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LE07_C02_T1.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LE07_C02_T1	PDDL-1.0
 LANDSAT/LE07/C02/T1_L2	USGS Landsat 7 Level 2, Collection 2, Tier 1	image_collection	ee.ImageCollection('LANDSAT/LE07/C02/T1_L2')	USGS	1999-05-28	2024-01-19	-180, -90, 180, 90	False	cfmask, cloud, etm, fmask, global, landsat, lasrc, le07, lst, reflectance, sr, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LE07_C02_T1_L2.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LE07_C02_T1_L2	proprietary
 LANDSAT/LE07/C02/T1_RT	USGS Landsat 7 Collection 2 Tier 1 and Real-Time data Raw Scenes	image_collection	ee.ImageCollection('LANDSAT/LE07/C02/T1_RT')	USGS	1999-05-28	2024-01-19	-180, -90, 180, 90	False	c2, etm, global, l7, landsat, le7, nrt, radiance, rt, t1, tier1, usgs	https://storage.googleapis.com/earthengine-stac/catalog/LANDSAT/LANDSAT_LE07_C02_T1_RT.json	https://developers.google.com/earth-engine/datasets/catalog/LANDSAT_LE07_C02_T1_RT	PDDL-1.0
@@ -438,7 +438,7 @@ MODIS/061/MOD09CMG	MOD09CMG.061 Terra Surface Reflectance Daily L3 Global 0.05 D
 MODIS/061/MOD09GA	MOD09GA.061 Terra Surface Reflectance Daily Global 1km and 500m	image_collection	ee.ImageCollection('MODIS/061/MOD09GA')	NASA LP DAAC at the USGS EROS Center	2000-02-24	2024-10-29	-180, -90, 180, 90	False	daily, global, mod09ga, modis, nasa, sr, surface_reflectance, terra, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MOD09GA.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MOD09GA	proprietary
 MODIS/061/MOD09GQ	MOD09GQ.061 Terra Surface Reflectance Daily Global 250m	image_collection	ee.ImageCollection('MODIS/061/MOD09GQ')	NASA LP DAAC at the USGS EROS Center	2000-02-24	2024-10-29	-180, -90, 180, 90	False	daily, global, mod09gq, modis, nasa, sr, surface_reflectance, terra, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MOD09GQ.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MOD09GQ	proprietary
 MODIS/061/MOD09Q1	MOD09Q1.061 Terra Surface Reflectance 8-Day Global 250m	image_collection	ee.ImageCollection('MODIS/061/MOD09Q1')	NASA LP DAAC at the USGS EROS Center	2000-02-18	2024-10-15	-180, -90, 180, 90	False	8_day, global, mod09q1, modis, nasa, sr, surface_reflectance, terra, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MOD09Q1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MOD09Q1	proprietary
-MODIS/061/MOD10A1	MOD10A1.061 Terra Snow Cover Daily Global 500m	image_collection	ee.ImageCollection('MODIS/061/MOD10A1')	NASA NSIDC DAAC at CIRES	2000-02-24	2024-10-31	-180, -90, 180, 90	False	albedo, daily, geophysical, global, mod10a1, modis, nasa, nsidc, snow, terra	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MOD10A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MOD10A1	proprietary
+MODIS/061/MOD10A1	MOD10A1.061 Terra Snow Cover Daily Global 500m	image_collection	ee.ImageCollection('MODIS/061/MOD10A1')	NASA NSIDC DAAC at CIRES	2000-02-24	2024-11-02	-180, -90, 180, 90	False	albedo, daily, geophysical, global, mod10a1, modis, nasa, nsidc, snow, terra	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MOD10A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MOD10A1	proprietary
 MODIS/061/MOD11A1	MOD11A1.061 Terra Land Surface Temperature and Emissivity Daily Global 1km	image_collection	ee.ImageCollection('MODIS/061/MOD11A1')	NASA LP DAAC at the USGS EROS Center	2000-02-24	2024-10-29	-180, -90, 180, 90	False	daily, emissivity, global, lst, mod11a1, modis, nasa, surface_temperature, terra, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MOD11A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MOD11A1	proprietary
 MODIS/061/MOD11A2	MOD11A2.061 Terra Land Surface Temperature and Emissivity 8-Day Global 1km	image_collection	ee.ImageCollection('MODIS/061/MOD11A2')	NASA LP DAAC at the USGS EROS Center	2000-02-18	2024-10-15	-180, -90, 180, 90	False	8_day, emissivity, global, lst, mod11a2, modis, nasa, surface_temperature, terra, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MOD11A2.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MOD11A2	proprietary
 MODIS/061/MOD13A1	MOD13A1.061 Terra Vegetation Indices 16-Day Global 500m	image_collection	ee.ImageCollection('MODIS/061/MOD13A1')	NASA LP DAAC at the USGS EROS Center	2000-02-18	2024-09-29	-180, -90, 180, 90	False	16_day, evi, global, mod13a1, modis, nasa, ndvi, terra, usgs, vegetation	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MOD13A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MOD13A1	proprietary
@@ -465,7 +465,7 @@ MODIS/061/MYD09CMG	MYD09CMG.061 Aqua Surface Reflectance Daily L3 Global 0.05 De
 MODIS/061/MYD09GA	MYD09GA.061 Aqua Surface Reflectance Daily Global 1km and 500m	image_collection	ee.ImageCollection('MODIS/061/MYD09GA')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-29	-180, -90, 180, 90	False	aqua, daily, global, modis, myd09ga, nasa, sr, surface_reflectance, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD09GA.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD09GA	proprietary
 MODIS/061/MYD09GQ	MYD09GQ.061 Aqua Surface Reflectance Daily Global 250m	image_collection	ee.ImageCollection('MODIS/061/MYD09GQ')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-29	-180, -90, 180, 90	False	aqua, daily, global, modis, myd09gq, nasa, sr, surface_reflectance, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD09GQ.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD09GQ	proprietary
 MODIS/061/MYD09Q1	MYD09Q1.061 Aqua Surface Reflectance 8-Day Global 250m	image_collection	ee.ImageCollection('MODIS/061/MYD09Q1')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-15	-180, -90, 180, 90	False	8_day, aqua, global, modis, myd09q1, nasa, sr, surface_reflectance, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD09Q1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD09Q1	proprietary
-MODIS/061/MYD10A1	MYD10A1.061 Aqua Snow Cover Daily Global 500m	image_collection	ee.ImageCollection('MODIS/061/MYD10A1')	NASA NSIDC DAAC at CIRES	2002-07-04	2024-10-31	-180, -90, 180, 90	False	albedo, aqua, daily, geophysical, global, modis, myd10a1, nasa, nsidc, snow	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD10A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD10A1	proprietary
+MODIS/061/MYD10A1	MYD10A1.061 Aqua Snow Cover Daily Global 500m	image_collection	ee.ImageCollection('MODIS/061/MYD10A1')	NASA NSIDC DAAC at CIRES	2002-07-04	2024-11-02	-180, -90, 180, 90	False	albedo, aqua, daily, geophysical, global, modis, myd10a1, nasa, nsidc, snow	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD10A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD10A1	proprietary
 MODIS/061/MYD11A1	MYD11A1.061 Aqua Land Surface Temperature and Emissivity Daily Global 1km	image_collection	ee.ImageCollection('MODIS/061/MYD11A1')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-29	-180, -90, 180, 90	False	aqua, daily, emissivity, global, lst, modis, myd11a1, nasa, surface_temperature, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD11A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD11A1	proprietary
 MODIS/061/MYD11A2	MYD11A2.061 Aqua Land Surface Temperature and Emissivity 8-Day Global 1km	image_collection	ee.ImageCollection('MODIS/061/MYD11A2')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-15	-180, -90, 180, 90	False	8_day, aqua, emissivity, global, lst, modis, myd11a2, nasa, surface_temperature, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD11A2.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD11A2	proprietary
 MODIS/061/MYD13A1	MYD13A1.061 Aqua Vegetation Indices 16-Day Global 500m	image_collection	ee.ImageCollection('MODIS/061/MYD13A1')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-07	-180, -90, 180, 90	False	16_day, aqua, evi, global, modis, myd13a1, nasa, ndvi, usgs, vegetation	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD13A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD13A1	proprietary
@@ -473,7 +473,7 @@ MODIS/061/MYD13A2	MYD13A2.061 Aqua Vegetation Indices 16-Day Global 1km	image_co
 MODIS/061/MYD13A3	MYD13A3.061 Aqua Vegetation Indices Monthly L3 Global 1 km SIN Grid	image_collection	ee.ImageCollection('MODIS/061/MYD13A3')	NASA LP DAAC at the USGS EROS Center	2002-07-01	2024-09-01	-180, -90, 180, 90	False	aqua, evi, global, modis, monthly, nasa, ndvi, usgs, vegetation	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD13A3.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD13A3	proprietary
 MODIS/061/MYD13C1	MYD13C1.061: Aqua Vegetation Indices 16-Day L3 Global 0.05 Deg CMG	image_collection	ee.ImageCollection('MODIS/061/MYD13C1')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-07	-180, -90, 180, 90	False	global, nasa, aqua, usgs, vegetation, 16_day	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD13C1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD13C1	proprietary
 MODIS/061/MYD13Q1	MYD13Q1.061 Aqua Vegetation Indices 16-Day Global 250m	image_collection	ee.ImageCollection('MODIS/061/MYD13Q1')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-07	-180, -90, 180, 90	False	16_day, aqua, evi, global, modis, myd13q1, nasa, ndvi, usgs, vegetation	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD13Q1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD13Q1	proprietary
-MODIS/061/MYD14A1	MYD14A1.061: Aqua Thermal Anomalies & Fire Daily Global 1km	image_collection	ee.ImageCollection('MODIS/061/MYD14A1')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-22	-180, -90, 180, 90	False	aqua, daily, fire, global, modis, myd14a1, nasa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD14A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD14A1	proprietary
+MODIS/061/MYD14A1	MYD14A1.061: Aqua Thermal Anomalies & Fire Daily Global 1km	image_collection	ee.ImageCollection('MODIS/061/MYD14A1')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-30	-180, -90, 180, 90	False	aqua, daily, fire, global, modis, myd14a1, nasa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD14A1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD14A1	proprietary
 MODIS/061/MYD14A2	MYD14A2.061: Aqua Thermal Anomalies & Fire 8-Day Global 1km	image_collection	ee.ImageCollection('MODIS/061/MYD14A2')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-15	-180, -90, 180, 90	False	8_day, aqua, fire, global, modis, myd14a2, nasa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD14A2.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD14A2	proprietary
 MODIS/061/MYD15A2H	MYD15A2H.061: Aqua Leaf Area Index/FPAR 8-Day Global 500m	image_collection	ee.ImageCollection('MODIS/061/MYD15A2H')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2024-10-15	-180, -90, 180, 90	False	8_day, aqua, fpar, global, lai, modis, myd15a2h, nasa, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD15A2H.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD15A2H	proprietary
 MODIS/061/MYD17A2H	MYD17A2H.061: Aqua Gross Primary Productivity 8-Day Global 500m	image_collection	ee.ImageCollection('MODIS/061/MYD17A2H')	NASA LP DAAC at the USGS EROS Center	2021-01-01	2024-10-15	-180, -90, 180, 90	False	8_day, aqua, global, gpp, modis, myd17a2, nasa, photosynthesis, productivity, psn, usgs	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_061_MYD17A2H.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_061_MYD17A2H	proprietary
@@ -537,16 +537,16 @@ MODIS/MYD13A1	MYD13A1.005 Vegetation Indices 16-Day L3 Global 500m [deprecated]
 MODIS/MYD13Q1	MYD13Q1.005 Vegetation Indices 16-Day Global 250m [deprecated]	image_collection	ee.ImageCollection('MODIS/MYD13Q1')	NASA LP DAAC at the USGS EROS Center	2002-07-04	2017-03-14	-180, -90, 180, 90	True	16_day, aqua, evi, global, modis, myd13q1, ndvi, vegetation	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_MYD13Q1.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_MYD13Q1	proprietary
 MODIS/NTSG/MOD16A2/105	MOD16A2: MODIS Global Terrestrial Evapotranspiration 8-Day Global 1km	image_collection	ee.ImageCollection('MODIS/NTSG/MOD16A2/105')	Numerical Terradynamic Simulation Group, The University of Montana	2000-01-01	2014-12-27	-180, -90, 180, 90	False	8_day, evapotranspiration, global, mod16a2, modis	https://storage.googleapis.com/earthengine-stac/catalog/MODIS/MODIS_NTSG_MOD16A2_105.json	https://developers.google.com/earth-engine/datasets/catalog/MODIS_NTSG_MOD16A2_105	proprietary
 NASA/ASTER_GED/AG100_003	AG100: ASTER Global Emissivity Dataset 100-meter V003	image	ee.Image('NASA/ASTER_GED/AG100_003')	NASA LP DAAC at the USGS EROS Center	2000-01-01	2008-12-31	-180, -59, 180, 80	False	aster, caltech, elevation, emissivity, ged, geophysical, infrared, jpl, lst, nasa, ndvi, temperature, thermal	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_ASTER_GED_AG100_003.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_ASTER_GED_AG100_003	proprietary
-NASA/EMIT/L1B/RAD	EMIT L1B At-Sensor Calibrated Radiance and Geolocation Data 60 m	image_collection	ee.ImageCollection('NASA/EMIT/L1B/RAD')	NASA Jet Propulsion Laboratory	2022-08-09	2024-11-02	-180, -90, 180, 90	False	daily, emit, nasa, radiance	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_EMIT_L1B_RAD.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_EMIT_L1B_RAD	proprietary
-NASA/EMIT/L2A/RFL	EMIT L2A Estimated Surface Reflectance and Uncertainty and Masks 60 m	image_collection	ee.ImageCollection('NASA/EMIT/L2A/RFL')	NASA Jet Propulsion Laboratory	2022-08-09	2024-11-01	-180, -90, 180, 90	False	daily, emit, nasa, reflectance	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_EMIT_L2A_RFL.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_EMIT_L2A_RFL	proprietary
+NASA/EMIT/L1B/RAD	EMIT L1B At-Sensor Calibrated Radiance and Geolocation Data 60 m	image_collection	ee.ImageCollection('NASA/EMIT/L1B/RAD')	NASA Jet Propulsion Laboratory	2022-08-09	2024-11-03	-180, -90, 180, 90	False	daily, emit, nasa, radiance	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_EMIT_L1B_RAD.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_EMIT_L1B_RAD	proprietary
+NASA/EMIT/L2A/RFL	EMIT L2A Estimated Surface Reflectance and Uncertainty and Masks 60 m	image_collection	ee.ImageCollection('NASA/EMIT/L2A/RFL')	NASA Jet Propulsion Laboratory	2022-08-09	2024-11-03	-180, -90, 180, 90	False	daily, emit, nasa, reflectance	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_EMIT_L2A_RFL.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_EMIT_L2A_RFL	proprietary
 NASA/EMIT/L2B/CH4ENH	Earth Surface Mineral Dust Source Investigation- Methane Enhancement	image_collection	ee.ImageCollection('NASA/EMIT/L2B/CH4ENH')	NASA Jet Propulsion Laboratory	2022-08-10	2024-10-05	-180, -90, 180, 90	False	daily, emit, nasa, methane	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_EMIT_L2B_CH4ENH.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_EMIT_L2B_CH4ENH	proprietary
 NASA/EMIT/L2B/CH4PLM	Earth Surface Mineral Dust Source Investigation- Methane Plume Complexes	image_collection	ee.ImageCollection('NASA/EMIT/L2B/CH4PLM')	NASA Jet Propulsion Laboratory	2022-08-10	2024-09-30	-180, -90, 180, 90	False	daily, emit, nasa, methane	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_EMIT_L2B_CH4PLM.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_EMIT_L2B_CH4PLM	proprietary
 NASA/FLDAS/NOAH01/C/GL/M/V001	FLDAS: Famine Early Warning Systems Network (FEWS NET) Land Data Assimilation System	image_collection	ee.ImageCollection('NASA/FLDAS/NOAH01/C/GL/M/V001')	NASA GES DISC at NASA Goddard Space Flight Center	1982-01-01	2024-09-01	-180, -60, 180, 90	False	climate, evapotranspiration, famine, fldas, humidity, ldas, monthly, nasa, runoff, snow, soil_moisture, soil_temperature, temperature, wind	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_FLDAS_NOAH01_C_GL_M_V001.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_FLDAS_NOAH01_C_GL_M_V001	proprietary
 NASA/GDDP-CMIP6	NEX-GDDP-CMIP6: NASA Earth Exchange Global Daily Downscaled Climate Projections	image_collection	ee.ImageCollection('NASA/GDDP-CMIP6')	NASA / Climate Analytics Group	1950-01-01	2100-12-31	-180, -90, 180, 90	False	cag, climate, gddp, geophysical, ipcc, nasa, nex, precipitation, temperature	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GDDP-CMIP6.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GDDP-CMIP6	various
-NASA/GEOS-CF/v1/fcst/htf	GEOS-CF fcst htf v1: Goddard Earth Observing System Composition Forecast	image_collection	ee.ImageCollection('NASA/GEOS-CF/v1/fcst/htf')	NASA / GMAO	2022-10-01	2024-11-02	-180, -90, 180, 90	False	composition, forecast, geos, gmao, nasa	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GEOS-CF_v1_fcst_htf.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GEOS-CF_v1_fcst_htf	proprietary
-NASA/GEOS-CF/v1/fcst/tavg1hr	GEOS-CF fcst tavg1hr v1: Goddard Earth Observing System Composition Forecast	image_collection	ee.ImageCollection('NASA/GEOS-CF/v1/fcst/tavg1hr')	NASA / GMAO	2022-10-01	2024-11-02	-180, -90, 180, 90	False	composition, forecast, geos, gmao, nasa	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GEOS-CF_v1_fcst_tavg1hr.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GEOS-CF_v1_fcst_tavg1hr	proprietary
-NASA/GEOS-CF/v1/rpl/htf	GEOS-CF rpl htf v1: Goddard Earth Observing System Composition Forecast	image_collection	ee.ImageCollection('NASA/GEOS-CF/v1/rpl/htf')	NASA / GMAO	2018-01-01	2024-11-02	-180, -90, 180, 90	False	composition, forecast, geos, gmao, nasa	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GEOS-CF_v1_rpl_htf.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GEOS-CF_v1_rpl_htf	proprietary
-NASA/GEOS-CF/v1/rpl/tavg1hr	GEOS-CF rpl tavg1hr v1: Goddard Earth Observing System Composition Forecast	image_collection	ee.ImageCollection('NASA/GEOS-CF/v1/rpl/tavg1hr')	NASA / GMAO	2018-01-01	2024-11-02	-180, -90, 180, 90	False	composition, forecast, geos, gmao, nasa	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GEOS-CF_v1_rpl_tavg1hr.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GEOS-CF_v1_rpl_tavg1hr	proprietary
+NASA/GEOS-CF/v1/fcst/htf	GEOS-CF fcst htf v1: Goddard Earth Observing System Composition Forecast	image_collection	ee.ImageCollection('NASA/GEOS-CF/v1/fcst/htf')	NASA / GMAO	2022-10-01	2024-11-03	-180, -90, 180, 90	False	composition, forecast, geos, gmao, nasa	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GEOS-CF_v1_fcst_htf.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GEOS-CF_v1_fcst_htf	proprietary
+NASA/GEOS-CF/v1/fcst/tavg1hr	GEOS-CF fcst tavg1hr v1: Goddard Earth Observing System Composition Forecast	image_collection	ee.ImageCollection('NASA/GEOS-CF/v1/fcst/tavg1hr')	NASA / GMAO	2022-10-01	2024-11-03	-180, -90, 180, 90	False	composition, forecast, geos, gmao, nasa	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GEOS-CF_v1_fcst_tavg1hr.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GEOS-CF_v1_fcst_tavg1hr	proprietary
+NASA/GEOS-CF/v1/rpl/htf	GEOS-CF rpl htf v1: Goddard Earth Observing System Composition Forecast	image_collection	ee.ImageCollection('NASA/GEOS-CF/v1/rpl/htf')	NASA / GMAO	2018-01-01	2024-11-03	-180, -90, 180, 90	False	composition, forecast, geos, gmao, nasa	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GEOS-CF_v1_rpl_htf.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GEOS-CF_v1_rpl_htf	proprietary
+NASA/GEOS-CF/v1/rpl/tavg1hr	GEOS-CF rpl tavg1hr v1: Goddard Earth Observing System Composition Forecast	image_collection	ee.ImageCollection('NASA/GEOS-CF/v1/rpl/tavg1hr')	NASA / GMAO	2018-01-01	2024-11-03	-180, -90, 180, 90	False	composition, forecast, geos, gmao, nasa	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GEOS-CF_v1_rpl_tavg1hr.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GEOS-CF_v1_rpl_tavg1hr	proprietary
 NASA/GIMMS/3GV0	GIMMS NDVI From AVHRR Sensors (3rd Generation)	image_collection	ee.ImageCollection('NASA/GIMMS/3GV0')	NASA/NOAA	1981-07-01	2013-12-16	-180, -90, 180, 90	False	avhrr, gimms, nasa, ndvi, noaa, vegetation	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GIMMS_3GV0.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GIMMS_3GV0	proprietary
 NASA/GLDAS/V021/NOAH/G025/T3H	GLDAS-2.1: Global Land Data Assimilation System	image_collection	ee.ImageCollection('NASA/GLDAS/V021/NOAH/G025/T3H')	NASA GES DISC at NASA Goddard Space Flight Center	2000-01-01	2024-10-20	-180, -90, 180, 90	False	3_hourly, climate, evaporation, forcing, geophysical, gldas, humidity, ldas, nasa, precipitation, pressure, radiation, soil, soil_moisture, surface, temperature, wind	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GLDAS_V021_NOAH_G025_T3H.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GLDAS_V021_NOAH_G025_T3H	proprietary
 NASA/GLDAS/V022/CLSM/G025/DA1D	GLDAS-2.2: Global Land Data Assimilation System	image_collection	ee.ImageCollection('NASA/GLDAS/V022/CLSM/G025/DA1D')	NASA GES DISC at NASA Goddard Earth Sciences Data and Information Services Center	2003-01-01	2024-05-31	-180, -90, 180, 90	False	3_hourly, climate, evaporation, forcing, geophysical, gldas, humidity, ldas, nasa, precipitation, pressure, radiation, soil, soil_moisture, surface, temperature, wind	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GLDAS_V022_CLSM_G025_DA1D.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GLDAS_V022_CLSM_G025_DA1D	proprietary
@@ -554,7 +554,7 @@ NASA/GLDAS/V20/NOAH/G025/T3H	Reprocessed GLDAS-2.0: Global Land Data Assimilatio
 NASA/GPM_L3/IMERG_MONTHLY_V06	GPM: Monthly Global Precipitation Measurement (GPM) v6	image_collection	ee.ImageCollection('NASA/GPM_L3/IMERG_MONTHLY_V06')	NASA GES DISC at NASA Goddard Space Flight Center	2000-06-01	2021-09-01	-180, -90, 180, 90	False	climate, geophysical, gpm, imerg, jaxa, monthly, nasa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GPM_L3_IMERG_MONTHLY_V06.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GPM_L3_IMERG_MONTHLY_V06	proprietary
 NASA/GPM_L3/IMERG_MONTHLY_V07	GPM: Monthly Global Precipitation Measurement (GPM) vRelease 07	image_collection	ee.ImageCollection('NASA/GPM_L3/IMERG_MONTHLY_V07')	NASA GES DISC at NASA Goddard Space Flight Center	2000-06-01	2024-05-01	-180, -90, 180, 90	False	climate, geophysical, gpm, imerg, jaxa, monthly, nasa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GPM_L3_IMERG_MONTHLY_V07.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GPM_L3_IMERG_MONTHLY_V07	proprietary
 NASA/GPM_L3/IMERG_V06	GPM: Global Precipitation Measurement (GPM) Release 06 [deprecated]	image_collection	ee.ImageCollection('NASA/GPM_L3/IMERG_V06')	NASA GES DISC at NASA Goddard Space Flight Center	2000-06-01	2024-06-02	-180, -90, 180, 90	True	climate, geophysical, gpm, half_hourly, imerg, jaxa, nasa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GPM_L3_IMERG_V06.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GPM_L3_IMERG_V06	proprietary
-NASA/GPM_L3/IMERG_V07	GPM: Global Precipitation Measurement (GPM) Release 07	image_collection	ee.ImageCollection('NASA/GPM_L3/IMERG_V07')	NASA GES DISC at NASA Goddard Space Flight Center	2000-06-01	2024-11-03	-180, -90, 180, 90	False	climate, geophysical, gpm, half_hourly, imerg, jaxa, nasa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GPM_L3_IMERG_V07.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GPM_L3_IMERG_V07	proprietary
+NASA/GPM_L3/IMERG_V07	GPM: Global Precipitation Measurement (GPM) Release 07	image_collection	ee.ImageCollection('NASA/GPM_L3/IMERG_V07')	NASA GES DISC at NASA Goddard Space Flight Center	2000-06-01	2024-11-04	-180, -90, 180, 90	False	climate, geophysical, gpm, half_hourly, imerg, jaxa, nasa, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GPM_L3_IMERG_V07.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GPM_L3_IMERG_V07	proprietary
 NASA/GRACE/MASS_GRIDS/LAND	GRACE Monthly Mass Grids - Land [deprecated]	image_collection	ee.ImageCollection('NASA/GRACE/MASS_GRIDS/LAND')	NASA Jet Propulsion Laboratory	2002-04-01	2017-01-07	-180, -90, 180, 90	True	crs, gfz, grace, gravity, jpl, land, mass, nasa, tellus, water	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GRACE_MASS_GRIDS_LAND.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GRACE_MASS_GRIDS_LAND	proprietary
 NASA/GRACE/MASS_GRIDS/MASCON	GRACE Monthly Mass Grids - Global Mascons [deprecated]	image_collection	ee.ImageCollection('NASA/GRACE/MASS_GRIDS/MASCON')	NASA Jet Propulsion Laboratory	2002-03-31	2017-05-22	-180, -90, 180, 90	True	grace, gravity, jpl, mascon, mass, nasa, tellus, water	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GRACE_MASS_GRIDS_MASCON.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GRACE_MASS_GRIDS_MASCON	proprietary
 NASA/GRACE/MASS_GRIDS/MASCON_CRI	GRACE Monthly Mass Grids - Global Mascon (CRI Filtered) [deprecated]	image_collection	ee.ImageCollection('NASA/GRACE/MASS_GRIDS/MASCON_CRI')	NASA Jet Propulsion Laboratory	2002-03-31	2017-05-22	-180, -90, 180, 90	True	grace, gravity, jpl, mascon, mass, nasa, tellus, water	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GRACE_MASS_GRIDS_MASCON_CRI.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GRACE_MASS_GRIDS_MASCON_CRI	proprietary
@@ -572,7 +572,7 @@ NASA/GSFC/MERRA/rad/2	MERRA-2 M2T1NXRAD: Radiation Diagnostics V5.12.4	image_col
 NASA/GSFC/MERRA/slv/2	MERRA-2 M2T1NXSLV: Single-Level Diagnostics V5.12.4	image_collection	ee.ImageCollection('NASA/GSFC/MERRA/slv/2')	NASA/MERRA	1980-01-01	2024-10-01	-180, -90, 180, 90	False	condensation, humidity, merra, nasa, omega, pressure, slv, temperature, vapor, water, wind	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_GSFC_MERRA_slv_2.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_GSFC_MERRA_slv_2	proprietary
 NASA/HLS/HLSL30/v002	HLSL30: HLS-2 Landsat Operational Land Imager Surface Reflectance and TOA Brightness Daily Global 30m	image_collection	ee.ImageCollection('NASA/HLS/HLSL30/v002')	NASA LP DAAC	2013-04-11	2024-10-31	-180, -90, 180, 90	False	landsat, nasa, sentinel, usgs	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_HLS_HLSL30_v002.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_HLS_HLSL30_v002	proprietary
 NASA/JPL/global_forest_canopy_height_2005	Global Forest Canopy Height, 2005	image	ee.Image('NASA/JPL/global_forest_canopy_height_2005')	NASA/JPL	2005-05-20	2005-06-23	-180, -90, 180, 90	False	canopy, forest, geophysical, glas, jpl, nasa	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_JPL_global_forest_canopy_height_2005.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_JPL_global_forest_canopy_height_2005	proprietary
-NASA/LANCE/NOAA20_VIIRS/C2	VJ114IMGTDL_NRT Daily Raster: VIIRS (NOAA-20) Band 375m Active Fire	image_collection	ee.ImageCollection('NASA/LANCE/NOAA20_VIIRS/C2')	NASA / LANCE / NOAA20_VIIRS	2023-10-08	2024-11-02	-180, -90, 180, 90	False	eosdis, fire, firms, geophysical, hotspot, lance, modis, nasa, thermal, viirs	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_LANCE_NOAA20_VIIRS_C2.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_LANCE_NOAA20_VIIRS_C2	proprietary
+NASA/LANCE/NOAA20_VIIRS/C2	VJ114IMGTDL_NRT Daily Raster: VIIRS (NOAA-20) Band 375m Active Fire	image_collection	ee.ImageCollection('NASA/LANCE/NOAA20_VIIRS/C2')	NASA / LANCE / NOAA20_VIIRS	2023-10-08	2024-11-03	-180, -90, 180, 90	False	eosdis, fire, firms, geophysical, hotspot, lance, modis, nasa, thermal, viirs	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_LANCE_NOAA20_VIIRS_C2.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_LANCE_NOAA20_VIIRS_C2	proprietary
 NASA/LANCE/SNPP_VIIRS/C2	VNP14IMGTDL_NRT Daily Raster: VIIRS (S-NPP) Band 375m Active Fire	image_collection	ee.ImageCollection('NASA/LANCE/SNPP_VIIRS/C2')	NASA / LANCE / SNPP_VIIRS	2023-09-03	2024-11-02	-180, -90, 180, 90	False	eosdis, fire, firms, geophysical, hotspot, lance, modis, nasa, thermal, viirs	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_LANCE_SNPP_VIIRS_C2.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_LANCE_SNPP_VIIRS_C2	proprietary
 NASA/MEASURES/GFCC/TC/v3	Global Forest Cover Change (GFCC) Tree Cover Multi-Year Global 30m	image_collection	ee.ImageCollection('NASA/MEASURES/GFCC/TC/v3')	NASA LP DAAC at the USGS EROS Center	2000-01-01	2015-01-01	-180, -90, 180, 90	False	forest, glcf, landsat_derived, nasa, umd	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_MEASURES_GFCC_TC_v3.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_MEASURES_GFCC_TC_v3	proprietary
 NASA/NASADEM_HGT/001	NASADEM: NASA NASADEM Digital Elevation 30m	image	ee.Image('NASA/NASADEM_HGT/001')	NASA / USGS / JPL-Caltech	2000-02-11	2000-02-22	-180, -56, 180, 60	False	dem, elevation, geophysical, nasa, nasadem, srtm, topography, usgs	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_NASADEM_HGT_001.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_NASADEM_HGT_001	proprietary
@@ -588,8 +588,8 @@ NASA/ORNL/DAYMET_V4	Daymet V4: Daily Surface Weather and Climatological Summarie
 NASA/ORNL/biomass_carbon_density/v1	Global Aboveground and Belowground Biomass Carbon Density Maps	image_collection	ee.ImageCollection('NASA/ORNL/biomass_carbon_density/v1')	NASA ORNL DAAC at Oak Ridge National Laboratory	2010-01-01	2010-12-31	-180, -61.1, 180, 84	False	aboveground, belowground, biomass, carbon, density, forest, nasa, ornl, vegetation	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_ORNL_biomass_carbon_density_v1.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_ORNL_biomass_carbon_density_v1	proprietary
 NASA/ORNL/global_forest_classification_2020/V1	Global 2020 Forest Classification for IPCC Aboveground Biomass Tier 1 Estimates, V1	image_collection	ee.ImageCollection('NASA/ORNL/global_forest_classification_2020/V1')	NASA ORNL DAAC at Oak Ridge National Laboratory	2020-01-01	2020-12-31	-180, -90, 180, 90	False	aboveground, biomass, carbon, classification, forest, ipcc, nasa, primary_forest, secondary_forest	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_ORNL_global_forest_classification_2020_V1.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_ORNL_global_forest_classification_2020_V1	proprietary
 NASA/SMAP/SPL3SMP_E/005	SPL3SMP_E.005 SMAP L3 Radiometer Global Daily 9 km Soil Moisture	image_collection	ee.ImageCollection('NASA/SMAP/SPL3SMP_E/005')	Google and NSIDC	2015-03-31	2023-12-03	-180, -84, 180, 84	False	drought, nasa, smap, soil_moisture, surface, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_SMAP_SPL3SMP_E_005.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_SMAP_SPL3SMP_E_005	proprietary
-NASA/SMAP/SPL3SMP_E/006	SPL3SMP_E.006 SMAP L3 Radiometer Global Daily 9 km Soil Moisture	image_collection	ee.ImageCollection('NASA/SMAP/SPL3SMP_E/006')	Google and NSIDC	2023-12-04	2024-11-01	-180, -84, 180, 84	False	drought, nasa, smap, soil_moisture, surface, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_SMAP_SPL3SMP_E_006.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_SMAP_SPL3SMP_E_006	proprietary
-NASA/SMAP/SPL4SMGP/007	SPL4SMGP.007 SMAP L4 Global 3-hourly 9-km Surface and Root Zone Soil Moisture	image_collection	ee.ImageCollection('NASA/SMAP/SPL4SMGP/007')	Google and NSIDC	2015-03-31	2024-10-31	-180, -84, 180, 84	False	drought, nasa, smap, soil_moisture, surface, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_SMAP_SPL4SMGP_007.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_SMAP_SPL4SMGP_007	proprietary
+NASA/SMAP/SPL3SMP_E/006	SPL3SMP_E.006 SMAP L3 Radiometer Global Daily 9 km Soil Moisture	image_collection	ee.ImageCollection('NASA/SMAP/SPL3SMP_E/006')	Google and NSIDC	2023-12-04	2024-11-03	-180, -84, 180, 84	False	drought, nasa, smap, soil_moisture, surface, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_SMAP_SPL3SMP_E_006.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_SMAP_SPL3SMP_E_006	proprietary
+NASA/SMAP/SPL4SMGP/007	SPL4SMGP.007 SMAP L4 Global 3-hourly 9-km Surface and Root Zone Soil Moisture	image_collection	ee.ImageCollection('NASA/SMAP/SPL4SMGP/007')	Google and NSIDC	2015-03-31	2024-11-02	-180, -84, 180, 84	False	drought, nasa, smap, soil_moisture, surface, weather	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_SMAP_SPL4SMGP_007.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_SMAP_SPL4SMGP_007	proprietary
 NASA/VIIRS/002/VNP09GA	VNP09GA: VIIRS Surface Reflectance Daily 500m and 1km	image_collection	ee.ImageCollection('NASA/VIIRS/002/VNP09GA')	NASA Land SIPS	2012-01-19	2024-10-30	-180, -90, 180, 90	False	daily, nasa, noaa, npp, reflectance, sr, viirs, vnp09ga	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_VIIRS_002_VNP09GA.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_VIIRS_002_VNP09GA	proprietary
 NASA/VIIRS/002/VNP09H1	VNP09H1: VIIRS Surface Reflectance 8-Day L3 Global 500m	image_collection	ee.ImageCollection('NASA/VIIRS/002/VNP09H1')	NASA LP DAAC at the USGS EROS Center	2012-01-19	2024-10-23	-180, -90, 180, 90	False	daily, nasa, noaa, npp, reflectance, sr, viirs	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_VIIRS_002_VNP09H1.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_VIIRS_002_VNP09H1	proprietary
 NASA/VIIRS/002/VNP13A1	VNP13A1.002: VIIRS Vegetation Indices 16-Day 500m	image_collection	ee.ImageCollection('NASA/VIIRS/002/VNP13A1')	NASA LP DAAC at the USGS EROS Center	2012-01-17	2024-10-15	-180, -90, 180, 90	False	16_day, evi, nasa, ndvi, noaa, npp, vegetation, viirs, vnp13a1	https://storage.googleapis.com/earthengine-stac/catalog/NASA/NASA_VIIRS_002_VNP13A1.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_VIIRS_002_VNP13A1	proprietary
@@ -600,9 +600,9 @@ NASA/VIIRS/002/VNP21A1N	VNP21A1N.002: Night Land Surface Temperature and Emissiv
 NASA_USDA/HSL/SMAP10KM_soil_moisture	NASA-USDA Enhanced SMAP Global Soil Moisture Data [deprecated]	image_collection	ee.ImageCollection('NASA_USDA/HSL/SMAP10KM_soil_moisture')	NASA GSFC	2015-04-02	2022-08-02	-180, -60, 180, 90	True	geophysical, hsl, nasa, smap, soil, soil_moisture, usda	https://storage.googleapis.com/earthengine-stac/catalog/NASA_USDA/NASA_USDA_HSL_SMAP10KM_soil_moisture.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_USDA_HSL_SMAP10KM_soil_moisture	proprietary
 NASA_USDA/HSL/SMAP_soil_moisture	NASA-USDA SMAP Global Soil Moisture Data [deprecated]	image_collection	ee.ImageCollection('NASA_USDA/HSL/SMAP_soil_moisture')	NASA GSFC	2015-04-02	2020-12-31	-180, -60, 180, 90	True	geophysical, hsl, nasa, smap, soil, soil_moisture, usda	https://storage.googleapis.com/earthengine-stac/catalog/NASA_USDA/NASA_USDA_HSL_SMAP_soil_moisture.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_USDA_HSL_SMAP_soil_moisture	proprietary
 NASA_USDA/HSL/soil_moisture	NASA-USDA Global Soil Moisture Data [deprecated]	image_collection	ee.ImageCollection('NASA_USDA/HSL/soil_moisture')	NASA GSFC	2010-01-13	2020-12-31	-180, -60, 180, 90	True	geophysical, hsl, nasa, smos, soil, soil_moisture, usda	https://storage.googleapis.com/earthengine-stac/catalog/NASA_USDA/NASA_USDA_HSL_soil_moisture.json	https://developers.google.com/earth-engine/datasets/catalog/NASA_USDA_HSL_soil_moisture	proprietary
-NCEP_RE/sea_level_pressure	NCEP/NCAR Reanalysis Data, Sea-Level Pressure	image_collection	ee.ImageCollection('NCEP_RE/sea_level_pressure')	NCEP	1948-01-01	2024-10-31	-180, -90, 180, 90	False	atmosphere, climate, geophysical, ncep, noaa, pressure, reanalysis	https://storage.googleapis.com/earthengine-stac/catalog/NCEP_RE/NCEP_RE_sea_level_pressure.json	https://developers.google.com/earth-engine/datasets/catalog/NCEP_RE_sea_level_pressure	proprietary
-NCEP_RE/surface_temp	NCEP/NCAR Reanalysis Data, Surface Temperature	image_collection	ee.ImageCollection('NCEP_RE/surface_temp')	NCEP	1948-01-01	2024-10-31	-180, -90, 180, 90	False	atmosphere, climate, geophysical, ncep, noaa, reanalysis, temperature	https://storage.googleapis.com/earthengine-stac/catalog/NCEP_RE/NCEP_RE_surface_temp.json	https://developers.google.com/earth-engine/datasets/catalog/NCEP_RE_surface_temp	proprietary
-NCEP_RE/surface_wv	NCEP/NCAR Reanalysis Data, Water Vapor	image_collection	ee.ImageCollection('NCEP_RE/surface_wv')	NCEP	1948-01-01	2024-10-31	-180, -90, 180, 90	False	atmosphere, climate, geophysical, ncep, noaa, precipitable, reanalysis, vapor	https://storage.googleapis.com/earthengine-stac/catalog/NCEP_RE/NCEP_RE_surface_wv.json	https://developers.google.com/earth-engine/datasets/catalog/NCEP_RE_surface_wv	proprietary
+NCEP_RE/sea_level_pressure	NCEP/NCAR Reanalysis Data, Sea-Level Pressure	image_collection	ee.ImageCollection('NCEP_RE/sea_level_pressure')	NCEP	1948-01-01	2024-11-01	-180, -90, 180, 90	False	atmosphere, climate, geophysical, ncep, noaa, pressure, reanalysis	https://storage.googleapis.com/earthengine-stac/catalog/NCEP_RE/NCEP_RE_sea_level_pressure.json	https://developers.google.com/earth-engine/datasets/catalog/NCEP_RE_sea_level_pressure	proprietary
+NCEP_RE/surface_temp	NCEP/NCAR Reanalysis Data, Surface Temperature	image_collection	ee.ImageCollection('NCEP_RE/surface_temp')	NCEP	1948-01-01	2024-11-01	-180, -90, 180, 90	False	atmosphere, climate, geophysical, ncep, noaa, reanalysis, temperature	https://storage.googleapis.com/earthengine-stac/catalog/NCEP_RE/NCEP_RE_surface_temp.json	https://developers.google.com/earth-engine/datasets/catalog/NCEP_RE_surface_temp	proprietary
+NCEP_RE/surface_wv	NCEP/NCAR Reanalysis Data, Water Vapor	image_collection	ee.ImageCollection('NCEP_RE/surface_wv')	NCEP	1948-01-01	2024-11-01	-180, -90, 180, 90	False	atmosphere, climate, geophysical, ncep, noaa, precipitable, reanalysis, vapor	https://storage.googleapis.com/earthengine-stac/catalog/NCEP_RE/NCEP_RE_surface_wv.json	https://developers.google.com/earth-engine/datasets/catalog/NCEP_RE_surface_wv	proprietary
 NOAA/CDR/ATMOS_NEAR_SURFACE/V2	NOAA CDR: Ocean Near-Surface Atmospheric Properties, Version 2	image_collection	ee.ImageCollection('NOAA/CDR/ATMOS_NEAR_SURFACE/V2')	NOAA	1988-01-01	2021-08-31	-180, -90, 180, 90	False	air_temperature, atmospheric, cdr, hourly, humidity, noaa, ocean, osb, wind	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_ATMOS_NEAR_SURFACE_V2.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_ATMOS_NEAR_SURFACE_V2	proprietary
 NOAA/CDR/AVHRR/AOT/V3	NOAA CDR AVHRR AOT: Daily Aerosol Optical Thickness Over Global Oceans, v03 [deprecated]	image_collection	ee.ImageCollection('NOAA/CDR/AVHRR/AOT/V3')	NOAA	1981-01-01	2022-03-31	-180, -90, 180, 90	True	aerosol, aot, atmospheric, avhrr, cdr, daily, noaa, optical, pollution	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_AVHRR_AOT_V3.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_AVHRR_AOT_V3	proprietary
 NOAA/CDR/AVHRR/AOT/V4	NOAA CDR AVHRR AOT: Daily Aerosol Optical Thickness Over Global Oceans, v04	image_collection	ee.ImageCollection('NOAA/CDR/AVHRR/AOT/V4')	NOAA	1981-01-01	2024-06-30	-180, -90, 180, 90	False	aerosol, aot, atmospheric, avhrr, cdr, daily, noaa, optical, pollution	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_AVHRR_AOT_V4.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_AVHRR_AOT_V4	proprietary
@@ -615,36 +615,36 @@ NOAA/CDR/AVHRR/SR/V5	NOAA CDR AVHRR: Surface Reflectance, Version 5	image_collec
 NOAA/CDR/GRIDSAT-B1/V2	NOAA CDR GRIDSAT-B1: Geostationary IR Channel Brightness Temperature	image_collection	ee.ImageCollection('NOAA/CDR/GRIDSAT-B1/V2')	NOAA	1980-01-01	2024-03-31	-180, -90, 180, 90	False	brightness, cdr, fundamental, geostationary, infrared, isccp, noaa, reflectance, sr	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_GRIDSAT-B1_V2.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_GRIDSAT-B1_V2	proprietary
 NOAA/CDR/HEAT_FLUXES/V2	NOAA CDR: Ocean Heat Fluxes, Version 2	image_collection	ee.ImageCollection('NOAA/CDR/HEAT_FLUXES/V2')	NOAA	1988-01-01	2021-08-31	-180, -90, 180, 90	False	atmospheric, cdr, flux, heat, hourly, noaa, ocean, osb	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_HEAT_FLUXES_V2.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_HEAT_FLUXES_V2	proprietary
 NOAA/CDR/OISST/V2	NOAA CDR OISST v2: Optimum Interpolation Sea Surface Temperature [deprecated]	image_collection	ee.ImageCollection('NOAA/CDR/OISST/V2')	NOAA	1981-09-01	2020-04-26	-180, -90, 180, 90	True	avhrr, cdr, daily, ice, noaa, ocean, oisst, real_time, sst, temperature	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_OISST_V2.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_OISST_V2	proprietary
-NOAA/CDR/OISST/V2_1	NOAA CDR OISST v02r01: Optimum Interpolation Sea Surface Temperature	image_collection	ee.ImageCollection('NOAA/CDR/OISST/V2_1')	NOAA	1981-09-01	2024-11-01	-180, -90, 180, 90	False	avhrr, cdr, daily, ice, noaa, ocean, oisst, real_time, sst, temperature	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_OISST_V2_1.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_OISST_V2_1	proprietary
+NOAA/CDR/OISST/V2_1	NOAA CDR OISST v02r01: Optimum Interpolation Sea Surface Temperature	image_collection	ee.ImageCollection('NOAA/CDR/OISST/V2_1')	NOAA	1981-09-01	2024-11-02	-180, -90, 180, 90	False	avhrr, cdr, daily, ice, noaa, ocean, oisst, real_time, sst, temperature	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_OISST_V2_1.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_OISST_V2_1	proprietary
 NOAA/CDR/PATMOSX/V53	NOAA CDR PATMOSX: Cloud Properties, Reflectance, and Brightness Temperatures, Version 5.3	image_collection	ee.ImageCollection('NOAA/CDR/PATMOSX/V53')	NOAA	1979-01-01	2022-01-01	-180, -90, 180, 90	False	atmospheric, avhrr, brightness, cdr, cloud, metop, noaa, optical, poes, reflectance, temperature	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_PATMOSX_V53.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_PATMOSX_V53	proprietary
 NOAA/CDR/SST_PATHFINDER/V53	NOAA AVHRR Pathfinder Version 5.3 Collated Global 4km Sea Surface Temperature	image_collection	ee.ImageCollection('NOAA/CDR/SST_PATHFINDER/V53')	NOAA	1981-08-24	2023-12-30	-180, -90, 180, 90	False	avhrr, noaa, pathfinder, sea_ice, sst, temperature, wind	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_SST_PATHFINDER_V53.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_SST_PATHFINDER_V53	proprietary
 NOAA/CDR/SST_WHOI/V2	NOAA CDR WHOI: Sea Surface Temperature, Version 2	image_collection	ee.ImageCollection('NOAA/CDR/SST_WHOI/V2')	NOAA	1988-01-01	2021-08-31	-180, -90, 180, 90	False	atmospheric, cdr, hourly, noaa, ocean, oisst, osb, sst, whoi	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CDR_SST_WHOI_V2.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CDR_SST_WHOI_V2	proprietary
-NOAA/CFSR	CFSR: Climate Forecast System Reanalysis	image_collection	ee.ImageCollection('NOAA/CFSR')	NOAA NWS National Centers for Environmental Prediction (NCEP)	2018-12-13	2024-11-03	-180, -90, 180, 90	False	climate, daylight, flux, forecast, geophysical, ncep, noaa, nws, precipitation, radiation, snow, temperature, vapor, water, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CFSR.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CFSR	proprietary
-NOAA/CFSV2/FOR6H	CFSV2: NCEP Climate Forecast System Version 2, 6-Hourly Products	image_collection	ee.ImageCollection('NOAA/CFSV2/FOR6H')	NOAA NWS National Centers for Environmental Prediction (NCEP)	1979-01-01	2024-11-03	-180, -90, 180, 90	False	climate, daylight, flux, forecast, geophysical, ncep, noaa, nws, precipitation, radiation, snow, temperature, vapor, water, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CFSV2_FOR6H.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CFSV2_FOR6H	proprietary
+NOAA/CFSR	CFSR: Climate Forecast System Reanalysis	image_collection	ee.ImageCollection('NOAA/CFSR')	NOAA NWS National Centers for Environmental Prediction (NCEP)	2018-12-13	2024-11-04	-180, -90, 180, 90	False	climate, daylight, flux, forecast, geophysical, ncep, noaa, nws, precipitation, radiation, snow, temperature, vapor, water, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CFSR.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CFSR	proprietary
+NOAA/CFSV2/FOR6H	CFSV2: NCEP Climate Forecast System Version 2, 6-Hourly Products	image_collection	ee.ImageCollection('NOAA/CFSV2/FOR6H')	NOAA NWS National Centers for Environmental Prediction (NCEP)	1979-01-01	2024-11-04	-180, -90, 180, 90	False	climate, daylight, flux, forecast, geophysical, ncep, noaa, nws, precipitation, radiation, snow, temperature, vapor, water, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_CFSV2_FOR6H.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_CFSV2_FOR6H	proprietary
 NOAA/DMSP-OLS/CALIBRATED_LIGHTS_V4	DMSP OLS: Global Radiance-Calibrated Nighttime Lights Version 4, Defense Meteorological Program Operational Linescan System	image_collection	ee.ImageCollection('NOAA/DMSP-OLS/CALIBRATED_LIGHTS_V4')	Earth Observation Group, Payne Institute for Public Policy, Colorado School of Mines	1996-03-16	2011-07-31	-180, -65, 180, 75	False	calibrated, dmsp, eog, imagery, lights, nighttime, ols, radiance, visible, yearly	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_DMSP-OLS_CALIBRATED_LIGHTS_V4.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_DMSP-OLS_CALIBRATED_LIGHTS_V4	proprietary
 NOAA/DMSP-OLS/NIGHTTIME_LIGHTS	DMSP OLS: Nighttime Lights Time Series Version 4, Defense Meteorological Program Operational Linescan System	image_collection	ee.ImageCollection('NOAA/DMSP-OLS/NIGHTTIME_LIGHTS')	Earth Observation Group, Payne Institute for Public Policy, Colorado School of Mines	1992-01-01	2014-01-01	-180, -65, 180, 75	False	dmsp, eog, imagery, lights, nighttime, ols, visible, yearly	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_DMSP-OLS_NIGHTTIME_LIGHTS.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_DMSP-OLS_NIGHTTIME_LIGHTS	proprietary
-NOAA/GFS0P25	GFS: Global Forecast System 384-Hour Predicted Atmosphere Data	image_collection	ee.ImageCollection('NOAA/GFS0P25')	NOAA/NCEP/EMC	2015-07-01	2024-11-03	-180, -90, 180, 90	False	climate, cloud, emc, flux, forecast, geophysical, gfs, humidity, ncep, noaa, precipitation, radiation, temperature, vapor, weather, wind	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GFS0P25.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GFS0P25	proprietary
-NOAA/GOES/16/FDCC	GOES-16 FDCC Series ABI Level 2 Fire/Hot Spot Characterization CONUS	image_collection	ee.ImageCollection('NOAA/GOES/16/FDCC')	NOAA	2017-05-24	2024-11-03	-152.11, 14, -49.18, 56.77	False	abi, climate, fdc, fire, goes, goes_16, goes_east, goes_r, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_FDCC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_FDCC	proprietary
-NOAA/GOES/16/FDCF	GOES-16 FDCF Series ABI Level 2 Fire/Hot Spot Characterization Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/16/FDCF')	NOAA	2017-05-24	2024-11-03	-180, -90, 180, 90	False	abi, climate, fdc, fire, goes, goes_16, goes_east, goes_r, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_FDCF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_FDCF	proprietary
-NOAA/GOES/16/MCMIPC	GOES-16 MCMIPC Series ABI Level 2 Cloud and Moisture Imagery CONUS	image_collection	ee.ImageCollection('NOAA/GOES/16/MCMIPC')	NOAA	2017-07-10	2024-11-03	-152.11, 14, -49.18, 56.77	False	abi, climate, goes, goes_16, goes_east, goes_r, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_MCMIPC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_MCMIPC	proprietary
-NOAA/GOES/16/MCMIPF	GOES-16 MCMIPF Series ABI Level 2 Cloud and Moisture Imagery Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/16/MCMIPF')	NOAA	2017-07-10	2024-11-03	-180, -90, 180, 90	False	abi, climate, goes, goes_16, goes_east, goes_r, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_MCMIPF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_MCMIPF	proprietary
-NOAA/GOES/16/MCMIPM	GOES-16 MCMIPM Series ABI Level 2 Cloud and Moisture Imagery Mesoscale	image_collection	ee.ImageCollection('NOAA/GOES/16/MCMIPM')	NOAA	2017-07-10	2024-11-03	-180, -90, 180, 90	False	abi, climate, goes, goes_16, goes_east, goes_r, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_MCMIPM.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_MCMIPM	proprietary
+NOAA/GFS0P25	GFS: Global Forecast System 384-Hour Predicted Atmosphere Data	image_collection	ee.ImageCollection('NOAA/GFS0P25')	NOAA/NCEP/EMC	2015-07-01	2024-11-04	-180, -90, 180, 90	False	climate, cloud, emc, flux, forecast, geophysical, gfs, humidity, ncep, noaa, precipitation, radiation, temperature, vapor, weather, wind	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GFS0P25.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GFS0P25	proprietary
+NOAA/GOES/16/FDCC	GOES-16 FDCC Series ABI Level 2 Fire/Hot Spot Characterization CONUS	image_collection	ee.ImageCollection('NOAA/GOES/16/FDCC')	NOAA	2017-05-24	2024-11-04	-152.11, 14, -49.18, 56.77	False	abi, climate, fdc, fire, goes, goes_16, goes_east, goes_r, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_FDCC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_FDCC	proprietary
+NOAA/GOES/16/FDCF	GOES-16 FDCF Series ABI Level 2 Fire/Hot Spot Characterization Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/16/FDCF')	NOAA	2017-05-24	2024-11-04	-180, -90, 180, 90	False	abi, climate, fdc, fire, goes, goes_16, goes_east, goes_r, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_FDCF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_FDCF	proprietary
+NOAA/GOES/16/MCMIPC	GOES-16 MCMIPC Series ABI Level 2 Cloud and Moisture Imagery CONUS	image_collection	ee.ImageCollection('NOAA/GOES/16/MCMIPC')	NOAA	2017-07-10	2024-11-04	-152.11, 14, -49.18, 56.77	False	abi, climate, goes, goes_16, goes_east, goes_r, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_MCMIPC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_MCMIPC	proprietary
+NOAA/GOES/16/MCMIPF	GOES-16 MCMIPF Series ABI Level 2 Cloud and Moisture Imagery Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/16/MCMIPF')	NOAA	2017-07-10	2024-11-04	-180, -90, 180, 90	False	abi, climate, goes, goes_16, goes_east, goes_r, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_MCMIPF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_MCMIPF	proprietary
+NOAA/GOES/16/MCMIPM	GOES-16 MCMIPM Series ABI Level 2 Cloud and Moisture Imagery Mesoscale	image_collection	ee.ImageCollection('NOAA/GOES/16/MCMIPM')	NOAA	2017-07-10	2024-11-04	-180, -90, 180, 90	False	abi, climate, goes, goes_16, goes_east, goes_r, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_16_MCMIPM.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_16_MCMIPM	proprietary
 NOAA/GOES/17/FDCC	GOES-17 FDCC Series ABI Level 2 Fire/Hot Spot Characterization CONUS	image_collection	ee.ImageCollection('NOAA/GOES/17/FDCC')	NOAA	2018-08-27	2023-01-10	-180, 14.57, 180, 53.51	False	abi, climate, fdc, fire, goes, goes_17, goes_s, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_17_FDCC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_17_FDCC	proprietary
 NOAA/GOES/17/FDCF	GOES-17 FDCF Series ABI Level 2 Fire/Hot Spot Characterization Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/17/FDCF')	NOAA	2018-08-27	2023-01-10	-180, -90, 180, 90	False	abi, climate, fdc, fire, goes, goes_17, goes_s, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_17_FDCF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_17_FDCF	proprietary
 NOAA/GOES/17/MCMIPC	GOES-17 MCMIPC Series ABI Level 2 Cloud and Moisture Imagery CONUS	image_collection	ee.ImageCollection('NOAA/GOES/17/MCMIPC')	NOAA	2018-12-04	2023-01-10	-180, 14.57, 180, 53.51	False	abi, climate, goes, goes_17, goes_s, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_17_MCMIPC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_17_MCMIPC	proprietary
 NOAA/GOES/17/MCMIPF	GOES-17 MCMIPF Series ABI Level 2 Cloud and Moisture Imagery Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/17/MCMIPF')	NOAA	2018-12-04	2023-01-10	-180, -90, 180, 90	False	abi, climate, goes, goes_17, goes_s, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_17_MCMIPF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_17_MCMIPF	proprietary
 NOAA/GOES/17/MCMIPM	GOES-17 MCMIPM Series ABI Level 2 Cloud and Moisture Imagery Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/17/MCMIPM')	NOAA	2018-12-04	2023-01-10	-180, -90, 180, 90	False	abi, climate, goes, goes_17, goes_s, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_17_MCMIPM.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_17_MCMIPM	proprietary
-NOAA/GOES/18/FDCC	GOES-18 FDCC Series ABI Level 2 Fire/Hot Spot Characterization CONUS	image_collection	ee.ImageCollection('NOAA/GOES/18/FDCC')	NOAA	2022-10-13	2024-11-03	-180, 14.57, 180, 53.51	False	abi, climate, fdc, fire, goes, goes_18, goes_t, goes_west, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_FDCC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_FDCC	proprietary
-NOAA/GOES/18/FDCF	GOES-18 FDCF Series ABI Level 2 Fire/Hot Spot Characterization Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/18/FDCF')	NOAA	2022-10-13	2024-11-03	-180, -90, 180, 90	False	abi, climate, fdc, fire, goes, goes_18, goes_t, goes_west, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_FDCF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_FDCF	proprietary
-NOAA/GOES/18/MCMIPC	GOES-18 MCMIPC Series ABI Level 2 Cloud and Moisture Imagery CONUS	image_collection	ee.ImageCollection('NOAA/GOES/18/MCMIPC')	NOAA	2018-12-04	2024-11-03	-180, 14.57, 180, 53.51	False	abi, climate, goes, goes_18, goes_t, goes_west, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_MCMIPC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_MCMIPC	proprietary
-NOAA/GOES/18/MCMIPF	GOES-18 MCMIPF Series ABI Level 2 Cloud and Moisture Imagery Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/18/MCMIPF')	NOAA	2018-12-04	2024-11-03	-180, -90, 180, 90	False	abi, climate, goes, goes_18, goes_t, goes_west, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_MCMIPF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_MCMIPF	proprietary
-NOAA/GOES/18/MCMIPM	GOES-18 MCMIPM Series ABI Level 2 Cloud and Moisture Imagery Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/18/MCMIPM')	NOAA	2018-12-04	2024-11-03	-180, -90, 180, 90	False	abi, climate, goes, goes_18, goes_t, goes_west, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_MCMIPM.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_MCMIPM	proprietary
+NOAA/GOES/18/FDCC	GOES-18 FDCC Series ABI Level 2 Fire/Hot Spot Characterization CONUS	image_collection	ee.ImageCollection('NOAA/GOES/18/FDCC')	NOAA	2022-10-13	2024-11-04	-180, 14.57, 180, 53.51	False	abi, climate, fdc, fire, goes, goes_18, goes_t, goes_west, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_FDCC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_FDCC	proprietary
+NOAA/GOES/18/FDCF	GOES-18 FDCF Series ABI Level 2 Fire/Hot Spot Characterization Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/18/FDCF')	NOAA	2022-10-13	2024-11-04	-180, -90, 180, 90	False	abi, climate, fdc, fire, goes, goes_18, goes_t, goes_west, hotspot, nesdis, noaa, ospo, wildfire	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_FDCF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_FDCF	proprietary
+NOAA/GOES/18/MCMIPC	GOES-18 MCMIPC Series ABI Level 2 Cloud and Moisture Imagery CONUS	image_collection	ee.ImageCollection('NOAA/GOES/18/MCMIPC')	NOAA	2018-12-04	2024-11-04	-180, 14.57, 180, 53.51	False	abi, climate, goes, goes_18, goes_t, goes_west, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_MCMIPC.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_MCMIPC	proprietary
+NOAA/GOES/18/MCMIPF	GOES-18 MCMIPF Series ABI Level 2 Cloud and Moisture Imagery Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/18/MCMIPF')	NOAA	2018-12-04	2024-11-04	-180, -90, 180, 90	False	abi, climate, goes, goes_18, goes_t, goes_west, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_MCMIPF.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_MCMIPF	proprietary
+NOAA/GOES/18/MCMIPM	GOES-18 MCMIPM Series ABI Level 2 Cloud and Moisture Imagery Full Disk	image_collection	ee.ImageCollection('NOAA/GOES/18/MCMIPM')	NOAA	2018-12-04	2024-11-04	-180, -90, 180, 90	False	abi, climate, goes, goes_18, goes_t, goes_west, mcmip, nesdis, noaa, ospo, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_GOES_18_MCMIPM.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_GOES_18_MCMIPM	proprietary
 NOAA/IBTrACS/v4	International Best Track Archive for Climate Stewardship Project	table	ee.FeatureCollection('NOAA/IBTrACS/v4')	NOAA NCEI	1842-10-25	2024-05-19	-180, 0.4, 180, 63.1	False	hurricane, noaa, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_IBTrACS_v4.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_IBTrACS_v4	proprietary
 NOAA/NCEP_DOE_RE2/total_cloud_coverage	NCEP-DOE Reanalysis 2 (Gaussian Grid), Total Cloud Coverage	image_collection	ee.ImageCollection('NOAA/NCEP_DOE_RE2/total_cloud_coverage')	NOAA	1979-01-01	2024-09-30	-180, -90, 180, 90	False	atmosphere, climate, cloud, geophysical, ncep, noaa, reanalysis	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_NCEP_DOE_RE2_total_cloud_coverage.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_NCEP_DOE_RE2_total_cloud_coverage	proprietary
 NOAA/NGDC/ETOPO1	ETOPO1: Global 1 Arc-Minute Elevation	image	ee.Image('NOAA/NGDC/ETOPO1')	NOAA	2008-08-01	2008-08-01	-180, -90, 180, 90	False	bedrock, dem, elevation, geophysical, ice, noaa, topography	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_NGDC_ETOPO1.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_NGDC_ETOPO1	proprietary
 NOAA/NHC/HURDAT2/atlantic	NOAA NHC HURDAT2 Atlantic Hurricane Catalog	table	ee.FeatureCollection('NOAA/NHC/HURDAT2/atlantic')	NOAA NHC	1851-06-25	2018-11-04	-109.5, 7.2, 63, 81	False	hurricane, nhc, noaa, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_NHC_HURDAT2_atlantic.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_NHC_HURDAT2_atlantic	proprietary
 NOAA/NHC/HURDAT2/pacific	NOAA NHC HURDAT2 Pacific Hurricane Catalog	table	ee.FeatureCollection('NOAA/NHC/HURDAT2/pacific')	NOAA NHC	1949-06-11	2018-11-09	-180, 0.4, 180, 63.1	False	hurricane, nhc, noaa, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_NHC_HURDAT2_pacific.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_NHC_HURDAT2_pacific	proprietary
-NOAA/NWS/RTMA	RTMA: Real-Time Mesoscale Analysis	image_collection	ee.ImageCollection('NOAA/NWS/RTMA')	NOAA/NWS	2011-01-01	2024-11-03	-130.17, 20.15, -60.81, 52.91	False	climate, cloud, geophysical, humidity, noaa, nws, precipitation, pressure, rtma, surface, temperature, visibility, weather, wind	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_NWS_RTMA.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_NWS_RTMA	proprietary
+NOAA/NWS/RTMA	RTMA: Real-Time Mesoscale Analysis	image_collection	ee.ImageCollection('NOAA/NWS/RTMA')	NOAA/NWS	2011-01-01	2024-11-04	-130.17, 20.15, -60.81, 52.91	False	climate, cloud, geophysical, humidity, noaa, nws, precipitation, pressure, rtma, surface, temperature, visibility, weather, wind	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_NWS_RTMA.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_NWS_RTMA	proprietary
 NOAA/PERSIANN-CDR	PERSIANN-CDR: Precipitation Estimation From Remotely Sensed Information Using Artificial Neural Networks-Climate Data Record	image_collection	ee.ImageCollection('NOAA/PERSIANN-CDR')	NOAA NCDC	1983-01-01	2024-03-31	-180, -60, 180, 60	False	cdr, climate, geophysical, ncdc, noaa, persiann, precipitation, weather	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_PERSIANN-CDR.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_PERSIANN-CDR	proprietary
 NOAA/VIIRS/001/VNP09GA	VNP09GA: VIIRS Surface Reflectance Daily 500m and 1km [deprecated]	image_collection	ee.ImageCollection('NOAA/VIIRS/001/VNP09GA')	NASA LP DAAC at the USGS EROS Center	2012-01-19	2024-06-16	-180, -90, 180, 90	True	daily, nasa, noaa, npp, reflectance, sr, viirs, vnp09ga	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_VIIRS_001_VNP09GA.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_VIIRS_001_VNP09GA	proprietary
 NOAA/VIIRS/001/VNP09H1	VNP09H1: VIIRS Surface Reflectance 8-Day L3 Global 500m [deprecated]	image_collection	ee.ImageCollection('NOAA/VIIRS/001/VNP09H1')	NASA LP DAAC at the USGS EROS Center	2012-01-19	2024-06-09	-180, -90, 180, 90	True	daily, nasa, noaa, npp, reflectance, sr, viirs	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_VIIRS_001_VNP09H1.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_VIIRS_001_VNP09H1	proprietary
@@ -665,7 +665,7 @@ NOAA/VIIRS/DNB/MONTHLY_V1/VCMCFG	VIIRS Nighttime Day/Night Band Composites Versi
 NOAA/VIIRS/DNB/MONTHLY_V1/VCMSLCFG	VIIRS Stray Light Corrected Nighttime Day/Night Band Composites Version 1	image_collection	ee.ImageCollection('NOAA/VIIRS/DNB/MONTHLY_V1/VCMSLCFG')	Earth Observation Group, Payne Institute for Public Policy, Colorado School of Mines	2014-01-01	2024-06-04	-180, -65, 180, 75	False	dnb, eog, lights, monthly, nighttime, noaa, stray_light, viirs, visible	https://storage.googleapis.com/earthengine-stac/catalog/NOAA/NOAA_VIIRS_DNB_MONTHLY_V1_VCMSLCFG.json	https://developers.google.com/earth-engine/datasets/catalog/NOAA_VIIRS_DNB_MONTHLY_V1_VCMSLCFG	proprietary
 NRCan/CDEM	Canadian Digital Elevation Model	image_collection	ee.ImageCollection('NRCan/CDEM')	NRCan	1945-01-01	2011-01-01	-142, 41, -52, 84	False	canada, cdem, dem, elevation, geophysical, nrcan, topography	https://storage.googleapis.com/earthengine-stac/catalog/NRCan/NRCan_CDEM.json	https://developers.google.com/earth-engine/datasets/catalog/NRCan_CDEM	OGL-Canada-2.0
 Netherlands/Beeldmateriaal/LUCHTFOTO_RGB	Netherlands orthophotos	image_collection	ee.ImageCollection('Netherlands/Beeldmateriaal/LUCHTFOTO_RGB')	Beeldmateriaal Nederland	2021-01-01	2022-12-31	3.2, 50.75, 7.22, 53.7	False	orthophoto, rgb, netherlands	https://storage.googleapis.com/earthengine-stac/catalog/Netherlands/Netherlands_Beeldmateriaal_LUCHTFOTO_RGB.json	https://developers.google.com/earth-engine/datasets/catalog/Netherlands_Beeldmateriaal_LUCHTFOTO_RGB	CC-BY-4.0
-OREGONSTATE/PRISM/AN81d	PRISM Daily Spatial Climate Dataset AN81d	image_collection	ee.ImageCollection('OREGONSTATE/PRISM/AN81d')	PRISM / OREGONSTATE	1981-01-01	2024-10-31	-125, 24, -66, 50	False	climate, daily, geophysical, oregonstate, precipitation, pressure, prism, temperature, vapor, weather	https://storage.googleapis.com/earthengine-stac/catalog/OREGONSTATE/OREGONSTATE_PRISM_AN81d.json	https://developers.google.com/earth-engine/datasets/catalog/OREGONSTATE_PRISM_AN81d	proprietary
+OREGONSTATE/PRISM/AN81d	PRISM Daily Spatial Climate Dataset AN81d	image_collection	ee.ImageCollection('OREGONSTATE/PRISM/AN81d')	PRISM / OREGONSTATE	1981-01-01	2024-11-01	-125, 24, -66, 50	False	climate, daily, geophysical, oregonstate, precipitation, pressure, prism, temperature, vapor, weather	https://storage.googleapis.com/earthengine-stac/catalog/OREGONSTATE/OREGONSTATE_PRISM_AN81d.json	https://developers.google.com/earth-engine/datasets/catalog/OREGONSTATE_PRISM_AN81d	proprietary
 OREGONSTATE/PRISM/AN81m	PRISM Monthly Spatial Climate Dataset AN81m	image_collection	ee.ImageCollection('OREGONSTATE/PRISM/AN81m')	PRISM / OREGONSTATE	1895-01-01	2024-10-01	-125, 24, -66, 50	False	climate, geophysical, monthly, oregonstate, precipitation, pressure, prism, temperature, vapor, weather	https://storage.googleapis.com/earthengine-stac/catalog/OREGONSTATE/OREGONSTATE_PRISM_AN81m.json	https://developers.google.com/earth-engine/datasets/catalog/OREGONSTATE_PRISM_AN81m	proprietary
 OREGONSTATE/PRISM/Norm81m	PRISM Long-Term Average Climate Dataset Norm81m [deprecated]	image_collection	ee.ImageCollection('OREGONSTATE/PRISM/Norm81m')	PRISM / OREGONSTATE	1981-01-01	2010-12-31	-125, 24, -66, 50	True	30_year, climate, geophysical, oregonstate, precipitation, pressure, prism, temperature, vapor, weather	https://storage.googleapis.com/earthengine-stac/catalog/OREGONSTATE/OREGONSTATE_PRISM_Norm81m.json	https://developers.google.com/earth-engine/datasets/catalog/OREGONSTATE_PRISM_Norm81m	proprietary
 OREGONSTATE/PRISM/Norm91m	PRISM Long-Term Average Climate Dataset Norm91m	image_collection	ee.ImageCollection('OREGONSTATE/PRISM/Norm91m')	PRISM / OREGONSTATE	1991-01-01	2020-12-31	-125, 24, -66, 50	False	30_year, climate, geophysical, oregonstate, precipitation, pressure, prism, temperature, vapor, weather	https://storage.googleapis.com/earthengine-stac/catalog/OREGONSTATE/OREGONSTATE_PRISM_Norm91m.json	https://developers.google.com/earth-engine/datasets/catalog/OREGONSTATE_PRISM_Norm91m	proprietary
@@ -728,7 +728,7 @@ TIGER/2018/States	TIGER: US Census States 2018	table	ee.FeatureCollection('TIGER
 TIGER/2020/BG	TIGER: US Census Block Groups (BG) 2020	table	ee.FeatureCollection('TIGER/2020/BG')	United States Census Bureau	2020-01-01	2020-01-02	-180, -14.69, -64.435, 71.567	False	census, city, neighborhood, tiger, urban, us	https://storage.googleapis.com/earthengine-stac/catalog/TIGER/TIGER_2020_BG.json	https://developers.google.com/earth-engine/datasets/catalog/TIGER_2020_BG	proprietary
 TIGER/2020/TABBLOCK20	TIGER: 2020 Tabulation (Census) Block 	table	ee.FeatureCollection('TIGER/2020/TABBLOCK20')	United States Census Bureau	2020-01-01	2020-01-02	-180, -14.69, -64.435, 71.567	False	census, city, neighborhood, tiger, urban, us	https://storage.googleapis.com/earthengine-stac/catalog/TIGER/TIGER_2020_TABBLOCK20.json	https://developers.google.com/earth-engine/datasets/catalog/TIGER_2020_TABBLOCK20	proprietary
 TIGER/2020/TRACT	TIGER: US Census Tracts	table	ee.FeatureCollection('TIGER/2020/TRACT')	United States Census Bureau	2020-01-01	2020-01-02	-180, -14.69, -64.435, 71.567	False	census, city, neighborhood, tiger, urban, us	https://storage.googleapis.com/earthengine-stac/catalog/TIGER/TIGER_2020_TRACT.json	https://developers.google.com/earth-engine/datasets/catalog/TIGER_2020_TRACT	proprietary
-TOMS/MERGED	TOMS and OMI Merged Ozone Data	image_collection	ee.ImageCollection('TOMS/MERGED')	NASA / GES DISC	1978-11-01	2024-10-31	-180, -90, 180, 90	False	atmosphere, aura, climate, geophysical, ges_disc, goddard, nasa, omi, ozone, toms	https://storage.googleapis.com/earthengine-stac/catalog/TOMS/TOMS_MERGED.json	https://developers.google.com/earth-engine/datasets/catalog/TOMS_MERGED	proprietary
+TOMS/MERGED	TOMS and OMI Merged Ozone Data	image_collection	ee.ImageCollection('TOMS/MERGED')	NASA / GES DISC	1978-11-01	2024-11-01	-180, -90, 180, 90	False	atmosphere, aura, climate, geophysical, ges_disc, goddard, nasa, omi, ozone, toms	https://storage.googleapis.com/earthengine-stac/catalog/TOMS/TOMS_MERGED.json	https://developers.google.com/earth-engine/datasets/catalog/TOMS_MERGED	proprietary
 TRMM/3B42	TRMM 3B42: 3-Hourly Precipitation Estimates	image_collection	ee.ImageCollection('TRMM/3B42')	NASA GES DISC at NASA Goddard Space Flight Center	1998-01-01	2019-12-31	-180, -50, 180, 50	False	3_hourly, climate, geophysical, jaxa, nasa, precipitation, rainfall, trmm, weather	https://storage.googleapis.com/earthengine-stac/catalog/TRMM/TRMM_3B42.json	https://developers.google.com/earth-engine/datasets/catalog/TRMM_3B42	proprietary
 TRMM/3B43V7	TRMM 3B43: Monthly Precipitation Estimates	image_collection	ee.ImageCollection('TRMM/3B43V7')	NASA GES DISC at NASA Goddard Space Flight Center	1998-01-01	2019-12-01	-180, -50, 180, 50	False	climate, geophysical, jaxa, nasa, precipitation, rainfall, trmm, weather	https://storage.googleapis.com/earthengine-stac/catalog/TRMM/TRMM_3B43V7.json	https://developers.google.com/earth-engine/datasets/catalog/TRMM_3B43V7	proprietary
 TUBerlin/BigEarthNet/v1	TUBerlin/BigEarthNet/v1	image_collection	ee.ImageCollection('TUBerlin/BigEarthNet/v1')	BigEarthNet	2017-06-01	2018-05-31	-9, 36.9, 31.6, 68.1	False	chip, copernicus, corine_derived, label, ml, sentinel, tile	https://storage.googleapis.com/earthengine-stac/catalog/TUBerlin/TUBerlin_BigEarthNet_v1.json	https://developers.google.com/earth-engine/datasets/catalog/TUBerlin_BigEarthNet_v1	proprietary
@@ -820,7 +820,7 @@ USGS/WBD/2017/HUC06	HUC06: USGS Watershed Boundary Dataset of Basins	table	ee.Fe
 USGS/WBD/2017/HUC08	HUC08: USGS Watershed Boundary Dataset of Subbasins	table	ee.FeatureCollection('USGS/WBD/2017/HUC08')	United States Geological Survey	2017-04-22	2017-04-23	-180, -14.69, 180, 71.567	False	hydrology, usgs, water, watershed, wbd	https://storage.googleapis.com/earthengine-stac/catalog/USGS/USGS_WBD_2017_HUC08.json	https://developers.google.com/earth-engine/datasets/catalog/USGS_WBD_2017_HUC08	proprietary
 USGS/WBD/2017/HUC10	HUC10: USGS Watershed Boundary Dataset of Watersheds	table	ee.FeatureCollection('USGS/WBD/2017/HUC10')	United States Geological Survey	2017-04-22	2017-04-23	-180, -14.69, 180, 71.567	False	hydrology, usgs, water, watershed, wbd	https://storage.googleapis.com/earthengine-stac/catalog/USGS/USGS_WBD_2017_HUC10.json	https://developers.google.com/earth-engine/datasets/catalog/USGS_WBD_2017_HUC10	proprietary
 USGS/WBD/2017/HUC12	HUC12: USGS Watershed Boundary Dataset of Subwatersheds	table	ee.FeatureCollection('USGS/WBD/2017/HUC12')	United States Geological Survey	2017-04-22	2017-04-23	-180, -14.69, 180, 71.567	False	hydrology, usgs, water, watershed, wbd	https://storage.googleapis.com/earthengine-stac/catalog/USGS/USGS_WBD_2017_HUC12.json	https://developers.google.com/earth-engine/datasets/catalog/USGS_WBD_2017_HUC12	proprietary
-UTOKYO/WTLAB/KBDI/v1	KBDI: Keetch-Byram Drought Index	image_collection	ee.ImageCollection('UTOKYO/WTLAB/KBDI/v1')	Institute of Industrial Science, The University of Tokyo, Japan	2007-01-01	2024-11-02	60, -60, 180, 60	False	drought, kbdi, lst_derived, rainfall, utokyo, wtlab	https://storage.googleapis.com/earthengine-stac/catalog/UTOKYO/UTOKYO_WTLAB_KBDI_v1.json	https://developers.google.com/earth-engine/datasets/catalog/UTOKYO_WTLAB_KBDI_v1	CC-BY-4.0
+UTOKYO/WTLAB/KBDI/v1	KBDI: Keetch-Byram Drought Index	image_collection	ee.ImageCollection('UTOKYO/WTLAB/KBDI/v1')	Institute of Industrial Science, The University of Tokyo, Japan	2007-01-01	2024-11-03	60, -60, 180, 60	False	drought, kbdi, lst_derived, rainfall, utokyo, wtlab	https://storage.googleapis.com/earthengine-stac/catalog/UTOKYO/UTOKYO_WTLAB_KBDI_v1.json	https://developers.google.com/earth-engine/datasets/catalog/UTOKYO_WTLAB_KBDI_v1	CC-BY-4.0
 VITO/PROBAV/C1/S1_TOC_100M	PROBA-V C1 Top Of Canopy Daily Synthesis 100m	image_collection	ee.ImageCollection('VITO/PROBAV/C1/S1_TOC_100M')	Vito / ESA	2013-10-17	2021-10-31	-180, -90, 180, 90	False	esa, multispectral, nir, proba, probav, swir, vito	https://storage.googleapis.com/earthengine-stac/catalog/VITO/VITO_PROBAV_C1_S1_TOC_100M.json	https://developers.google.com/earth-engine/datasets/catalog/VITO_PROBAV_C1_S1_TOC_100M	proprietary
 VITO/PROBAV/C1/S1_TOC_333M	PROBA-V C1 Top Of Canopy Daily Synthesis 333m	image_collection	ee.ImageCollection('VITO/PROBAV/C1/S1_TOC_333M')	Vito / ESA	2013-10-17	2021-10-31	-180, -90, 180, 90	False	esa, multispectral, nir, proba, probav, swir, vito	https://storage.googleapis.com/earthengine-stac/catalog/VITO/VITO_PROBAV_C1_S1_TOC_333M.json	https://developers.google.com/earth-engine/datasets/catalog/VITO_PROBAV_C1_S1_TOC_333M	proprietary
 VITO/PROBAV/S1_TOC_100M	PROBA-V C0 Top Of Canopy Daily Synthesis 100m [deprecated]	image_collection	ee.ImageCollection('VITO/PROBAV/S1_TOC_100M')	Vito / ESA	2013-10-17	2016-12-14	-180, -90, 180, 90	True	esa, multispectral, nir, proba, probav, swir, vito	https://storage.googleapis.com/earthengine-stac/catalog/VITO/VITO_PROBAV_S1_TOC_100M.json	https://developers.google.com/earth-engine/datasets/catalog/VITO_PROBAV_S1_TOC_100M	proprietary
diff --git a/nasa_cmr_catalog.json b/nasa_cmr_catalog.json
index cef8540..6be668b 100644
--- a/nasa_cmr_catalog.json
+++ b/nasa_cmr_catalog.json
@@ -22217,16 +22217,16 @@
         "license": "proprietary"
     },
     {
-        "id": "ANTARCTICA_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.1_V3_RL06.1Mv03",
-        "title": "Tellus Level-4 Antarctica Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.1 version 03",
+        "id": "ANTARCTICA_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.3_V4_RL06.3Mv04",
+        "title": "Tellus Level-4 Antarctica Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.3 version 04",
         "catalog": "POCLOUD STAC Catalog",
         "state_date": "2002-04-01",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2537006834-POCLOUD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2537006834-POCLOUD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/POCLOUD/collections/ANTARCTICA_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.1_V3_RL06.1Mv03",
-        "description": "This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL061Mv03 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.1_V3. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability are provided as an ASCII table.",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3206284786-POCLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3206284786-POCLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/POCLOUD/collections/ANTARCTICA_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.3_V4_RL06.3Mv04",
+        "description": "This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL063Mv04 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.3_V4. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability are provided as an ASCII table.",
         "license": "proprietary"
     },
     {
@@ -31488,52 +31488,52 @@
     {
         "id": "ATL02_006",
         "title": "ATLAS/ICESat-2 L1B Converted Telemetry Data V006",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2018-10-13",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2541211133-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2541211133-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL02_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2547589158-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2547589158-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL02_006",
         "description": "This data set (ATL02) contains science-unit-converted time-ordered telemetry data, calibrated for instrument effects, downlinked from the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The data are used by the ATLAS/ICESat-2 Science Investigator-led Processing System (SIPS) for system-level, quality control analysis and as source data for ATLAS/ICESat-2 Level-2 products and Precision Orbit Determination (POD) and Precision Pointing Determination (PPD) computations.",
         "license": "proprietary"
     },
     {
         "id": "ATL02_006",
         "title": "ATLAS/ICESat-2 L1B Converted Telemetry Data V006",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2018-10-13",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2547589158-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2547589158-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL02_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2541211133-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2541211133-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL02_006",
         "description": "This data set (ATL02) contains science-unit-converted time-ordered telemetry data, calibrated for instrument effects, downlinked from the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The data are used by the ATLAS/ICESat-2 Science Investigator-led Processing System (SIPS) for system-level, quality control analysis and as source data for ATLAS/ICESat-2 Level-2 products and Precision Orbit Determination (POD) and Precision Pointing Determination (PPD) computations.",
         "license": "proprietary"
     },
     {
         "id": "ATL03_006",
         "title": "ATLAS/ICESat-2 L2A Global Geolocated Photon Data V006",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2018-10-13",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2596864127-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2596864127-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL03_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2559919423-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2559919423-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL03_006",
         "description": "This data set (ATL03) contains height above the WGS 84 ellipsoid (ITRF2014 reference frame), latitude, longitude, and time for all photons downlinked by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The ATL03 product was designed to be a single source for all photon data and ancillary information needed by higher-level ATLAS/ICESat-2 products. As such, it also includes spacecraft and instrument parameters and ancillary data not explicitly required for ATL03.",
         "license": "proprietary"
     },
     {
         "id": "ATL03_006",
         "title": "ATLAS/ICESat-2 L2A Global Geolocated Photon Data V006",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2018-10-13",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2559919423-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2559919423-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL03_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2596864127-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2596864127-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL03_006",
         "description": "This data set (ATL03) contains height above the WGS 84 ellipsoid (ITRF2014 reference frame), latitude, longitude, and time for all photons downlinked by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The ATL03 product was designed to be a single source for all photon data and ancillary information needed by higher-level ATLAS/ICESat-2 products. As such, it also includes spacecraft and instrument parameters and ancillary data not explicitly required for ATL03.",
         "license": "proprietary"
     },
@@ -31553,26 +31553,26 @@
     {
         "id": "ATL04_006",
         "title": "ATLAS/ICESat-2 L2A Normalized Relative Backscatter Profiles V006",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2018-10-13",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2613553327-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2613553327-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL04_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2561045326-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2561045326-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL04_006",
         "description": "ATL04 contains along-track normalized relative backscatter profiles of the atmosphere. The product includes full 532 nm (14 km) uncalibrated attenuated backscatter profiles at 25 times per second for vertical bins of approximately 30 meters. Calibration coefficient values derived from data within the polar regions are also included. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.",
         "license": "proprietary"
     },
     {
         "id": "ATL04_006",
         "title": "ATLAS/ICESat-2 L2A Normalized Relative Backscatter Profiles V006",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2018-10-13",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2561045326-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2561045326-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL04_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2613553327-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2613553327-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL04_006",
         "description": "ATL04 contains along-track normalized relative backscatter profiles of the atmosphere. The product includes full 532 nm (14 km) uncalibrated attenuated backscatter profiles at 25 times per second for vertical bins of approximately 30 meters. Calibration coefficient values derived from data within the polar regions are also included. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.",
         "license": "proprietary"
     },
@@ -31761,52 +31761,52 @@
     {
         "id": "ATL11_006",
         "title": "ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series V006",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2019-03-29",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2750966856-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2750966856-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL11_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2752556504-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2752556504-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL11_006",
         "description": "This data set provides time series of land-ice surface heights derived from the ICESat-2 ATL06 Land Ice Height product. It is intended primarily as an input for higher level gridded products but can also be used on its own as a spatially organized product that allows easy access to height-change information derived from ICESat-2 observations.",
         "license": "proprietary"
     },
     {
         "id": "ATL11_006",
         "title": "ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series V006",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2019-03-29",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2752556504-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2752556504-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL11_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2750966856-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2750966856-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL11_006",
         "description": "This data set provides time series of land-ice surface heights derived from the ICESat-2 ATL06 Land Ice Height product. It is intended primarily as an input for higher level gridded products but can also be used on its own as a spatially organized product that allows easy access to height-change information derived from ICESat-2 observations.",
         "license": "proprietary"
     },
     {
         "id": "ATL12_006",
         "title": "ATLAS/ICESat-2 L3A Ocean Surface Height V006",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2018-10-13",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2560378689-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2560378689-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL12_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2613553216-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2613553216-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL12_006",
         "description": "This data set (ATL12) contains along-track sea surface height of the global open ocean, including the ice-free seasonal ice zone and near-coast regions. Estimates of height distributions, significant wave height, sea state bias, and 10 m heights are also provided. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.",
         "license": "proprietary"
     },
     {
         "id": "ATL12_006",
         "title": "ATLAS/ICESat-2 L3A Ocean Surface Height V006",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2018-10-13",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2613553216-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2613553216-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL12_006",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2560378689-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2560378689-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL12_006",
         "description": "This data set (ATL12) contains along-track sea surface height of the global open ocean, including the ice-free seasonal ice zone and near-coast regions. Estimates of height distributions, significant wave height, sea state bias, and 10 m heights are also provided. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.",
         "license": "proprietary"
     },
@@ -31852,52 +31852,52 @@
     {
         "id": "ATL14_003",
         "title": "ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V003",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2019-03-29",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2776895337-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2776895337-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL14_003",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2776464127-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2776464127-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL14_003",
         "description": "ATL14 and ATL15 bring the time-varying height estimates provided in ATLAS/ICESat-2 L3B Annual Land Ice Height (ATL11) into a gridded format. ATL14 is a high-resolution (100 m) digital elevation model (DEM) that provides spatially continuous gridded data of ice sheet surface height. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR).   ATL15 provides coarser resolution (1 km, 10 km, 20 km, and 40 km) height-change maps at 3-month intervals, allowing for visualization of height-change patterns and calculation of integrated regional volume change.",
         "license": "proprietary"
     },
     {
         "id": "ATL14_003",
         "title": "ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V003",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2019-03-29",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2776464127-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2776464127-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL14_003",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2776895337-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2776895337-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL14_003",
         "description": "ATL14 and ATL15 bring the time-varying height estimates provided in ATLAS/ICESat-2 L3B Annual Land Ice Height (ATL11) into a gridded format. ATL14 is a high-resolution (100 m) digital elevation model (DEM) that provides spatially continuous gridded data of ice sheet surface height. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR).   ATL15 provides coarser resolution (1 km, 10 km, 20 km, and 40 km) height-change maps at 3-month intervals, allowing for visualization of height-change patterns and calculation of integrated regional volume change.",
         "license": "proprietary"
     },
     {
         "id": "ATL14_004",
         "title": "ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V004",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2019-01-01",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3159684163-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3159684163-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL14_004",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3162179692-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3162179692-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL14_004",
         "description": "This data set contains a high-resolution (100 m) gridded digital elevation model (DEM) for the Antarctic ice sheet and regions around the Arctic. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR). The data are derived from the ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series product (ATL11).",
         "license": "proprietary"
     },
     {
         "id": "ATL14_004",
         "title": "ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V004",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2019-01-01",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3162179692-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3162179692-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL14_004",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3159684163-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3159684163-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL14_004",
         "description": "This data set contains a high-resolution (100 m) gridded digital elevation model (DEM) for the Antarctic ice sheet and regions around the Arctic. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR). The data are derived from the ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series product (ATL11).",
         "license": "proprietary"
     },
@@ -32034,26 +32034,26 @@
     {
         "id": "ATL20_004",
         "title": "ATLAS/ICESat-2 L3B Daily and Monthly Gridded Sea Ice Freeboard V004",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2018-10-14",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2753295020-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2753295020-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL20_004",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2666857908-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2666857908-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL20_004",
         "description": "ATL20 contains daily and monthly gridded estimates of sea ice freeboard, derived from along-track freeboard estimates in the ATLAS/ICESat-2 L3A Sea Ice Freeboard product (ATL10). Data are gridded at 25 km using the SSM/I Polar Stereographic Projection.",
         "license": "proprietary"
     },
     {
         "id": "ATL20_004",
         "title": "ATLAS/ICESat-2 L3B Daily and Monthly Gridded Sea Ice Freeboard V004",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2018-10-14",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2666857908-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2666857908-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/ATL20_004",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2753295020-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2753295020-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/ATL20_004",
         "description": "ATL20 contains daily and monthly gridded estimates of sea ice freeboard, derived from along-track freeboard estimates in the ATLAS/ICESat-2 L3A Sea Ice Freeboard product (ATL10). Data are gridded at 25 km using the SSM/I Polar Stereographic Projection.",
         "license": "proprietary"
     },
@@ -79978,26 +79978,26 @@
     {
         "id": "GLAH01_033",
         "title": "GLAS/ICESat L1A Global Altimetry Data (HDF5) V033",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2153547306-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2153547306-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/GLAH01_033",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000400-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000400-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH01_033",
         "description": "Level-1A altimetry data (GLAH01) include the transmitted and received waveform from the altimeter.  Each data granule has an associated browse product.",
         "license": "proprietary"
     },
     {
         "id": "GLAH01_033",
         "title": "GLAS/ICESat L1A Global Altimetry Data (HDF5) V033",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000400-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000400-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH01_033",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2153547306-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2153547306-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/GLAH01_033",
         "description": "Level-1A altimetry data (GLAH01) include the transmitted and received waveform from the altimeter.  Each data granule has an associated browse product.",
         "license": "proprietary"
     },
@@ -80108,26 +80108,26 @@
     {
         "id": "GLAH06_034",
         "title": "GLAS/ICESat L1B Global Elevation Data (HDF5) V034",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2033638023-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2033638023-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/GLAH06_034",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000445-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000445-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH06_034",
         "description": "GLAH06 Level-1B Global Elevation is a product that is analogous to the geodetic data records distributed for radar altimetry missions. It contains elevations previously corrected for tides, atmospheric delays, and surface characteristics within the footprint. Elevation is calculated using the ice sheet parameterization. Additional information allows the user to calculate an elevation based on land, sea ice, or ocean algorithms. Each data granule has an associated browse product.",
         "license": "proprietary"
     },
     {
         "id": "GLAH06_034",
         "title": "GLAS/ICESat L1B Global Elevation Data (HDF5) V034",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000445-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000445-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH06_034",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2033638023-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2033638023-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/GLAH06_034",
         "description": "GLAH06 Level-1B Global Elevation is a product that is analogous to the geodetic data records distributed for radar altimetry missions. It contains elevations previously corrected for tides, atmospheric delays, and surface characteristics within the footprint. Elevation is calculated using the ice sheet parameterization. Additional information allows the user to calculate an elevation based on land, sea ice, or ocean algorithms. Each data granule has an associated browse product.",
         "license": "proprietary"
     },
@@ -80186,26 +80186,26 @@
     {
         "id": "GLAH09_033",
         "title": "GLAS/ICESat L2 Global Cloud Heights for Multi-layer Clouds (HDF5) V033",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C189991869-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C189991869-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH09_033",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2153549579-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2153549579-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/GLAH09_033",
         "description": "GLAH09 Level-2 cloud heights for multi-layer clouds contain cloud layer top and bottom height data at sampling rates of 4 sec, 1 sec, 5 Hz, and 40 Hz.  Each data granule has an associated browse product.",
         "license": "proprietary"
     },
     {
         "id": "GLAH09_033",
         "title": "GLAS/ICESat L2 Global Cloud Heights for Multi-layer Clouds (HDF5) V033",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2153549579-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2153549579-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/GLAH09_033",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C189991869-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C189991869-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH09_033",
         "description": "GLAH09 Level-2 cloud heights for multi-layer clouds contain cloud layer top and bottom height data at sampling rates of 4 sec, 1 sec, 5 Hz, and 40 Hz.  Each data granule has an associated browse product.",
         "license": "proprietary"
     },
@@ -80238,26 +80238,26 @@
     {
         "id": "GLAH11_033",
         "title": "GLAS/ICESat L2 Global Thin Cloud/Aerosol Optical Depths Data (HDF5) V033",
-        "catalog": "NSIDC_ECS STAC Catalog",
+        "catalog": "NSIDC_CPRD STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C189991871-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C189991871-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH11_033",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2153549738-NSIDC_CPRD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2153549738-NSIDC_CPRD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/GLAH11_033",
         "description": "GLAH11 Level-2 thin cloud/aerosol optical depths data contain thin cloud and aerosol optical depths. A thin cloud is one that does not completely attenuate the lidar signal return, which generally corresponds to clouds with optical depths less than about 2.0. Each data granule has an associated browse product.",
         "license": "proprietary"
     },
     {
         "id": "GLAH11_033",
         "title": "GLAS/ICESat L2 Global Thin Cloud/Aerosol Optical Depths Data (HDF5) V033",
-        "catalog": "NSIDC_CPRD STAC Catalog",
+        "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2153549738-NSIDC_CPRD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2153549738-NSIDC_CPRD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_CPRD/collections/GLAH11_033",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C189991871-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C189991871-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH11_033",
         "description": "GLAH11 Level-2 thin cloud/aerosol optical depths data contain thin cloud and aerosol optical depths. A thin cloud is one that does not completely attenuate the lidar signal return, which generally corresponds to clouds with optical depths less than about 2.0. Each data granule has an associated browse product.",
         "license": "proprietary"
     },
@@ -80287,19 +80287,6 @@
         "description": "GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (\u00b1 50\u00b0 latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.",
         "license": "proprietary"
     },
-    {
-        "id": "GLAH13_034",
-        "title": "GLAS/ICESat L2 Sea Ice Altimetry Data (HDF5) V034",
-        "catalog": "NSIDC_ECS STAC Catalog",
-        "state_date": "2003-02-20",
-        "end_date": "2009-10-11",
-        "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000464-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000464-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH13_034",
-        "description": "GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (\u00b1 50\u00b0 latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.",
-        "license": "proprietary"
-    },
     {
         "id": "GLAH13_034",
         "title": "GLAS/ICESat L2 Sea Ice Altimetry Data (HDF5) V034",
@@ -80314,15 +80301,15 @@
         "license": "proprietary"
     },
     {
-        "id": "GLAH14_034",
-        "title": "GLAS/ICESat L2 Global Land Surface Altimetry Data (HDF5) V034",
+        "id": "GLAH13_034",
+        "title": "GLAS/ICESat L2 Sea Ice Altimetry Data (HDF5) V034",
         "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000443-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000443-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH14_034",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000464-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000464-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH13_034",
         "description": "GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (\u00b1 50\u00b0 latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.",
         "license": "proprietary"
     },
@@ -80340,15 +80327,15 @@
         "license": "proprietary"
     },
     {
-        "id": "GLAH15_034",
-        "title": "GLAS/ICESat L2 Ocean Altimetry Data (HDF5) V034",
+        "id": "GLAH14_034",
+        "title": "GLAS/ICESat L2 Global Land Surface Altimetry Data (HDF5) V034",
         "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2003-02-20",
         "end_date": "2009-10-11",
         "bbox": "-180, -86, 180, 86",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000420-NSIDC_ECS.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000420-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH15_034",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000443-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000443-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH14_034",
         "description": "GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (\u00b1 50\u00b0 latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.",
         "license": "proprietary"
     },
@@ -80365,6 +80352,19 @@
         "description": "GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (\u00b1 50\u00b0 latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.",
         "license": "proprietary"
     },
+    {
+        "id": "GLAH15_034",
+        "title": "GLAS/ICESat L2 Ocean Altimetry Data (HDF5) V034",
+        "catalog": "NSIDC_ECS STAC Catalog",
+        "state_date": "2003-02-20",
+        "end_date": "2009-10-11",
+        "bbox": "-180, -86, 180, 86",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000420-NSIDC_ECS.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000420-NSIDC_ECS.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/GLAH15_034",
+        "description": "GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (\u00b1 50\u00b0 latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.",
+        "license": "proprietary"
+    },
     {
         "id": "GLCHMK_001",
         "title": "G-LiHT Canopy Height Model KML V001",
@@ -85032,6 +85032,19 @@
         "description": "Gravity data collected from the Australian Antarctic Territory and subantarctic between 1967 and 1986.  Data are mostly from the Casey region.  The download file contains a large number of csv files, as well as a number of explanatory documents.",
         "license": "proprietary"
     },
+    {
+        "id": "GRC-GFO_GRIDDED_AOD1B_JPL_1-DEG_RL06.3_RL06.3",
+        "title": "JPL GRACE/GRACE-FO Gridded-AOD1B Water-Equivalent-Thickness Surface-Mass Anomaly RL06.3 dataset for Tellus Level-3 1.0-degree grid",
+        "catalog": "POCLOUD STAC Catalog",
+        "state_date": "2002-04-04",
+        "end_date": "",
+        "bbox": "-180, -89.5, 180, 89.5",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3215150173-POCLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3215150173-POCLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/POCLOUD/collections/GRC-GFO_GRIDDED_AOD1B_JPL_1-DEG_RL06.3_RL06.3",
+        "description": "GRACE non-tidal high-frequency atmospheric and oceanic mass variation models are routinely generated at GFZ as so-called Atmosphere and Ocean De-aliasing Level-1B (AOD1B) products (in terms of corresponding spherical harmonic geopotential coefficients) to be added to the background static gravity model during GRACE monthly gravity field determination. AOD1B products are 3-hourly series of spherical harmonic coefficients up to degree and order 180 which are routinely provided to the GRACE Science Data System and the user community with only a few days time delay. These products reflect spatio-temporal mass variations in the atmosphere and oceans deduced from an operational atmospheric model and corresponding ocean dynamics provided by an ocean model. The variability is derived by subtraction of a long-term mean of vertical integrated atmospheric mass distributions and a corresponding mean of ocean bottom pressure as simulated with the ocean model. For further details, please refer to https://www.gfz-potsdam.de/en/aod1b/.    The Gridded AOD1B data sets provided here contain the monthly mean AOD1B data in geolocated gridded form, smoothed or spatially aggregated to be consistent with the GRACE and GRACE-FO Tellus Level-3 data products of land and/or ocean mass anomalies. With these gridded AOD1B Level-3 products, users can remove or add the effects of the modeled mean monthly atmospheric and ocean bottom pressure change (e.g., to compare different models).",
+        "license": "proprietary"
+    },
     {
         "id": "GRC-GFO_GRIDDED_AOD1B_JPL_1-DEG_RL06_RL06",
         "title": "JPL GRACE/GRACE-FO Gridded-AOD1B Water-Equivalent-Thickness Surface-Mass Anomaly RL06 dataset for Tellus Level-3 1.0-degree grid",
@@ -85045,6 +85058,19 @@
         "description": "GRACE non-tidal high-frequency atmospheric and oceanic mass variation models are routinely generated at GFZ as so-called Atmosphere and Ocean De-aliasing Level-1B (AOD1B) products (in terms of corresponding spherical harmonic geopotential coefficients) to be added to the background static gravity model during GRACE monthly gravity field determination. AOD1B products are 3-hourly series of spherical harmonic coefficients up to degree and order 180 which are routinely provided to the GRACE Science Data System and the user community with only a few days time delay. These products reflect spatio-temporal mass variations in the atmosphere and oceans deduced from an operational atmospheric model and corresponding ocean dynamics provided by an ocean model. The variability is derived by subtraction of a long-term mean of vertical integrated atmospheric mass distributions and a corresponding mean of ocean bottom pressure as simulated with the ocean model. For further details, please refer to https://www.gfz-potsdam.de/en/aod1b/.    The Gridded AOD1B data sets provided here contain the monthly mean AOD1B data in geolocated gridded form, smoothed or spatially aggregated to be consistent with the GRACE and GRACE-FO Tellus Level-3 data products of land and/or ocean mass anomalies. With these gridded AOD1B Level-3 products, users can remove or add the effects of the modeled mean monthly atmospheric and ocean bottom pressure change (e.g., to compare different models).",
         "license": "proprietary"
     },
+    {
+        "id": "GRC-GFO_GRIDDED_AOD1B_JPL_MASCON_RL06.3_RL06.3",
+        "title": "JPL GRACE/GRACE-FO Gridded-AOD1B Water-Equivalent-Thickness Surface-Mass Anomaly RL06.3 dataset for Tellus Level-3 mascon 0.5-degree grid",
+        "catalog": "POCLOUD STAC Catalog",
+        "state_date": "2002-04-04",
+        "end_date": "",
+        "bbox": "-180, -89.5, 180, 89.5",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3215162709-POCLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3215162709-POCLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/POCLOUD/collections/GRC-GFO_GRIDDED_AOD1B_JPL_MASCON_RL06.3_RL06.3",
+        "description": "GRACE non-tidal high-frequency atmospheric and oceanic mass variation models are routinely generated at GFZ as so-called Atmosphere and Ocean De-aliasing Level-1B (AOD1B) products (in terms of corresponding spherical harmonic geopotential coefficients) to be added to the background static gravity model during GRACE monthly gravity field determination. AOD1B products are 3-hourly series of spherical harmonic coefficients up to degree and order 180 which are routinely provided to the GRACE Science Data System and the user community with only a few days time delay. These products reflect spatio-temporal mass variations in the atmosphere and oceans deduced from an operational atmospheric model and corresponding ocean dynamics provided by an ocean model. The variability is derived by subtraction of a long-term mean of vertical integrated atmospheric mass distributions and a corresponding mean of ocean bottom pressure as simulated with the ocean model. For further details, please refer to https://www.gfz-potsdam.de/en/aod1b/.    The Gridded AOD1B data sets provided here contain the monthly mean AOD1B data in geolocated gridded form, smoothed or spatially aggregated to be consistent with the GRACE and GRACE-FO Tellus Level-3 data products of land and/or ocean mass anomalies. With these gridded AOD1B Level-3 products, users can remove or add the effects of the modeled mean monthly atmospheric and ocean bottom pressure change (e.g., to compare different models).",
+        "license": "proprietary"
+    },
     {
         "id": "GRC-GFO_GRIDDED_AOD1B_JPL_MASCON_RL06_RL06",
         "title": "JPL GRACE/GRACE-FO Gridded-AOD1B Water-Equivalent-Thickness Surface-Mass Anomaly RL06 dataset for Tellus Level-3 mascon 0.5-degree grid",
@@ -85059,16 +85085,16 @@
         "license": "proprietary"
     },
     {
-        "id": "GREENLAND_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.1_V3_RL06.1Mv03",
-        "title": "Tellus Level-4 Greenland Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.1 version 03",
+        "id": "GREENLAND_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.3_V4_RL06.3Mv04",
+        "title": "Tellus Level-4 Greenland Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.3 version 04",
         "catalog": "POCLOUD STAC Catalog",
         "state_date": "2002-04-01",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2537009236-POCLOUD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2537009236-POCLOUD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/POCLOUD/collections/GREENLAND_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.1_V3_RL06.1Mv03",
-        "description": "This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL06.1Mv03 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.1_V3. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability is provided as an ASCII table.",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3206299308-POCLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3206299308-POCLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/POCLOUD/collections/GREENLAND_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.3_V4_RL06.3Mv04",
+        "description": "This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL06.3Mv04 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.3_V3. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability is provided as an ASCII table.",
         "license": "proprietary"
     },
     {
@@ -86878,19 +86904,6 @@
         "description": "This product provides level 3 monthly averages of tropospheric Nitrogen dioxide (NO2) vertical column density derived from the level 2 Tropospheric Monitoring Instrument (TROPOMI) across the globe oversampled to a spatial resolution of 0.1\u02da x 0.1\u02da (~10 km2) using a consistent algorithm from the European Space Agency (ESA) version 2.4 that can be used for trend analysis of air pollution. The dataset record began in January 2019 and continues to the present.   This L3 product was developed by the George Washington University Air, Climate and Health Laboratory as part of the NASA Health Air Quality Applied Science Team (HAQAST) using Level 2 version 2.4 TROPOMI NO2 files from the ESA. The TROPOMI instrument on Sentinel-5 Precursor acquires tropospheric NO2 column contents from low Earth orbit (~824 km above ground level) once per day globally at approximately 13:30 local time.  NO2 is an air pollutant that adversely affects the human respiratory system and leads to premature mortality. NO2 is also an important precursor for ozone and fine particulates, which also have severe health impacts. In urban areas, the majority of NO2 originates from anthropogenic NOx (=NO+NO2; most NOx is emitted as NO, which rapidly cycles to NO2) emissions during high-temperature fossil fuel combustion. Tropospheric NO2 vertical column contents are qualitatively representative of near-surface NO2 concentrations and NOx emissions in urban/polluted locations. ",
         "license": "proprietary"
     },
-    {
-        "id": "HAWKEYE_L1_1",
-        "title": "SeaHawk HawkEye Level-1 Data, version 1",
-        "catalog": "OB_DAAC STAC Catalog",
-        "state_date": "2018-12-03",
-        "end_date": "",
-        "bbox": "-180, 90, -180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2124738110-OB_DAAC.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2124738110-OB_DAAC.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/OB_DAAC/collections/HAWKEYE_L1_1",
-        "description": "The Hawkeye instrument, flown onboard the SeaHawk CubeSat, was optimized to provide  high quality, high resolution imagery (120 meter) of the open ocean, coastal zones,  lakes, estuaries and land features. This ability provides a valuable complement to  the lower resolution measurements from previous missions like SeaWiFS, MODIS and  VIIRS. The SeaHawk CubeSat mission is a partnership between NASA and the University  of North Carolina, Wilmington (UNCW), Cloudland Instruments and AAC-Clyde Space and  is funded by the Moore Foundation under a grant for the Sustained Ocean Color  Observations with Nanosatellites (SOCON).",
-        "license": "proprietary"
-    },
     {
         "id": "HAWKEYE_L1_1",
         "title": "SeaHawk-1 HawkEye Level-1A  Data, version 1",
@@ -86904,6 +86917,19 @@
         "description": "The Hawkeye instrument, flown onboard the SeaHawk CubeSat, was optimized to provide high quality, high resolution imagery (120 meter) of the open ocean, coastal zones, lakes, estuaries and land features. This ability provides a valuable complement to the lower resolution measurements from previous missions like SeaWiFS, MODIS and VIIRS. The SeaHawk CubeSat mission is a partnership between NASA and the University of North Carolina, Wilmington (UNCW), Cloudland Instruments and AAC-Clyde Space and is funded by the Moore Foundation under a grant for the Sustained Ocean Color Observations with Nanosatellites (SOCON).",
         "license": "proprietary"
     },
+    {
+        "id": "HAWKEYE_L1_1",
+        "title": "SeaHawk HawkEye Level-1 Data, version 1",
+        "catalog": "OB_DAAC STAC Catalog",
+        "state_date": "2018-12-03",
+        "end_date": "",
+        "bbox": "-180, 90, -180, 90",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2124738110-OB_DAAC.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2124738110-OB_DAAC.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/OB_DAAC/collections/HAWKEYE_L1_1",
+        "description": "The Hawkeye instrument, flown onboard the SeaHawk CubeSat, was optimized to provide  high quality, high resolution imagery (120 meter) of the open ocean, coastal zones,  lakes, estuaries and land features. This ability provides a valuable complement to  the lower resolution measurements from previous missions like SeaWiFS, MODIS and  VIIRS. The SeaHawk CubeSat mission is a partnership between NASA and the University  of North Carolina, Wilmington (UNCW), Cloudland Instruments and AAC-Clyde Space and  is funded by the Moore Foundation under a grant for the Sustained Ocean Color  Observations with Nanosatellites (SOCON).",
+        "license": "proprietary"
+    },
     {
         "id": "HAWKEYE_L2_OC_2018.0",
         "title": "SeaHawk HawkEye Regional Ocean Color (OC) Data, version 2018.0",
@@ -125995,19 +126021,6 @@
         "description": "This dataset contains the Global Mean Sea Level (GMSL) trend generated from the Integrated Multi-Mission Ocean Altimeter Data for Climate Research Version 5.1. The GMSL trend is a 1-dimensional time series of globally averaged Sea Surface Height Anomalies (SSHA) from TOPEX/Poseidon, Jason-1, OSTM/Jason-2, and Jason-3 that covers September 1992 to present with a lag of up to 4 months. The data are reported as variations relative to a 20-year TOPEX/Jason collinear mean. Bias adjustments and cross-calibrations were applied to ensure SSHA data are consistent across the missions; Glacial Isostatic Adjustment (GIA) was also applied. The data are available as a table in ASCII format. Changes between the version 4.2 and version 5.x releases are described in detail in the user handbook.",
         "license": "proprietary"
     },
-    {
-        "id": "MERIS_L1_FRS_4",
-        "title": "ENVISAT MERIS Level-1B Full Resolution, Full Swath (FRS) Data, version 4",
-        "catalog": "OB_CLOUD STAC Catalog",
-        "state_date": "2002-03-21",
-        "end_date": "2012-05-09",
-        "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3281778834-OB_CLOUD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3281778834-OB_CLOUD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/MERIS_L1_FRS_4",
-        "description": "MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration.",
-        "license": "proprietary"
-    },
     {
         "id": "MERIS_L1_FRS_4",
         "title": "ENVISAT MERIS Full Resolution, Full Swath (FRS) Data, version 4",
@@ -126034,19 +126047,6 @@
         "description": "MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration.",
         "license": "proprietary"
     },
-    {
-        "id": "MERIS_L1_RR_4",
-        "title": "ENVISAT MERIS Level-1B Reduced Resolution (RR) Data, version 4",
-        "catalog": "OB_CLOUD STAC Catalog",
-        "state_date": "2002-03-21",
-        "end_date": "2012-05-09",
-        "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3281778839-OB_CLOUD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3281778839-OB_CLOUD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/MERIS_L1_RR_4",
-        "description": "MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration.",
-        "license": "proprietary"
-    },
     {
         "id": "MERIS_L2_FRS_IOP_2022.0",
         "title": "ENVISAT MERIS Level-2 Regional Full Resolution, Full Swath (FRS) Inherent Optical Properties (IOP) Data, version 2022.0",
@@ -147797,16 +147797,16 @@
         "license": "proprietary"
     },
     {
-        "id": "OCEAN_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.1_V3_RL06.1Mv03",
-        "title": "Tellus Level-4 Ocean Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.1 version 03",
+        "id": "OCEAN_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.3_V4_RL06.3Mv04",
+        "title": "Tellus Level-4 Ocean Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.3 version 04",
         "catalog": "POCLOUD STAC Catalog",
         "state_date": "2002-04-01",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2537004985-POCLOUD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2537004985-POCLOUD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/POCLOUD/collections/OCEAN_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.1_V3_RL06.1Mv03",
-        "description": "This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL06.1Mv03 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.1_V3. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability is provided as an ASCII table.",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3206302778-POCLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3206302778-POCLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/POCLOUD/collections/OCEAN_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.3_V4_RL06.3Mv04",
+        "description": "This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL06.1Mv04 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.3_V4. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability is provided as an ASCII table.",
         "license": "proprietary"
     },
     {
@@ -150643,19 +150643,6 @@
         "description": "This Level-2G daily global gridded product OMAERUVG is based on the pixel level OMI Level-2 AERUV product OMAERUV. This Level-2G daily global gridded product OMAERUVG is based on the pixel level OMI Level-2 Aerosol product OMAERUV. OMAERUVG data product is a special Level-2 gridded product where pixel level products are binned into 0.25x0.25 degree global grids. It contains the data for all scenes that have observation time between UTC times of 00:00:00 and 23:59:59.9999. All data pixels that fall in a grid box are saved without averaging. Scientists can apply a data filtering scheme of their choice and create new gridded products.  The OMAERUVG files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains daily data from approximately 15 orbits mapped on the Global 0.25x0.25 deg Grids. The maximum file size for the OMAERUVG data product is about 50 Mbytes.",
         "license": "proprietary"
     },
-    {
-        "id": "OMAERUV_003",
-        "title": "OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo 1-orbit L2 Swath 13x24 km V003 (OMAERUV) at GES DISC",
-        "catalog": "GES_DISC STAC Catalog",
-        "state_date": "2004-10-01",
-        "end_date": "",
-        "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1239966768-GES_DISC.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1239966768-GES_DISC.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/GES_DISC/collections/OMAERUV_003",
-        "description": "The Aura Ozone Monitoring Instrument level-2 near UV Aerosol data product 'OMAERUV', recently re-processed using an enhanced algorithm, is now released (April 2012) to the public. The data are available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). The shortname for this Level-2 near-UV Aerosol Product is OMAERUV_V003. The OMAERUV retrieval algorithm is developed by the US OMI Team Scientists. Dr. Omar Torres (GSFC/NASA) is the principal investigator of this product. The OMAERUV product contains Aerosol Absorption and Aerosol Extinction Optical Depths, and Single Scattering Albedo at three different wavelengths (354, 388 and 500 nm), Aerosol Index, and other ancillary and geolocation parameters, in the OMI field of view (13x24 km).  The OMAERUV files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMAERUV data product is about 6 Mbytes.",
-        "license": "proprietary"
-    },
     {
         "id": "OMAERUV_003",
         "title": "OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo 1-orbit L2 Swath 13x24 km V003 NRT",
@@ -150669,6 +150656,19 @@
         "description": "The OMI/Aura level-2 near UV Aerosol data product 'OMAERUV', recently re-processed using an enhanced algorithm, is now released (April 2012) to the public. The data is available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC), http://disc.gsfc.nasa.gov/Aura/OMI/omaeruv_v003.shtml NASA Aura satellite sensors are tracking important atmospheric pollutants from space since its launch in July, 2004. The Ozone Monitoring Instrument(OMI), one of the four Aura satellite sensors with its 2600 km viewing swath width provides daily global measurements of four important US Environmental Protection Agency criteria pollutants (Tropospheric ozone, Nitrogen dioxide,Sulfur dioxide and Aerosols from biomass burning and industrial emissions, HCHO, BrO, OClO and surface UV irradiance. OMI is a contribution of the Netherlands Agency for Aerospace Programs (NIVR)in collaboration with Finish Meterological Institute (FMI), to the US EOS-Aura Mission. The principal investigator (Dr. Pieternel Levelt) institute is the KNMI (Royal Netherlands Meteorological Institute). The Level-2 OMI Aerosol Product OMAERUV from the Aura-OMI is now available from NASAs GSFC Earth Sciences (GES) Data and Information Services Center (DISC) for public access. OMAERUV retrieval algorithm is developed by the US OMI Team Scientists. Dr. Omar Torres (GSFC/NASA) is the principal investigator of this product. The OMAERUV product contains Aerosol Absorption and Aerosol Extinction Optical Depths, and Single Scattering Albedo at three different wavelengths (354, 388 and 500 nm), Aerosol Index, and other ancillary and geolocation parameters, in the OMI field of view (13x24 km). Another standard OMI aerosol product is OMAERO, that is based on the KNMI multi-wavelength spectral fitting algorithm. OMAERUV files are stored in EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMAERUV data product is about 6 Mbytes. A list of tools for browsing and extracting data from these files can be found at: http://disc.gsfc.nasa.gov/Aura/tools.shtml A short OMAERUV Readme Document that includes brief algorithm description and currently known data quality issues is provided by the OMAERUV Algorithm lead (see http://disc.gsfc.nasa.gov/Aura/OMI/omaeruv_v003.shtml) For more information on Ozone Monitoring Instrument and atmospheric data products, please visit the OMI-Aura sites: http://aura.gsfc.nasa.gov/ http://www.knmi.nl/omi/research/documents/ . OMAERUV Data Groups and Parameters: The OMAERUV data file contains a swath which consists of two groups: Data fields: Total Aerosol Optical Depth (extinction optical depth) and Aerosol Absorption Optical Depths (at 354, 388 and 500 nm), Single Scattering Albedo, UV Aerosol Index, Visible Aerosol Index, and other intermediate and ancillary parameters (e.g. Estimates of Aerosol Total Extinction and Absorption Optical Depths and Single Scattering Albedo at five atmospheric levels, Aerosol Type, Aerosol Layer Height, Normalized Radiance, Lambert equivalent Reflectivity, Surface Albedo, Imaginary Component of Refractive Index) and Data Quality Flags. Geolocation Fields: Latitude, Longitude, Time(TAI93), Seconds, Solar Zenith Angles, Viewing Zenith Angles, Relative Azimuth Angle, Terrain Pressure, Ground Pixel Quality Flags. For the full set of Aura products available from the GES DISC, please see the link below. http://disc.sci.gsfc.nasa.gov/Aura/ Atmospheric Composition data from Aura and other satellite sensors can be ordered from the following sites: http://disc.sci.gsfc.nasa.gov/acdisc/ ",
         "license": "proprietary"
     },
+    {
+        "id": "OMAERUV_003",
+        "title": "OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo 1-orbit L2 Swath 13x24 km V003 (OMAERUV) at GES DISC",
+        "catalog": "GES_DISC STAC Catalog",
+        "state_date": "2004-10-01",
+        "end_date": "",
+        "bbox": "-180, -90, 180, 90",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1239966768-GES_DISC.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1239966768-GES_DISC.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/GES_DISC/collections/OMAERUV_003",
+        "description": "The Aura Ozone Monitoring Instrument level-2 near UV Aerosol data product 'OMAERUV', recently re-processed using an enhanced algorithm, is now released (April 2012) to the public. The data are available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). The shortname for this Level-2 near-UV Aerosol Product is OMAERUV_V003. The OMAERUV retrieval algorithm is developed by the US OMI Team Scientists. Dr. Omar Torres (GSFC/NASA) is the principal investigator of this product. The OMAERUV product contains Aerosol Absorption and Aerosol Extinction Optical Depths, and Single Scattering Albedo at three different wavelengths (354, 388 and 500 nm), Aerosol Index, and other ancillary and geolocation parameters, in the OMI field of view (13x24 km).  The OMAERUV files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMAERUV data product is about 6 Mbytes.",
+        "license": "proprietary"
+    },
     {
         "id": "OMAERUV_004",
         "title": "OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo 1-orbit L2 Swath 13x24 km V004 (OMAERUV) at GES DISC",
@@ -150786,19 +150786,6 @@
         "description": "This Level-2G daily global gridded product OMCLDRRG is based on the pixel level OMI Level-2 CLDRR product OMCLDRR. This level-2G global cloud product (OMCLDRRG) provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering). This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The algorithm lead for the products OMCLDRR and OMCLDRRG is NASA OMI scientist Dr. Joanna Joinner. OMCLDRRG data product is a special Level-2G Gridded Global Product where pixel level data (OMCLDRR)are binned into 0.25x0.25 degree global grids. It contains the OMCLDRR data for all L2 scenes that have observation time between UTC times of 00:00:00 and 23:59:59.9999. All data pixels that fall in a grid box are saved without Averaging. Scientists can apply a data filtering scheme of their choice and create new gridded products.  The OMCLDRRG data products are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each daily file contains data from the day lit portion of the orbits (~14 orbits). The average file size for the OMCLDRRG data product is about 75 Mbytes.",
         "license": "proprietary"
     },
-    {
-        "id": "OMCLDRR_003",
-        "title": "OMI/Aura Cloud Pressure and Fraction (Raman Scattering) 1-Orbit L2 Swath 13x24 km V003 NRT",
-        "catalog": "OMINRT STAC Catalog",
-        "state_date": "2004-07-15",
-        "end_date": "",
-        "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000100-OMINRT.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000100-OMINRT.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/OMINRT/collections/OMCLDRR_003",
-        "description": "The reprocessed Aura OMI Version 003 Level 2 Cloud Data Product OMCLDRR is made available (in April 2012) to the public from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). http://disc.gsfc.nasa.gov/Aura/OMI/omcldrr_v003.shtml ) Aura OMI provides two Level-2 Cloud products (OMCLDRR and OMCLDO2) at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms, the Rotational Raman Scattering method and the O2-O2 absorption method. This level-2 global cloud product (OMCLDRR) provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering). This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI Cloud Pressure and Fraction product is OMCLDRR and the algorithm lead for this product is NASA OMI scientist Dr. Joanna Joinner. OMCLDRR files are stored in EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMCLDRR data product is about 9 Mbytes. A list of tools for browsing and extracting data from these files can be found at: http://disc.gsfc.nasa.gov/Aura/tools.shtml . A short OMCLDRR Readme Document that includes brief algorithm description and data quality is also provided by the OMCLDRR Algorithm lead. The Ozone Monitoring Instrument (OMI) was launched aboard the EOS-Aura satellite on July 15, 2004(1:38 pm equator crossing time, ascending mode). OMI with its 2600 km viewing swath width provides almost daily global coverage. OMI is a contribution of the Netherlands Agency for Aerospace Programs (NIVR)in collaboration with Finish Meterological Institute (FMI), to the US EOS-Aura Mission. OMI is designed to monitor stratospheric and tropospheric ozone, clouds, aerosols and smoke from biomass burning, SO2 from volcanic eruptions, and key tropospheric pollutants (HCHO, NO2) and ozone depleting gases (OClO and BrO). OMI sensor counts, calibrated and geolocated radiances, and all derived geophysical atmospheric products are archived at the NASA GES DISC. For more information on Ozone Monitoring Instrument and atmospheric data products, please visit the OMI-Aura sites: http://aura.gsfc.nasa.gov/instruments/omi/ http://www.knmi.nl/omi/research/documents/ . Data Category Parameters: The OMCLDRR data file contains one swath which consists of two groups: Data fields: Two Effective Cloud Fraction and two Cloud Top Pressures that are based on two different clear and cloudy scene reflectivity criteria, Chlorophyll Amount, Effective Reflectivity (394.1 micron), UV Aerosol Index (based on 360 and 388 nm), and many Auxiliary Algorithm Parameter and Quality Flags. Geolocation Fields: Latitude, Longitude, Time, Solar Zenith Angle, Viewing Zenith Angle, Relative Azimuth Angle, Terrain Height, and Ground Pixel Quality Flags. OMI Atmospheric data and documents are available from the following sites: http://disc.gsfc.nasa.gov/Aura/OMI/ http://mirador.gsfc.nasa.gov/",
-        "license": "proprietary"
-    },
     {
         "id": "OMCLDRR_003",
         "title": "OMI/Aura Effective Cloud Pressure and Fraction (Raman Scattering) 1-Orbit L2 Swath 13x24 km V003 (OMCLDRR) at GES DISC",
@@ -150812,6 +150799,19 @@
         "description": "The reprocessed Aura Ozone Monitoring Instrument (OMI) Version 003 Level 2 Cloud Data Product OMCLDRR is available to the public from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). Aura OMI provides two Level-2 Cloud products (OMCLDRR and OMCLDO2) at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms, the Rotational Raman Scattering method and the O2-O2 absorption method. This level-2 global cloud product, OMCLDRR, provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering).  This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI Cloud Pressure and Fraction product is OMCLDRR and the algorithm lead for this product is NASA OMI scientist Dr. Joanna Joinner.  The OMCLDRR files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMCLDRR data product is about 9 Mbytes.",
         "license": "proprietary"
     },
+    {
+        "id": "OMCLDRR_003",
+        "title": "OMI/Aura Cloud Pressure and Fraction (Raman Scattering) 1-Orbit L2 Swath 13x24 km V003 NRT",
+        "catalog": "OMINRT STAC Catalog",
+        "state_date": "2004-07-15",
+        "end_date": "",
+        "bbox": "-180, -90, 180, 90",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000100-OMINRT.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1000000100-OMINRT.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/OMINRT/collections/OMCLDRR_003",
+        "description": "The reprocessed Aura OMI Version 003 Level 2 Cloud Data Product OMCLDRR is made available (in April 2012) to the public from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). http://disc.gsfc.nasa.gov/Aura/OMI/omcldrr_v003.shtml ) Aura OMI provides two Level-2 Cloud products (OMCLDRR and OMCLDO2) at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms, the Rotational Raman Scattering method and the O2-O2 absorption method. This level-2 global cloud product (OMCLDRR) provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering). This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI Cloud Pressure and Fraction product is OMCLDRR and the algorithm lead for this product is NASA OMI scientist Dr. Joanna Joinner. OMCLDRR files are stored in EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMCLDRR data product is about 9 Mbytes. A list of tools for browsing and extracting data from these files can be found at: http://disc.gsfc.nasa.gov/Aura/tools.shtml . A short OMCLDRR Readme Document that includes brief algorithm description and data quality is also provided by the OMCLDRR Algorithm lead. The Ozone Monitoring Instrument (OMI) was launched aboard the EOS-Aura satellite on July 15, 2004(1:38 pm equator crossing time, ascending mode). OMI with its 2600 km viewing swath width provides almost daily global coverage. OMI is a contribution of the Netherlands Agency for Aerospace Programs (NIVR)in collaboration with Finish Meterological Institute (FMI), to the US EOS-Aura Mission. OMI is designed to monitor stratospheric and tropospheric ozone, clouds, aerosols and smoke from biomass burning, SO2 from volcanic eruptions, and key tropospheric pollutants (HCHO, NO2) and ozone depleting gases (OClO and BrO). OMI sensor counts, calibrated and geolocated radiances, and all derived geophysical atmospheric products are archived at the NASA GES DISC. For more information on Ozone Monitoring Instrument and atmospheric data products, please visit the OMI-Aura sites: http://aura.gsfc.nasa.gov/instruments/omi/ http://www.knmi.nl/omi/research/documents/ . Data Category Parameters: The OMCLDRR data file contains one swath which consists of two groups: Data fields: Two Effective Cloud Fraction and two Cloud Top Pressures that are based on two different clear and cloudy scene reflectivity criteria, Chlorophyll Amount, Effective Reflectivity (394.1 micron), UV Aerosol Index (based on 360 and 388 nm), and many Auxiliary Algorithm Parameter and Quality Flags. Geolocation Fields: Latitude, Longitude, Time, Solar Zenith Angle, Viewing Zenith Angle, Relative Azimuth Angle, Terrain Height, and Ground Pixel Quality Flags. OMI Atmospheric data and documents are available from the following sites: http://disc.gsfc.nasa.gov/Aura/OMI/ http://mirador.gsfc.nasa.gov/",
+        "license": "proprietary"
+    },
     {
         "id": "OMCLDRR_004",
         "title": "OMI/Aura Effective Cloud Pressure and Fraction (Raman Scattering) 1-Orbit L2 Swath 13x24 km V004 (OMCLDRR) at GES DISC",
@@ -151865,19 +151865,6 @@
         "description": "This Level-2G daily global gridded product OMTO3G is based on the pixel level OMI Level-2 Total Ozone Product OMTO3. The OMTO3 product is from the enhanced TOMS version-8 algorithm that essentially uses the ultraviolet radiance data at 317.5 and 331.2 nm. The OMTO3G data product is a special Level-2 Global Gridded Product where pixel level data are binned into 0.25x0.25 degree global grids. It contains the data for all L2 scenes that have observation time between UTC times of 00:00:00 and 23:59:59.9999. All data pixels that fall in a grid box are saved Without Averaging. Scientists can apply a data filtering scheme of their choice and create new gridded products.  The OMTO3G data product contains almost all parameters that are contained in the OMTO3. For example, in addition to the total column ozone it also contains  UV aerosol index, cloud fraction, cloud pressure, terrain height, geolocation, solar and satellite viewing angles, and quality flags.  The OMTO3G files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains daily data from approximately 15 orbits. The maximum file size for the OMTO3G data product is about 150 Mbytes.",
         "license": "proprietary"
     },
-    {
-        "id": "OMTO3_003",
-        "title": "OMI/Aura Ozone(O3) Total Column 1-Orbit L2 Swath 13x24 km V003 (OMTO3) at GES DISC",
-        "catalog": "GES_DISC STAC Catalog",
-        "state_date": "2004-10-01",
-        "end_date": "",
-        "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1239966818-GES_DISC.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1239966818-GES_DISC.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/GES_DISC/collections/OMTO3_003",
-        "description": "The Aura Ozone Monitoring Instrument (OMI) Level-2 Total Column Ozone Data Product OMTO3 (Version 003) is available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC) for the public access. OMI provides two Level-2 (OMTO3 and OMDOAO3) total column ozone products at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms. This level-2 global total column ozone product (OMTO3) is based on the enhanced TOMS version-8 algorithm that essentially uses the ultraviolet radiance data at 317.5 and 331.2 nm. OMI hyper-spectral measurements help in the corrections for the factors that induce uncertainty in ozone retrievals (e.g., cloud and aerosol, sea-glint effects, profile shape sensitivity, SO2 and other trace gas contamination). In addition to the total ozone values this product also contains some auxiliary derived and ancillary input parameters including N-values, effective Lambertian scene-reflectivity, UV aerosol index, SO2 index, cloud fraction, cloud pressure, ozone below clouds, terrain height, geolocation, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI total column ozone product is OMTO3. The algorithm lead for this product is NASA OMI scientist  Dr. Pawan K. Bhartia.  The OMTO3 files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMTO3 data product is approximately 35 MB.",
-        "license": "proprietary"
-    },
     {
         "id": "OMTO3_003",
         "title": "OMI/Aura Ozone (O3) Total Column 1-Orbit L2 Swath 13x24 km V003 NRT",
@@ -151891,6 +151878,19 @@
         "description": "The OMI/Aura Level-2 Total Column Ozone Data Product OMTO3 Near Real Time data is made available from the OMI SIPS NASA  for the public access.  The Ozone Monitoring Instrument (OMI)was launched aboard the EOS-Aura satellite on July 15, 2004(1:38 pm equator crossing time, ascending mode). OMI with its 2600 km viewing swath width provides almost daily global coverage. OMI is a contribution of the Netherlands Agency for Aerospace Programs (NIVR)in collaboration with Finish Meterological Institute (FMI), to the US EOS-Aura Mission. The principal investigator's (Dr. Pieternel Levelt) institute is the KNMI (Royal Netherlands Meteorological Institute). OMI is designed to monitor stratospheric and tropospheric ozone, clouds, aerosols and smoke from biomass burning, SO2 from volcanic eruptions, and key tropospheric pollutants (HCHO, NO2) and ozone depleting gases (OClO and BrO). OMI sensor counts, calibrated and geolocated radiances, and all derived geophysical atmospheric products will be archived at the NASA Goddard DAAC. This level-2 global total column ozone product (OMTO3)is based on the enhanced TOMS version-8 algorithm that  essentially uses the ultraviolet radiance data at 317.5 and 331.2 nm. OMI additional hyper-spectral measurements help in the corrections for the factors that induce uncertainty in ozone retrieval (e.g., cloud and aerosol, sea-glint effects, profile shape sensitivity, SO2 and other trace gas contamination). In addition to the total ozone values this product also contains some auxiliary derived and ancillary input parameters including N-values, effective Lambertian scene-reflectivity, UV aerosol index, SO2 index, cloud fraction, cloud pressure, ozone below clouds, terrain height, geolocation, solar and satellite viewing angles, and extensive quality flags. The shortname for this Level-2 OMI total column ozone product is OMTO3 and the algorithm lead for this product is NASA OMI scientist  Dr. Pawan K. Bhartia ( Pawan.K.Bhartia@nasa.gov). OMTO3 files are stored in EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMTO3 data product is about 35 Mbytes. A list of tools for browsing and extracting data from these files can be found at: http://disc.gsfc.nasa.gov/Aura/tools.shtml For more information on Ozone Monitoring Instrument and atmospheric data products, please visit the OMI-Aura sites: http://aura.gsfc.nasa.gov/  http://www.knmi.nl/omi/research/documents/ .        Data Category Parameters: The OMTO3 data file contains one swath which consists of two groups: Data fields: OMI Total Ozone,Effective Reflectivity (331 - 360 nm), N-value, Cloud Fraction, Cloud Top Pressure, O3 below Cloud, UV Aerosol Index, SO2 index, Wavelength used in the algorithm, many Auxiliary Algorithm Parameter and Quality Flags Geolocation Fields: Latitude, Longitude, Time, Relative Azimuth, Solar Zenith and Azimuth, Viewing Zenith and Azimuth angles, Spacecraft Altitude, Latitude, Longitude, Terrain Height, Ground Pixel Quality Flags.For the full set of Aura data products available from the GES DISC, please see the link http://disc.sci.gsfc.nasa.gov/Aura/ .",
         "license": "proprietary"
     },
+    {
+        "id": "OMTO3_003",
+        "title": "OMI/Aura Ozone(O3) Total Column 1-Orbit L2 Swath 13x24 km V003 (OMTO3) at GES DISC",
+        "catalog": "GES_DISC STAC Catalog",
+        "state_date": "2004-10-01",
+        "end_date": "",
+        "bbox": "-180, -90, 180, 90",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C1239966818-GES_DISC.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C1239966818-GES_DISC.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/GES_DISC/collections/OMTO3_003",
+        "description": "The Aura Ozone Monitoring Instrument (OMI) Level-2 Total Column Ozone Data Product OMTO3 (Version 003) is available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC) for the public access. OMI provides two Level-2 (OMTO3 and OMDOAO3) total column ozone products at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms. This level-2 global total column ozone product (OMTO3) is based on the enhanced TOMS version-8 algorithm that essentially uses the ultraviolet radiance data at 317.5 and 331.2 nm. OMI hyper-spectral measurements help in the corrections for the factors that induce uncertainty in ozone retrievals (e.g., cloud and aerosol, sea-glint effects, profile shape sensitivity, SO2 and other trace gas contamination). In addition to the total ozone values this product also contains some auxiliary derived and ancillary input parameters including N-values, effective Lambertian scene-reflectivity, UV aerosol index, SO2 index, cloud fraction, cloud pressure, ozone below clouds, terrain height, geolocation, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI total column ozone product is OMTO3. The algorithm lead for this product is NASA OMI scientist  Dr. Pawan K. Bhartia.  The OMTO3 files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMTO3 data product is approximately 35 MB.",
+        "license": "proprietary"
+    },
     {
         "id": "OMTO3_CPR_003",
         "title": "OMI/Aura Level 2 Ozone (O3) Total Column 1-Orbit Subset and Collocated Swath along CloudSat track 200-km wide at 13x24 km2 resolution",
@@ -153413,29 +153413,42 @@
         "license": "proprietary"
     },
     {
-        "id": "PACE_OCI_L2_CLDMSK_NRT_2.0",
-        "title": "PACE OCI Level-2 Regional Cloud Mask - Near Real Time (NRT) Data, version 2.0",
+        "id": "PACE_OCI_L2_CLD_2.0",
+        "title": "PACE OCI Level-2 Regional Cloud Optical Properties Data, version 2.0",
         "catalog": "OB_CLOUD STAC Catalog",
         "state_date": "2024-02-25",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3020920380-OB_CLOUD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3020920380-OB_CLOUD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/PACE_OCI_L2_CLDMSK_NRT_2.0",
-        "description": "The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3020920454-OB_CLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3020920454-OB_CLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/PACE_OCI_L2_CLD_2.0",
+        "description": "The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI). It is a highly advanced optical spectrometer that will be used to measure properties of light over portions of the electromagnetic spectrum. It will enable continuous measurement of light at finer wavelength resolution than previous NASA satellite sensors, extending key system ocean color data records for climate studies.",
         "license": "proprietary"
     },
     {
-        "id": "PACE_OCI_L2_CLD_2.0",
-        "title": "PACE OCI Level-2 Regional Cloud Optical Properties Data, version 2.0",
+        "id": "PACE_OCI_L2_CLD_MASK_2.0",
+        "title": "PACE OCI Level-2 Regional Cloud Mask Data, version 2.0",
         "catalog": "OB_CLOUD STAC Catalog",
         "state_date": "2024-02-25",
         "end_date": "",
         "bbox": "-180, -90, 180, 90",
-        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3020920454-OB_CLOUD.umm_json",
-        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3020920454-OB_CLOUD.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/PACE_OCI_L2_CLD_2.0",
-        "description": "The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI). It is a highly advanced optical spectrometer that will be used to measure properties of light over portions of the electromagnetic spectrum. It will enable continuous measurement of light at finer wavelength resolution than previous NASA satellite sensors, extending key system ocean color data records for climate studies.",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453675-OB_CLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453675-OB_CLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/PACE_OCI_L2_CLD_MASK_2.0",
+        "description": "The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.",
+        "license": "proprietary"
+    },
+    {
+        "id": "PACE_OCI_L2_CLD_MASK_NRT_2.0",
+        "title": "PACE OCI Level-2 Regional Cloud Mask - Near Real-time (NRT) Data, version 2.0",
+        "catalog": "OB_CLOUD STAC Catalog",
+        "state_date": "2024-02-25",
+        "end_date": "",
+        "bbox": "-180, -90, 180, 90",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453641-OB_CLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453641-OB_CLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/PACE_OCI_L2_CLD_MASK_NRT_2.0",
+        "description": "The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.",
         "license": "proprietary"
     },
     {
@@ -153815,6 +153828,32 @@
         "description": "The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.",
         "license": "proprietary"
     },
+    {
+        "id": "PACE_OCI_L3B_CLD_MASK_2.0",
+        "title": "PACE OCI Level-3 Global Binned Cloud Mask Data, version 2.0",
+        "catalog": "OB_CLOUD STAC Catalog",
+        "state_date": "2024-02-25",
+        "end_date": "",
+        "bbox": "-180, -90, 180, 90",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453731-OB_CLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453731-OB_CLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/PACE_OCI_L3B_CLD_MASK_2.0",
+        "description": "The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI). It is a highly advanced optical spectrometer that will be used to measure properties of light over portions of the electromagnetic spectrum. It will enable continuous measurement of light at finer wavelength resolution than previous NASA satellite sensors, extending key system ocean color data records for climate studies.",
+        "license": "proprietary"
+    },
+    {
+        "id": "PACE_OCI_L3B_CLD_MASK_NRT_2.0",
+        "title": "PACE OCI Level-3 Global Binned Cloud Mask - Near Real-time (NRT) Data, version 2.0",
+        "catalog": "OB_CLOUD STAC Catalog",
+        "state_date": "2024-02-25",
+        "end_date": "",
+        "bbox": "-180, -90, 180, 90",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453705-OB_CLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453705-OB_CLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/PACE_OCI_L3B_CLD_MASK_NRT_2.0",
+        "description": "The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.",
+        "license": "proprietary"
+    },
     {
         "id": "PACE_OCI_L3B_CLD_TOP_2.0",
         "title": "PACE OCI Level-3 Global Binned Cloud Optical Properties, Cloud Top Data, version 2.0",
@@ -154335,6 +154374,32 @@
         "description": "The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.",
         "license": "proprietary"
     },
+    {
+        "id": "PACE_OCI_L3M_CLD_MASK_2.0",
+        "title": "PACE OCI Level-3 Global Mapped Cloud Mask Data, version 2.0",
+        "catalog": "OB_CLOUD STAC Catalog",
+        "state_date": "2024-02-25",
+        "end_date": "",
+        "bbox": "-180, -90, 180, 90",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453780-OB_CLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453780-OB_CLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/PACE_OCI_L3M_CLD_MASK_2.0",
+        "description": "The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.",
+        "license": "proprietary"
+    },
+    {
+        "id": "PACE_OCI_L3M_CLD_MASK_NRT_2.0",
+        "title": "PACE OCI Level-3 Global Mapped Cloud Mask - Near Real-time (NRT) Data, version 2.0",
+        "catalog": "OB_CLOUD STAC Catalog",
+        "state_date": "2024-02-25",
+        "end_date": "",
+        "bbox": "-180, -90, 180, 90",
+        "url": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453766-OB_CLOUD.umm_json",
+        "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C3284453766-OB_CLOUD.html",
+        "href": "https://cmr.earthdata.nasa.gov/stac/OB_CLOUD/collections/PACE_OCI_L3M_CLD_MASK_NRT_2.0",
+        "description": "The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.",
+        "license": "proprietary"
+    },
     {
         "id": "PACE_OCI_L3M_CLD_TOP_2.0",
         "title": "PACE OCI Level-3 Global Mapped Cloud Optical Properties, Cloud Top Data, version 2.0",
@@ -169936,7 +170001,7 @@
         "license": "proprietary"
     },
     {
-        "id": "SV19MA_TNET_001",
+        "id": "SV19MA_TNET_1",
         "title": "SMAPVEX19-22 Massachusetts Temporary Soil Moisture Network V001",
         "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2019-05-01",
@@ -169944,7 +170009,7 @@
         "bbox": "-72.29, 42.34, -71.95, 42.69",
         "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2654469973-NSIDC_ECS.umm_json",
         "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2654469973-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/SV19MA_TNET_001",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/SV19MA_TNET_1",
         "description": "These data consist of ground-based, soil moisture, soil temperature, and air temperature measurements recorded by twenty-five temporary stations located in the vicinity of Petersham, MA during the SMAPVEX19-22 campaign. The stations were installed across an area of approximately 23 km by 36 km in May 2019 and operated through 2022. Note that the product is named SMAPVEX19-22 because, although the current coverage is through 2021, it is projected to include 2022 data in the future.",
         "license": "proprietary"
     },
@@ -170001,7 +170066,7 @@
         "license": "proprietary"
     },
     {
-        "id": "SV19MB_TNET_001",
+        "id": "SV19MB_TNET_1",
         "title": "SMAPVEX19-22 Millbrook Temporary Soil Moisture Network V001",
         "catalog": "NSIDC_ECS STAC Catalog",
         "state_date": "2019-05-01",
@@ -170009,7 +170074,7 @@
         "bbox": "-73.79, 41.68, -73.44, 42.03",
         "url": "https://cmr.earthdata.nasa.gov/search/concepts/C2654470154-NSIDC_ECS.umm_json",
         "metadata": "https://cmr.earthdata.nasa.gov/search/concepts/C2654470154-NSIDC_ECS.html",
-        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/SV19MB_TNET_001",
+        "href": "https://cmr.earthdata.nasa.gov/stac/NSIDC_ECS/collections/SV19MB_TNET_1",
         "description": "These data consist of soil moisture sensor, soil temperature and air temperature measurements recorded by 25 temporary stations in the Millbrook (MB) experiment location during SMAPVEX19-22. The stations were spread out over the experiment domain of about 30 by 40 km located around Millbrook, NY. The stations were installed in May 2019 and are to continue operation until 2022. Note that the product is named SMAPVEX19-22 because, although the current coverage is through 2021, it is projected to include 2022 data in the future.",
         "license": "proprietary"
     },
diff --git a/nasa_cmr_catalog.tsv b/nasa_cmr_catalog.tsv
index bd32013..eee778e 100644
--- a/nasa_cmr_catalog.tsv
+++ b/nasa_cmr_catalog.tsv
@@ -1708,7 +1708,7 @@ ANARE-74_1	An atlas of the lakes of the Larsemann Hills, Princess Elizabeth Land
 ANARE-98_1	Geology of possible runway sites in the Davis region, Vestfold Hills, East Antarctica	AU_AADC STAC Catalog	1993-09-30	1994-03-31	77.962, -68.581, 78.062, -68.542	https://cmr.earthdata.nasa.gov/search/concepts/C1214305708-AU_AADC.umm_json	From the abstract of the referenced publication:  Five possible runway sites have been proposed within 4 km of Davis on the northwestern part of Broad Peninsula, Vestfold Hills.  Most are on on thin, young sedimentary sequences on low level flat areas, although two are dominantly on Precambrian basement, one of which is at low elevation.  This report reviews the geology of each site as a background summary for use by engineers in the event of a decision to build.  Permafrost level in the area is normally within 100+/- 20-30 cm of the surface and appears to vary depending on location and proximity to water masses.  The report uses as much information as can be assembled from earlier dispersed reports and adds detailed grain size data from eight sites cored during the 1993-94 summer.  Stratigraphy of the sediment sections is not well understood and is best documented in the Heidemann Valley.  Maximum sediment thickness known is about 4 m.  All sediments appear to be younger than one million years and probably are much younger.  Speculation is given about the origin and significance of some of the features of the area.   Available for download:  1 The ANARE Research Notes 98 publication as a pdf.  2 AutoCAD drawing file data digitised in November 1996 from original survey plans of the possible runway sites survey undertaken in February 1984 by the Australian Survey Office.  The original survey plan drawing number is 3276/001 in 9 sheets. The coordinates system for the drawing file is WGS84 UTM grid Zone 44.  3 Eleven maps of the possible runway sites in Adobe Illustrator (.ai) format. The maps were produced by AUSLIG (Australian Survey and Land Information Group) using the digitised survey data and are included in the publication. The maps are also available from the Antarctic Map Catalogue as pdf. The map catalogue numbers are 13363 to 13373. See a Related URL for a link to the Antarctic Map Catalogue.	proprietary
 ANARE_Expeditions_1947-1966_1	Australian National Antarctic Research Expeditions 1947 to 1966 - Double sided map	AU_AADC STAC Catalog	1947-01-01	1966-12-31	40, -90, 160, 53	https://cmr.earthdata.nasa.gov/search/concepts/C1214305683-AU_AADC.umm_json	A double sided map titled Australian National Antarctic Research Expeditions 1947-1966 was published in 1989. It included details on Phillip Law and the history of Australians in Antarctica and all ANARE expeditions during this time. This zip file contains two text documents containing this text.  Australia's long history of involvement in Antarctica has its foundations in the 19th century. In its early years Australia depended on the sea for its trade and communications and was conscious of the vast unknown region that lay close to the south. Because of this proximity it was inevitable that Australia became closely involved in Antarctic exploration.   The sailing vessels upon which the colonies depended for their supplies and trade with Europe followed the Great Circle routes south of the Cape of Good Hope and sought the favourable westerly winds found well to the south. These voyages brought familiarity with the high latitudes, but were not without risk -in the second year of settlement HMS Guardian was almost lost after striking an iceberg.   From the first days of colonisation in 1788, Australia was closely associated with sealing and whaling industries. These industries rapidly assumed commercial importance but, as Australian waters became exhausted, the attention of sealers and whalers turned inevitably to the subantarctic islands. By 1820, just ten years after the discovery of Macquarie Island, the fur seal had been virtually exterminated and elephant seals were being slaughtered for their oil.   Over-exploitation around Australia also forced whalers to explore the southern waters. The Hobart barque Venus reached 72 degrees S in search of whales in 1831. Its return to Australia with a cargo of sperm whale oil stimulated others to explore the far south. Elsewhere around Antarctica other voyages by English, American and Russian vessels were making significant discoveries. The geographic and scientific exploration of Antarctica was thus encouraged by the early commercial ventures.  Many explorers bound for the Antarctic, including John Biscoe, Charles Wilkes, Dumont d'Urville and James Clark Ross, visited Australia for supplies for their southern journeys. The use of Hobart as a port of call for most of these expeditions and its support for the southern sealing and whaling industries fostered Australian interest in Antarctica.	proprietary
 ANARE_History_Timelines_1	ANARE History and Timeline documents	AU_AADC STAC Catalog	1911-01-01	2000-01-01	30, -75, 160, -35	https://cmr.earthdata.nasa.gov/search/concepts/C1214311753-AU_AADC.umm_json	Four documents - Winter expedition list (1948 - 1994), Index of ANARE News items (1988 - 1995), Aviation timeline (1911- 2000) and a master timeline (1929 -1994)  Winter expedition list - produced by Max Corry from ANARE News and ANARE Club documents.  Index of ANARE News - authored by Evlyn Barrett, AAD Librarian (deceased) as part of ANARE Jubilee (1996)  Aviation timeline - by Gordon Bain and Annie Rushton. There are comments on missing or suspect information.  Master timeline - authored by Evlyn Barrett, AAD Librarian (deceased) as part of ANARE Jubilee (1996). Lists significant Australian Antarctic events.	proprietary
-ANTARCTICA_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.1_V3_RL06.1Mv03	Tellus Level-4 Antarctica Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.1 version 03	POCLOUD STAC Catalog	2002-04-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2537006834-POCLOUD.umm_json	This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL061Mv03 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.1_V3. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability are provided as an ASCII table.	proprietary
+ANTARCTICA_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.3_V4_RL06.3Mv04	Tellus Level-4 Antarctica Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.3 version 04	POCLOUD STAC Catalog	2002-04-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3206284786-POCLOUD.umm_json	This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL063Mv04 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.3_V4. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability are provided as an ASCII table.	proprietary
 ANTARES_Baja_California_Station_0	ANTARES Baja California Station	OB_DAAC STAC Catalog	2012-10-30		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1633360101-OB_DAAC.umm_json	The ANTARES regional network is composed of coastal time-series stations located around Latin America (www.antares.ws). The main goal is to study long-term changes due to both climate and anthropogenic effects, as well as for ocean color purposes of satellite match-ups and algorithm development.	proprietary
 ANTARES_Ubatuba_Station_0	ANTARES monitoring station in Ubatuba, Southeast Brazilian Bight	OB_DAAC STAC Catalog	2012-07-12		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1633360102-OB_DAAC.umm_json	The ANTARES regional network is composed of coastal time-series stations located around Latin America. The main goal is to study long-term changes due to both climate and anthropogenic effects, as well as for ocean color purposes of satellite match-ups and algorithm development. The Ubatuba-ANTARES station is located in the Southeast Brazilian Bight, 12 nautical miles from the coastline, at approximately 40 m depth. Ubatuba inner shelf is influenced by mesoscale cyclonic meandering of the Brazil Current system at a region with a crosscurrent transfer of slope waters into the shelf. This ecosystem is mainly oligo-mesotrophic, but also strongly influenced by the South Atlantic Central Water upwelled locally or remotely forced from northeastern upwelling cores mainly during austral summer. In the winter, colder, less saline and relatively richer waters from southern latitudes advect northwards along the shelf.	proprietary
 ANT_0	North Atlantic Transect (ANT) program	OB_DAAC STAC Catalog	2000-11-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1633360103-OB_DAAC.umm_json	Measurements made along the African Coast by a North Atlantic Transect (ANT) program under the US-funded GEOTRACES program.	proprietary
@@ -2421,13 +2421,13 @@ AST_L1B_003	ASTER L1B Registered Radiance at the Sensor V003	LPDAAC_ECS STAC Cat
 AST_L1T_003	ASTER Level 1 precision terrain corrected registered at-sensor radiance V003	LPDAAC_ECS STAC Catalog	2000-03-04		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1000000320-LPDAAC_ECS.umm_json	The Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) Level 1 Precision Terrain Corrected Registered At-Sensor Radiance (AST_L1T) data contains calibrated at-sensor radiance, which corresponds with the ASTER Level 1B (AST_L1B) (https://doi.org/10.5067/ASTER/AST_L1B.003), that has been geometrically corrected, and rotated to a north-up UTM projection. The AST_L1T is created from a single resampling of the corresponding ASTER L1A (AST_L1A) (https://doi.org/10.5067/ASTER/AST_L1A.003) product. The bands available in the AST_L1T depend on the bands in the AST_L1A and can include up to three Visible and Near Infrared (VNIR) bands, six Shortwave Infrared (SWIR) bands, and five Thermal Infrared (TIR) bands. The AST_L1T dataset does not include the aft-looking VNIR band 3.    The precision terrain correction process incorporates GLS2000 digital elevation data with derived ground control points (GCPs) to achieve topographic accuracy for all daytime scenes where correlation statistics reach a minimum threshold. Alternate levels of correction are possible (systematic terrain, systematic, or precision) for scenes acquired at night or that otherwise represent a reduced quality ground image (e.g., cloud cover).    For daytime images, if the VNIR or SWIR telescope collected data and precision correction was attempted, each precision terrain corrected image will have an accompanying independent quality assessment. It will include the geometric correction available for distribution in both as a text file and a single band browse images with the valid GCPs overlaid.    This multi-file product also includes georeferenced full resolution browse images. The number of browse images and the band combinations of the images depends on the bands available in the corresponding (AST_L1A) (https://doi.org/10.5067/ASTER/AST_L1A.003) dataset. 	proprietary
 AST_L1T_031	ASTER Level 1 Precision Terrain Corrected Registered At-Sensor Radiance V031	LPDAAC_ECS STAC Catalog	2000-03-04		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2052604735-LPDAAC_ECS.umm_json	The Terra Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) Level 1 Precision Terrain Corrected Registered At-Sensor Radiance (AST_L1T) Version 3.1 data contains calibrated at-sensor radiance, which corresponds with the ASTER Level 1B AST_L1B  (https://doi.org/10.5067/ASTER/AST_L1B.003), that has been geometrically corrected and rotated to a north-up UTM projection. The AST_L1T V3.1 is created from a single resampling of the corresponding ASTER L1A AST_L1A (https://doi.org/10.5067/ASTER/AST_L1A.003) product. Radiometric calibration coefficients Version 5 (RCC V5) are applied to this product to improve the degradation curve derived from vicarious and lunar calibrations. The bands available in the AST_L1T V3.1 depend on the bands in the AST_L1A and can include up to three Visible and Near Infrared (VNIR) bands, six Shortwave Infrared (SWIR) bands, and five Thermal Infrared (TIR) bands. The AST_L1T V3.1 dataset does not include the aft-looking VNIR band 3.    The 3.1 version uses a precision terrain correction process that incorporates GLS2000 digital elevation data with derived ground control points (GCPs) to achieve topographic accuracy for all daytime scenes where correlation statistics reach a minimum threshold. Alternate levels of correction are possible (systematic terrain, systematic, or precision) for scenes acquired at night or that otherwise represent a reduced quality ground image (e.g., cloud cover).    For daytime images, if the VNIR or SWIR telescope collected data and precision correction was attempted, each precision terrain corrected image will have an accompanying independent quality assessment. It will include the geometric correction available for distribution in both a text file and a single band browse image with the valid GCPs overlaid.    This multi-file product also includes georeferenced full resolution browse images. The number of browse images and the band combinations of the images depend on the bands available in the corresponding AST_L1A dataset.    The AST_L1T V3.1 data product is only available through NASA’s Earthdata Search. The ASTER L1T V3.1 Order Instructions provide step-by-step directions for ordering this product.  	proprietary
 ATCS_0	The A-Train Cloud Segmentation Dataset	OB_DAAC STAC Catalog	2007-11-27		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2172083412-OB_DAAC.umm_json	ATCS is a dataset designed to train deep learning models to volumetrically segment clouds from multi-angle satellite imagery. The dataset consists of spatiotemporally aligned patches of multi-angle polarimetry from the POLDER sensor aboard the PARASOL mission and vertical cloud profiles from the 2B-CLDCLASS product using the cloud profiling radar (CPR) aboard CloudSat.	proprietary
-ATL02_006	ATLAS/ICESat-2 L1B Converted Telemetry Data V006	NSIDC_ECS STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2541211133-NSIDC_ECS.umm_json	This data set (ATL02) contains science-unit-converted time-ordered telemetry data, calibrated for instrument effects, downlinked from the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The data are used by the ATLAS/ICESat-2 Science Investigator-led Processing System (SIPS) for system-level, quality control analysis and as source data for ATLAS/ICESat-2 Level-2 products and Precision Orbit Determination (POD) and Precision Pointing Determination (PPD) computations.	proprietary
 ATL02_006	ATLAS/ICESat-2 L1B Converted Telemetry Data V006	NSIDC_CPRD STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2547589158-NSIDC_CPRD.umm_json	This data set (ATL02) contains science-unit-converted time-ordered telemetry data, calibrated for instrument effects, downlinked from the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The data are used by the ATLAS/ICESat-2 Science Investigator-led Processing System (SIPS) for system-level, quality control analysis and as source data for ATLAS/ICESat-2 Level-2 products and Precision Orbit Determination (POD) and Precision Pointing Determination (PPD) computations.	proprietary
-ATL03_006	ATLAS/ICESat-2 L2A Global Geolocated Photon Data V006	NSIDC_CPRD STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2596864127-NSIDC_CPRD.umm_json	This data set (ATL03) contains height above the WGS 84 ellipsoid (ITRF2014 reference frame), latitude, longitude, and time for all photons downlinked by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The ATL03 product was designed to be a single source for all photon data and ancillary information needed by higher-level ATLAS/ICESat-2 products. As such, it also includes spacecraft and instrument parameters and ancillary data not explicitly required for ATL03.	proprietary
+ATL02_006	ATLAS/ICESat-2 L1B Converted Telemetry Data V006	NSIDC_ECS STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2541211133-NSIDC_ECS.umm_json	This data set (ATL02) contains science-unit-converted time-ordered telemetry data, calibrated for instrument effects, downlinked from the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The data are used by the ATLAS/ICESat-2 Science Investigator-led Processing System (SIPS) for system-level, quality control analysis and as source data for ATLAS/ICESat-2 Level-2 products and Precision Orbit Determination (POD) and Precision Pointing Determination (PPD) computations.	proprietary
 ATL03_006	ATLAS/ICESat-2 L2A Global Geolocated Photon Data V006	NSIDC_ECS STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2559919423-NSIDC_ECS.umm_json	This data set (ATL03) contains height above the WGS 84 ellipsoid (ITRF2014 reference frame), latitude, longitude, and time for all photons downlinked by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The ATL03 product was designed to be a single source for all photon data and ancillary information needed by higher-level ATLAS/ICESat-2 products. As such, it also includes spacecraft and instrument parameters and ancillary data not explicitly required for ATL03.	proprietary
+ATL03_006	ATLAS/ICESat-2 L2A Global Geolocated Photon Data V006	NSIDC_CPRD STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2596864127-NSIDC_CPRD.umm_json	This data set (ATL03) contains height above the WGS 84 ellipsoid (ITRF2014 reference frame), latitude, longitude, and time for all photons downlinked by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory. The ATL03 product was designed to be a single source for all photon data and ancillary information needed by higher-level ATLAS/ICESat-2 products. As such, it also includes spacecraft and instrument parameters and ancillary data not explicitly required for ATL03.	proprietary
 ATL03_ANC_MASKS_1	ATLAS/ICESat-2 ATL03 Ancillary Masks, Version 1	NSIDCV0 STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2278879612-NSIDCV0.umm_json	This ancillary ICESat-2 data set contains four static surface masks (land ice, sea ice, land, and ocean) provided by ATL03 to reduce the volume of data that each surface-specific along-track data product is required to process. For example, the land ice surface mask directs the ATL06 land ice algorithm to consider data from only those areas of interest to the land ice community. Similarly, the sea ice, land, and ocean masks direct ATL07, ATL08, and ATL12 algorithms, respectively. A detailed description of all four masks can be found in section 4 of the Algorithm Theoretical Basis Document (ATBD) for ATL03 linked under technical references.	proprietary
-ATL04_006	ATLAS/ICESat-2 L2A Normalized Relative Backscatter Profiles V006	NSIDC_CPRD STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2613553327-NSIDC_CPRD.umm_json	ATL04 contains along-track normalized relative backscatter profiles of the atmosphere. The product includes full 532 nm (14 km) uncalibrated attenuated backscatter profiles at 25 times per second for vertical bins of approximately 30 meters. Calibration coefficient values derived from data within the polar regions are also included. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
 ATL04_006	ATLAS/ICESat-2 L2A Normalized Relative Backscatter Profiles V006	NSIDC_ECS STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2561045326-NSIDC_ECS.umm_json	ATL04 contains along-track normalized relative backscatter profiles of the atmosphere. The product includes full 532 nm (14 km) uncalibrated attenuated backscatter profiles at 25 times per second for vertical bins of approximately 30 meters. Calibration coefficient values derived from data within the polar regions are also included. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
+ATL04_006	ATLAS/ICESat-2 L2A Normalized Relative Backscatter Profiles V006	NSIDC_CPRD STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2613553327-NSIDC_CPRD.umm_json	ATL04 contains along-track normalized relative backscatter profiles of the atmosphere. The product includes full 532 nm (14 km) uncalibrated attenuated backscatter profiles at 25 times per second for vertical bins of approximately 30 meters. Calibration coefficient values derived from data within the polar regions are also included. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
 ATL06_006	ATLAS/ICESat-2 L3A Land Ice Height V006	NSIDC_CPRD STAC Catalog	2018-10-14		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2670138092-NSIDC_CPRD.umm_json	This data set (ATL06) provides geolocated, land-ice surface heights (above the WGS 84 ellipsoid, ITRF2014 reference frame), plus ancillary parameters that can be used to interpret and assess the quality of the height estimates. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
 ATL06_006	ATLAS/ICESat-2 L3A Land Ice Height V006	NSIDC_ECS STAC Catalog	2018-10-14		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2564427300-NSIDC_ECS.umm_json	This data set (ATL06) provides geolocated, land-ice surface heights (above the WGS 84 ellipsoid, ITRF2014 reference frame), plus ancillary parameters that can be used to interpret and assess the quality of the height estimates. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
 ATL07QL_006	ATLAS/ICESat-2 L3A Sea Ice Height Quick Look V006	NSIDC_ECS STAC Catalog	2024-08-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2548344839-NSIDC_ECS.umm_json	ATL07QL is the quick look version of ATL07. Once final ATL07 files are available, the corresponding ATL07QL files will be removed. ATL07 contains along-track heights for sea ice and open water leads (at varying length scales) relative to the WGS84 ellipsoid (ITRF2014 reference frame) after adjustment for geoidal and tidal variations and inverted barometer effects. Height statistics and apparent reflectance are also provided. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
@@ -2442,17 +2442,17 @@ ATL09_006	ATLAS/ICESat-2 L3A Calibrated Backscatter Profiles and Atmospheric Lay
 ATL10QL_006	ATLAS/ICESat-2 L3A Sea Ice Freeboard Quick Look V006	NSIDC_ECS STAC Catalog	2024-08-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2551529078-NSIDC_ECS.umm_json	ATL10QL is the quick look version of ATL10. Once final ATL10 files are available the corresponding ATL10QL files will be removed. ATL10 contains estimates of sea ice freeboard, calculated using three different approaches. Sea ice leads used to establish the reference sea surface and descriptive statistics used in the height estimates are also provided. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
 ATL10_006	ATLAS/ICESat-2 L3A Sea Ice Freeboard V006	NSIDC_ECS STAC Catalog	2018-10-14		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2567856357-NSIDC_ECS.umm_json	This data set (ATL10) contains estimates of sea ice freeboard, calculated using three different approaches. Sea ice leads used to establish the reference sea surface and descriptive statistics used in the height estimates are also provided. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
 ATL10_006	ATLAS/ICESat-2 L3A Sea Ice Freeboard V006	NSIDC_CPRD STAC Catalog	2018-10-14		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2613553243-NSIDC_CPRD.umm_json	This data set (ATL10) contains estimates of sea ice freeboard, calculated using three different approaches. Sea ice leads used to establish the reference sea surface and descriptive statistics used in the height estimates are also provided. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
-ATL11_006	ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series V006	NSIDC_ECS STAC Catalog	2019-03-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2750966856-NSIDC_ECS.umm_json	This data set provides time series of land-ice surface heights derived from the ICESat-2 ATL06 Land Ice Height product. It is intended primarily as an input for higher level gridded products but can also be used on its own as a spatially organized product that allows easy access to height-change information derived from ICESat-2 observations.	proprietary
 ATL11_006	ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series V006	NSIDC_CPRD STAC Catalog	2019-03-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2752556504-NSIDC_CPRD.umm_json	This data set provides time series of land-ice surface heights derived from the ICESat-2 ATL06 Land Ice Height product. It is intended primarily as an input for higher level gridded products but can also be used on its own as a spatially organized product that allows easy access to height-change information derived from ICESat-2 observations.	proprietary
-ATL12_006	ATLAS/ICESat-2 L3A Ocean Surface Height V006	NSIDC_ECS STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2560378689-NSIDC_ECS.umm_json	This data set (ATL12) contains along-track sea surface height of the global open ocean, including the ice-free seasonal ice zone and near-coast regions. Estimates of height distributions, significant wave height, sea state bias, and 10 m heights are also provided. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
+ATL11_006	ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series V006	NSIDC_ECS STAC Catalog	2019-03-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2750966856-NSIDC_ECS.umm_json	This data set provides time series of land-ice surface heights derived from the ICESat-2 ATL06 Land Ice Height product. It is intended primarily as an input for higher level gridded products but can also be used on its own as a spatially organized product that allows easy access to height-change information derived from ICESat-2 observations.	proprietary
 ATL12_006	ATLAS/ICESat-2 L3A Ocean Surface Height V006	NSIDC_CPRD STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2613553216-NSIDC_CPRD.umm_json	This data set (ATL12) contains along-track sea surface height of the global open ocean, including the ice-free seasonal ice zone and near-coast regions. Estimates of height distributions, significant wave height, sea state bias, and 10 m heights are also provided. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
+ATL12_006	ATLAS/ICESat-2 L3A Ocean Surface Height V006	NSIDC_ECS STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2560378689-NSIDC_ECS.umm_json	This data set (ATL12) contains along-track sea surface height of the global open ocean, including the ice-free seasonal ice zone and near-coast regions. Estimates of height distributions, significant wave height, sea state bias, and 10 m heights are also provided. The data were acquired by the Advanced Topographic Laser Altimeter System (ATLAS) instrument on board the Ice, Cloud and land Elevation Satellite-2 (ICESat-2) observatory.	proprietary
 ATL13QL_006	ATLAS/ICESat-2 L3A Along Track Inland Surface Water Data Quick Look V006	NSIDC_ECS STAC Catalog	2024-08-30		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2650092501-NSIDC_ECS.umm_json	ATL13QL is the quick look version of ATL13. Once final ATL13 files are available the corresponding ATL13QL files will be removed. ATL13 contains along-track surface water products for inland water bodies. Inland water bodies include lakes, reservoirs, rivers, bays, estuaries and a 7 km near-shore buffer. Principal data products include the along-track water surface height and standard deviation, subsurface signal (532 nm) attenuation, significant wave height, wind speed, and coarse depth to bottom topography (where data permit).	proprietary
 ATL13_006	ATLAS/ICESat-2 L3A Along Track Inland Surface Water Data V006	NSIDC_ECS STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2650116584-NSIDC_ECS.umm_json	This data set (ATL13) contains along-track surface water products for inland water bodies. Inland water bodies include lakes, reservoirs, rivers, bays, estuaries and a 7km near-shore buffer. Principal data products include the along-track water surface height and standard deviation, subsurface signal (532 nm) attenuation, significant wave height, wind speed, and coarse depth to bottom topography (where data permit).	proprietary
 ATL13_006	ATLAS/ICESat-2 L3A Along Track Inland Surface Water Data V006	NSIDC_CPRD STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2684928243-NSIDC_CPRD.umm_json	This data set (ATL13) contains along-track surface water products for inland water bodies. Inland water bodies include lakes, reservoirs, rivers, bays, estuaries and a 7km near-shore buffer. Principal data products include the along-track water surface height and standard deviation, subsurface signal (532 nm) attenuation, significant wave height, wind speed, and coarse depth to bottom topography (where data permit).	proprietary
-ATL14_003	ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V003	NSIDC_CPRD STAC Catalog	2019-03-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2776895337-NSIDC_CPRD.umm_json	ATL14 and ATL15 bring the time-varying height estimates provided in ATLAS/ICESat-2 L3B Annual Land Ice Height (ATL11) into a gridded format. ATL14 is a high-resolution (100 m) digital elevation model (DEM) that provides spatially continuous gridded data of ice sheet surface height. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR).   ATL15 provides coarser resolution (1 km, 10 km, 20 km, and 40 km) height-change maps at 3-month intervals, allowing for visualization of height-change patterns and calculation of integrated regional volume change.	proprietary
 ATL14_003	ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V003	NSIDC_ECS STAC Catalog	2019-03-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2776464127-NSIDC_ECS.umm_json	ATL14 and ATL15 bring the time-varying height estimates provided in ATLAS/ICESat-2 L3B Annual Land Ice Height (ATL11) into a gridded format. ATL14 is a high-resolution (100 m) digital elevation model (DEM) that provides spatially continuous gridded data of ice sheet surface height. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR).   ATL15 provides coarser resolution (1 km, 10 km, 20 km, and 40 km) height-change maps at 3-month intervals, allowing for visualization of height-change patterns and calculation of integrated regional volume change.	proprietary
-ATL14_004	ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V004	NSIDC_ECS STAC Catalog	2019-01-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3159684163-NSIDC_ECS.umm_json	This data set contains a high-resolution (100 m) gridded digital elevation model (DEM) for the Antarctic ice sheet and regions around the Arctic. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR). The data are derived from the ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series product (ATL11).	proprietary
+ATL14_003	ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V003	NSIDC_CPRD STAC Catalog	2019-03-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2776895337-NSIDC_CPRD.umm_json	ATL14 and ATL15 bring the time-varying height estimates provided in ATLAS/ICESat-2 L3B Annual Land Ice Height (ATL11) into a gridded format. ATL14 is a high-resolution (100 m) digital elevation model (DEM) that provides spatially continuous gridded data of ice sheet surface height. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR).   ATL15 provides coarser resolution (1 km, 10 km, 20 km, and 40 km) height-change maps at 3-month intervals, allowing for visualization of height-change patterns and calculation of integrated regional volume change.	proprietary
 ATL14_004	ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V004	NSIDC_CPRD STAC Catalog	2019-01-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3162179692-NSIDC_CPRD.umm_json	This data set contains a high-resolution (100 m) gridded digital elevation model (DEM) for the Antarctic ice sheet and regions around the Arctic. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR). The data are derived from the ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series product (ATL11).	proprietary
+ATL14_004	ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height V004	NSIDC_ECS STAC Catalog	2019-01-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3159684163-NSIDC_ECS.umm_json	This data set contains a high-resolution (100 m) gridded digital elevation model (DEM) for the Antarctic ice sheet and regions around the Arctic. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR). The data are derived from the ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series product (ATL11).	proprietary
 ATL15_003	ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height Change V003	NSIDC_CPRD STAC Catalog	2019-03-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2776895930-NSIDC_CPRD.umm_json	ATL14 and ATL15 bring the time-varying height estimates provided in ATLAS/ICESat-2 L3B Annual Land Ice Height (ATL11) into a gridded format. ATL14 is a high-resolution (100 m) digital elevation model (DEM) that provides spatially continuous gridded data of ice sheet surface height. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR).   ATL15 provides coarser resolution (1 km, 10 km, 20 km, and 40 km) height-change maps at 3-month intervals, allowing for visualization of height-change patterns and calculation of integrated regional volume change.	proprietary
 ATL15_003	ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height Change V003	NSIDC_ECS STAC Catalog	2019-03-29		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2776464171-NSIDC_ECS.umm_json	ATL14 and ATL15 bring the time-varying height estimates provided in ATLAS/ICESat-2 L3B Annual Land Ice Height (ATL11) into a gridded format. ATL14 is a high-resolution (100 m) digital elevation model (DEM) that provides spatially continuous gridded data of ice sheet surface height. The data can be used to initialize ice sheet models, as boundary conditions for atmospheric models, or to help with the reduction of other satellite data such as optical imagery or synthetic aperture radar (SAR).   ATL15 provides coarser resolution (1 km, 10 km, 20 km, and 40 km) height-change maps at 3-month intervals, allowing for visualization of height-change patterns and calculation of integrated regional volume change.	proprietary
 ATL15_004	ATLAS/ICESat-2 L3B Gridded Antarctic and Arctic Land Ice Height Change V004	NSIDC_CPRD STAC Catalog	2019-01-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3162334027-NSIDC_CPRD.umm_json	This data set contains land ice height changes and change rates for the Antarctic ice sheet and regions around the Arctic gridded at four spatial resolutions (1 km, 10 km, 20 km, and 40 km). The data are derived from the ATLAS/ICESat-2 L3B Slope-Corrected Land Ice Height Time Series product (ATL11).	proprietary
@@ -2463,8 +2463,8 @@ ATL17_005	ATLAS/ICESat-2 L3B Monthly Gridded Atmosphere V005	NSIDC_ECS STAC Cata
 ATL17_005	ATLAS/ICESat-2 L3B Monthly Gridded Atmosphere V005	NSIDC_CPRD STAC Catalog	2018-10-13		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2769338020-NSIDC_CPRD.umm_json	This data set contains a gridded summary of monthly global cloud fraction, total column optical depth over the oceans, polar cloud fraction, blowing snow frequency, apparent surface reflectivity, and ground detection frequency.	proprietary
 ATL19_003	ATLAS/ICESat-2 L3B Monthly Gridded Dynamic Ocean Topography V003	NSIDC_CPRD STAC Catalog	2018-10-13		-180, -88, 180, 88	https://cmr.earthdata.nasa.gov/search/concepts/C2754956786-NSIDC_CPRD.umm_json	This data set contains monthly gridded dynamic ocean topography (DOT), derived from along-track ATLAS/ICESat-2 L3A Ocean Surface Height product (ATL12). Monthly gridded sea surface height (SSH) can be calculated by adding the mean DOT and the weighted average geoid height also provided in this data set. Both single beam and all-beam gridded averages are available in this data set. Single beam averages are useful to identify biases among the beams and the all-beam averages are advised to use for physical oceanography.	proprietary
 ATL19_003	ATLAS/ICESat-2 L3B Monthly Gridded Dynamic Ocean Topography V003	NSIDC_ECS STAC Catalog	2018-10-13		-180, -88, 180, 88	https://cmr.earthdata.nasa.gov/search/concepts/C2746899536-NSIDC_ECS.umm_json	This data set contains monthly gridded dynamic ocean topography (DOT), derived from along-track ATLAS/ICESat-2 L3A Ocean Surface Height product (ATL12). Monthly gridded sea surface height (SSH) can be calculated by adding the mean DOT and the weighted average geoid height also provided in this data set. Both single beam and all-beam gridded averages are available in this data set. Single beam averages are useful to identify biases among the beams and the all-beam averages are advised to use for physical oceanography.	proprietary
-ATL20_004	ATLAS/ICESat-2 L3B Daily and Monthly Gridded Sea Ice Freeboard V004	NSIDC_CPRD STAC Catalog	2018-10-14		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2753295020-NSIDC_CPRD.umm_json	ATL20 contains daily and monthly gridded estimates of sea ice freeboard, derived from along-track freeboard estimates in the ATLAS/ICESat-2 L3A Sea Ice Freeboard product (ATL10). Data are gridded at 25 km using the SSM/I Polar Stereographic Projection.	proprietary
 ATL20_004	ATLAS/ICESat-2 L3B Daily and Monthly Gridded Sea Ice Freeboard V004	NSIDC_ECS STAC Catalog	2018-10-14		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2666857908-NSIDC_ECS.umm_json	ATL20 contains daily and monthly gridded estimates of sea ice freeboard, derived from along-track freeboard estimates in the ATLAS/ICESat-2 L3A Sea Ice Freeboard product (ATL10). Data are gridded at 25 km using the SSM/I Polar Stereographic Projection.	proprietary
+ATL20_004	ATLAS/ICESat-2 L3B Daily and Monthly Gridded Sea Ice Freeboard V004	NSIDC_CPRD STAC Catalog	2018-10-14		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2753295020-NSIDC_CPRD.umm_json	ATL20 contains daily and monthly gridded estimates of sea ice freeboard, derived from along-track freeboard estimates in the ATLAS/ICESat-2 L3A Sea Ice Freeboard product (ATL10). Data are gridded at 25 km using the SSM/I Polar Stereographic Projection.	proprietary
 ATL21_003	ATLAS/ICESat-2 L3B Daily and Monthly Gridded Polar Sea Surface Height Anomaly V003	NSIDC_CPRD STAC Catalog	2018-10-14		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2753316241-NSIDC_CPRD.umm_json	ATL21 contains daily and monthly gridded polar sea surface height (SSH) anomalies, derived from the along-track ATLAS/ICESat-2 L3A Sea Ice Height product (ATL10, V6). The ATL10 product identifies leads in sea ice and establishes a reference sea surface used to estimate SSH in 10 km along-track segments. ATL21 aggregates the ATL10 along-track SSH estimates and computes daily and monthly gridded SSH anomaly in NSIDC Polar Stereographic Northern and Southern Hemisphere 25 km grids.	proprietary
 ATL21_003	ATLAS/ICESat-2 L3B Daily and Monthly Gridded Polar Sea Surface Height Anomaly V003	NSIDC_ECS STAC Catalog	2018-10-14		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2737912334-NSIDC_ECS.umm_json	ATL21 contains daily and monthly gridded polar sea surface height (SSH) anomalies, derived from the along-track ATLAS/ICESat-2 L3A Sea Ice Height product (ATL10, V6). The ATL10 product identifies leads in sea ice and establishes a reference sea surface used to estimate SSH in 10 km along-track segments. ATL21 aggregates the ATL10 along-track SSH estimates and computes daily and monthly gridded SSH anomaly in NSIDC Polar Stereographic Northern and Southern Hemisphere 25 km grids.	proprietary
 ATL22_003	ATLAS/ICESat-2 L3B Mean Inland Surface Water Data V003	NSIDC_CPRD STAC Catalog	2018-10-14		-180, -88, 180, 88	https://cmr.earthdata.nasa.gov/search/concepts/C2761722214-NSIDC_CPRD.umm_json	ATL22 is a derivative of the continuous Level 3A ATL13 Along Track Inland Surface Water Data product. ATL13 contains the high-resolution, along-track inland water surface profiles derived from analysis of the geolocated photon clouds from the ATL03 product. Starting from ATL13, ATL22 computes the mean surface water quantities with no additional photon analysis. The two data products, ATL22 and ATL13, can be used in conjunction as they include the same orbit and water body nomenclature independent from version numbers.	proprietary
@@ -6154,8 +6154,8 @@ GHISACONUS_001	Global Hyperspectral Imaging Spectral-library of Agricultural cro
 GIMMS3g_NDVI_Trends_1275_1	Long-Term Arctic Growing Season NDVI Trends from GIMMS 3g, 1982-2012	ORNL_CLOUD STAC Catalog	1982-06-01	2012-08-31	-180, 20, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2784897341-ORNL_CLOUD.umm_json	This data set provides normalized difference vegetation index (NDVI) data for the arctic growing season derived primarily with data from Advanced Very High Resolution Radiometer (AVHRR) sensors onboard several NOAA satellites over the years 1982 through 2012. The NDVI data, which show vegetation activity, were averaged annually for the arctic growing season (GS; June, July and August). The products include the annual GS-NDVI values and the results of a cumulative GS-NDVI time series trends analysis. The data are circumpolar in coverage at 8-km resolution and limited to greater than 20 degrees N.These normalized difference vegetation index (NDVI) trends were calculated using the third generation data set from the Global Inventory Modeling and Mapping Studies (GIMMS 3g). GIMMS 3g improves on its predecessor (GIMMS g) in three important ways. First, GIMMS 3g integrates data from NOAA-17 and 18 satellites to lengthen its record. Second, it addresses the spatial discontinuity north of 72 degrees N, by using SeaWiFS, in addition to SPOT VGT, to calibrate between the second and third versions of the AVHRR sensor (AVHRR/2 and AVHRR/3). Finally, the GIMMS 3g algorithm incorporates improved snowmelt detection and is calibrated based on data from the shorter, arctic growing season (May-September) rather than the entire year (January-December). 	proprietary
 GISS-CMIP5_1	GISS ModelE2 contributions to the CMIP5 archive	NCCS STAC Catalog	0850-01-01	2100-12-31	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1542315069-NCCS.umm_json	We present a description of the ModelE2 version of the Goddard Institute for Space Studies (GISS) General Circulation Model (GCM) and the configurations used in the simulations performed for the Coupled Model Intercomparison Project Phase 5 (CMIP5). We use six variations related to the treatment of the atmospheric composition, the calculation of aerosol indirect effects, and ocean model component. Specifically, we test the difference between atmospheric models that have noninteractive composition, where radiatively important aerosols and ozone are prescribed from precomputed decadal averages, and interactive versions where atmospheric chemistry and aerosols are calculated given decadally varying emissions. The impact of the first aerosol indirect effect on clouds is either specified using a simple tuning, or parameterized using a cloud microphysics scheme. We also use two dynamic ocean components: the Russell and HYbrid Coordinate Ocean Model (HYCOM) which differ significantly in their basic formulations and grid. Results are presented for the climatological means over the satellite era (1980-2004) taken from transient simulations starting from the preindustrial (1850) driven by estimates of appropriate forcings over the 20th Century. Differences in base climate and variability related to the choice of ocean model are large, indicating an important structural uncertainty. The impact of interactive atmospheric composition on the climatology is relatively small except in regions such as the lower stratosphere, where ozone plays an important role, and the tropics, where aerosol changes affect the hydrological cycle and cloud cover. While key improvements over previous versions of the model are evident, these are not uniform across all metrics.	proprietary
 GIS_EastAngliaClimateMonthly_551_1	Global Monthly Climatology for the Twentieth Century (New et al.)	ORNL_CLOUD STAC Catalog	1900-01-01	1998-12-31	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2780535151-ORNL_CLOUD.umm_json	A 0.5 degree lat/lon data set of monthly surface climate over global land areas, excluding Antarctica. Primary variables are interpolated directly from station time-series: precipitation, mean temperature and diurnal temperature range.	proprietary
-GLAH01_033	GLAS/ICESat L1A Global Altimetry Data (HDF5) V033	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153547306-NSIDC_CPRD.umm_json	Level-1A altimetry data (GLAH01) include the transmitted and received waveform from the altimeter.  Each data granule has an associated browse product.	proprietary
 GLAH01_033	GLAS/ICESat L1A Global Altimetry Data (HDF5) V033	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000400-NSIDC_ECS.umm_json	Level-1A altimetry data (GLAH01) include the transmitted and received waveform from the altimeter.  Each data granule has an associated browse product.	proprietary
+GLAH01_033	GLAS/ICESat L1A Global Altimetry Data (HDF5) V033	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153547306-NSIDC_CPRD.umm_json	Level-1A altimetry data (GLAH01) include the transmitted and received waveform from the altimeter.  Each data granule has an associated browse product.	proprietary
 GLAH02_033	GLAS/ICESat L1A Global Atmosphere Data (HDF5) V033	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153547430-NSIDC_CPRD.umm_json	GLAH02 Level-1A atmospheric data include the normalized relative backscatter for the 532 nm and 1064 nm channels, and low-level instrument corrections such as laser energy (1064 nm and 532 nm), photon coincidence (532 nm), and detector gain correction (1064 nm). Each data granule has an associated browse product.	proprietary
 GLAH02_033	GLAS/ICESat L1A Global Atmosphere Data (HDF5) V033	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C189991862-NSIDC_ECS.umm_json	GLAH02 Level-1A atmospheric data include the normalized relative backscatter for the 532 nm and 1064 nm channels, and low-level instrument corrections such as laser energy (1064 nm and 532 nm), photon coincidence (532 nm), and detector gain correction (1064 nm). Each data granule has an associated browse product.	proprietary
 GLAH03_033	GLAS/ICESat L1A Global Engineering Data (HDF5) V033	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C189991863-NSIDC_ECS.umm_json	Level-1A global engineering data (GLAH03) include satellite housekeeping data used to calibrate data values for GLA01 and GLA02.	proprietary
@@ -6164,26 +6164,26 @@ GLAH04_033	GLAS/ICESat L1A Global Laser Pointing Data (HDF5) V033	NSIDC_ECS STAC
 GLAH04_033	GLAS/ICESat L1A Global Laser Pointing Data (HDF5) V033	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153547635-NSIDC_CPRD.umm_json	Level-1A global laser pointing data (GLAH04) contain two orbits of attitude data from the spacecraft star tracker, instrument star tracker, gyro, and laser reference system, and other spacecraft attitude data required to calculate precise laser pointing.	proprietary
 GLAH05_034	GLAS/ICESat L1B Global Waveform-based Range Corrections Data (HDF5) V034	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153549166-NSIDC_CPRD.umm_json	GLAH05 Level-1B waveform parameterization data include output parameters from the waveform characterization procedure and other parameters required to calculate surface slope and relief characteristics. GLAH05 contains parameterizations of both the transmitted and received pulses and other characteristics from which elevation and footprint-scale roughness and slope are calculated. The received pulse characterization uses two implementations of the retracking algorithms: one tuned for ice sheets, called the standard parameterization, used to calculate surface elevation for ice sheets, oceans, and sea ice; and another for land (the alternative parameterization).  Each data granule has an associated browse product.	proprietary
 GLAH05_034	GLAS/ICESat L1B Global Waveform-based Range Corrections Data (HDF5) V034	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000460-NSIDC_ECS.umm_json	GLAH05 Level-1B waveform parameterization data include output parameters from the waveform characterization procedure and other parameters required to calculate surface slope and relief characteristics. GLAH05 contains parameterizations of both the transmitted and received pulses and other characteristics from which elevation and footprint-scale roughness and slope are calculated. The received pulse characterization uses two implementations of the retracking algorithms: one tuned for ice sheets, called the standard parameterization, used to calculate surface elevation for ice sheets, oceans, and sea ice; and another for land (the alternative parameterization).  Each data granule has an associated browse product.	proprietary
-GLAH06_034	GLAS/ICESat L1B Global Elevation Data (HDF5) V034	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2033638023-NSIDC_CPRD.umm_json	GLAH06 Level-1B Global Elevation is a product that is analogous to the geodetic data records distributed for radar altimetry missions. It contains elevations previously corrected for tides, atmospheric delays, and surface characteristics within the footprint. Elevation is calculated using the ice sheet parameterization. Additional information allows the user to calculate an elevation based on land, sea ice, or ocean algorithms. Each data granule has an associated browse product.	proprietary
 GLAH06_034	GLAS/ICESat L1B Global Elevation Data (HDF5) V034	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000445-NSIDC_ECS.umm_json	GLAH06 Level-1B Global Elevation is a product that is analogous to the geodetic data records distributed for radar altimetry missions. It contains elevations previously corrected for tides, atmospheric delays, and surface characteristics within the footprint. Elevation is calculated using the ice sheet parameterization. Additional information allows the user to calculate an elevation based on land, sea ice, or ocean algorithms. Each data granule has an associated browse product.	proprietary
+GLAH06_034	GLAS/ICESat L1B Global Elevation Data (HDF5) V034	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2033638023-NSIDC_CPRD.umm_json	GLAH06 Level-1B Global Elevation is a product that is analogous to the geodetic data records distributed for radar altimetry missions. It contains elevations previously corrected for tides, atmospheric delays, and surface characteristics within the footprint. Elevation is calculated using the ice sheet parameterization. Additional information allows the user to calculate an elevation based on land, sea ice, or ocean algorithms. Each data granule has an associated browse product.	proprietary
 GLAH07_033	GLAS/ICESat L1B Global Backscatter Data (HDF5) V033	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C189991867-NSIDC_ECS.umm_json	GLAH07 Level-1B global backscatter data are provided at full instrument resolution. The product includes full 532 nm (41.1 to -1.0 km) and 1064 nm (20 to -1 km) calibrated attenuated backscatter profiles at 5 times per second, and from 10 to -1 km, at 40 times per second for both channels. Also included are calibration coefficient values and molecular backscatter profiles at once per second. Data granules contain approximately 190 minutes (2 orbits) of data.  Each data granule has an associated browse product.	proprietary
 GLAH07_033	GLAS/ICESat L1B Global Backscatter Data (HDF5) V033	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153549420-NSIDC_CPRD.umm_json	GLAH07 Level-1B global backscatter data are provided at full instrument resolution. The product includes full 532 nm (41.1 to -1.0 km) and 1064 nm (20 to -1 km) calibrated attenuated backscatter profiles at 5 times per second, and from 10 to -1 km, at 40 times per second for both channels. Also included are calibration coefficient values and molecular backscatter profiles at once per second. Data granules contain approximately 190 minutes (2 orbits) of data.  Each data granule has an associated browse product.	proprietary
 GLAH08_033	GLAS/ICESat L2 Global Planetary Boundary Layer and Elevated Aerosol Layer Heights (HDF5) V033	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153549511-NSIDC_CPRD.umm_json	GLAH08 Level-2 planetary boundary layer (PBL) and elevated aerosol layer heights data contains PBL heights, ground detection heights, and top and bottom heights of elevated aerosols from -1.5 km to 20.5 km (4 sec sampling rate) and from 20.5 km to 41 km (20 sec sampling rate).  Each data granule has an associated browse product.	proprietary
 GLAH08_033	GLAS/ICESat L2 Global Planetary Boundary Layer and Elevated Aerosol Layer Heights (HDF5) V033	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1631093696-NSIDC_ECS.umm_json	GLAH08 Level-2 planetary boundary layer (PBL) and elevated aerosol layer heights data contains PBL heights, ground detection heights, and top and bottom heights of elevated aerosols from -1.5 km to 20.5 km (4 sec sampling rate) and from 20.5 km to 41 km (20 sec sampling rate).  Each data granule has an associated browse product.	proprietary
-GLAH09_033	GLAS/ICESat L2 Global Cloud Heights for Multi-layer Clouds (HDF5) V033	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C189991869-NSIDC_ECS.umm_json	GLAH09 Level-2 cloud heights for multi-layer clouds contain cloud layer top and bottom height data at sampling rates of 4 sec, 1 sec, 5 Hz, and 40 Hz.  Each data granule has an associated browse product.	proprietary
 GLAH09_033	GLAS/ICESat L2 Global Cloud Heights for Multi-layer Clouds (HDF5) V033	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153549579-NSIDC_CPRD.umm_json	GLAH09 Level-2 cloud heights for multi-layer clouds contain cloud layer top and bottom height data at sampling rates of 4 sec, 1 sec, 5 Hz, and 40 Hz.  Each data granule has an associated browse product.	proprietary
+GLAH09_033	GLAS/ICESat L2 Global Cloud Heights for Multi-layer Clouds (HDF5) V033	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C189991869-NSIDC_ECS.umm_json	GLAH09 Level-2 cloud heights for multi-layer clouds contain cloud layer top and bottom height data at sampling rates of 4 sec, 1 sec, 5 Hz, and 40 Hz.  Each data granule has an associated browse product.	proprietary
 GLAH10_033	GLAS/ICESat L2 Global Aerosol Vertical Structure Data (HDF5) V033	NSIDC_ECS STAC Catalog	2003-09-25	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C189991870-NSIDC_ECS.umm_json	GLAH10 Level-2 aerosol vertical structure data contain the attenuation-corrected cloud and aerosol backscatter and extinction profiles at a 4 sec sampling rate for aerosols and a 1 sec rate for clouds.  Each data granule has an associated browse product.	proprietary
 GLAH10_033	GLAS/ICESat L2 Global Aerosol Vertical Structure Data (HDF5) V033	NSIDC_CPRD STAC Catalog	2003-09-25	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153549654-NSIDC_CPRD.umm_json	GLAH10 Level-2 aerosol vertical structure data contain the attenuation-corrected cloud and aerosol backscatter and extinction profiles at a 4 sec sampling rate for aerosols and a 1 sec rate for clouds.  Each data granule has an associated browse product.	proprietary
-GLAH11_033	GLAS/ICESat L2 Global Thin Cloud/Aerosol Optical Depths Data (HDF5) V033	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C189991871-NSIDC_ECS.umm_json	GLAH11 Level-2 thin cloud/aerosol optical depths data contain thin cloud and aerosol optical depths. A thin cloud is one that does not completely attenuate the lidar signal return, which generally corresponds to clouds with optical depths less than about 2.0. Each data granule has an associated browse product.	proprietary
 GLAH11_033	GLAS/ICESat L2 Global Thin Cloud/Aerosol Optical Depths Data (HDF5) V033	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153549738-NSIDC_CPRD.umm_json	GLAH11 Level-2 thin cloud/aerosol optical depths data contain thin cloud and aerosol optical depths. A thin cloud is one that does not completely attenuate the lidar signal return, which generally corresponds to clouds with optical depths less than about 2.0. Each data granule has an associated browse product.	proprietary
+GLAH11_033	GLAS/ICESat L2 Global Thin Cloud/Aerosol Optical Depths Data (HDF5) V033	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C189991871-NSIDC_ECS.umm_json	GLAH11 Level-2 thin cloud/aerosol optical depths data contain thin cloud and aerosol optical depths. A thin cloud is one that does not completely attenuate the lidar signal return, which generally corresponds to clouds with optical depths less than about 2.0. Each data granule has an associated browse product.	proprietary
 GLAH12_034	GLAS/ICESat L2 Global Antarctic and Greenland Ice Sheet Altimetry Data (HDF5) V034	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000461-NSIDC_ECS.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
 GLAH12_034	GLAS/ICESat L2 Global Antarctic and Greenland Ice Sheet Altimetry Data (HDF5) V034	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153549818-NSIDC_CPRD.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
-GLAH13_034	GLAS/ICESat L2 Sea Ice Altimetry Data (HDF5) V034	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000464-NSIDC_ECS.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
 GLAH13_034	GLAS/ICESat L2 Sea Ice Altimetry Data (HDF5) V034	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153549910-NSIDC_CPRD.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
-GLAH14_034	GLAS/ICESat L2 Global Land Surface Altimetry Data (HDF5) V034	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000443-NSIDC_ECS.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
+GLAH13_034	GLAS/ICESat L2 Sea Ice Altimetry Data (HDF5) V034	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000464-NSIDC_ECS.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
 GLAH14_034	GLAS/ICESat L2 Global Land Surface Altimetry Data (HDF5) V034	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153551318-NSIDC_CPRD.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
-GLAH15_034	GLAS/ICESat L2 Ocean Altimetry Data (HDF5) V034	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000420-NSIDC_ECS.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
+GLAH14_034	GLAS/ICESat L2 Global Land Surface Altimetry Data (HDF5) V034	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000443-NSIDC_ECS.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
 GLAH15_034	GLAS/ICESat L2 Ocean Altimetry Data (HDF5) V034	NSIDC_CPRD STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C2153552369-NSIDC_CPRD.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
+GLAH15_034	GLAS/ICESat L2 Ocean Altimetry Data (HDF5) V034	NSIDC_ECS STAC Catalog	2003-02-20	2009-10-11	-180, -86, 180, 86	https://cmr.earthdata.nasa.gov/search/concepts/C1000000420-NSIDC_ECS.umm_json	GLAH06 is used in conjunction with GLAH05 to create the Level-2 altimetry products. Level-2 altimetry data provide surface elevations for ice sheets (GLAH12), sea ice (GLAH13), land (GLAH14), and oceans (GLAH15). Data also include the laser footprint geolocation and reflectance, as well as geodetic, instrument, and atmospheric corrections for range measurements. The Level-2 elevation products, are regional products archived at 14 orbits per granule, starting and stopping at the same demarcation (± 50° latitude) as GLAH05 and GLAH06. Each regional product is processed with algorithms specific to that surface type. Surface type masks define which data are written to each of the products. If any data within a given record fall within a specific mask, the entire record is written to the product. Masks can overlap: for example, non-land data in the sea ice region may be written to the sea ice and ocean products. This means that an algorithm may write the same data to more than one Level-2 product. In this case, different algorithms calculate the elevations in their respective products. The surface type masks are versioned and archived at NSIDC, so users can tell which data to expect in each product.  Each data granule has an associated browse product.	proprietary
 GLCHMK_001	G-LiHT Canopy Height Model KML V001	LPCLOUD STAC Catalog	2011-06-30		-170, 10, -50, 73	https://cmr.earthdata.nasa.gov/search/concepts/C2763264695-LPCLOUD.umm_json	Goddard’s LiDAR, Hyperspectral, and Thermal Imager (G-LiHT(https://gliht.gsfc.nasa.gov/)) mission utilizes a portable, airborne imaging system that aims to simultaneously map the composition, structure, and function of terrestrial ecosystems. G-LiHT primarily focuses on a broad diversity of forest communities and ecoregions in North America, mapping aerial swaths over the Conterminous United States (CONUS), Alaska, Puerto Rico, and Mexico.    The purpose of G-LiHT’s Canopy Height Model Keyhole Markup Language (KML) data product (GLCHMK) is to provide LiDAR-derived maximum canopy height and canopy variability information to aid in the study and analysis of biodiversity and climate change. Scientists at NASA’s Goddard Space Flight Center began collecting data over locally-defined areas in 2011 and that the collection will continue to grow as aerial campaigns are flown and processed.      GLCHMK data are processed as a Google Earth overlay KML file at a nominal 1 meter spatial resolution over locally-defined areas. A low resolution browse is also provided showing the canopy height with a color map applied in JPEG format. 	proprietary
 GLCHMT_001	G-LiHT Canopy Height Model V001	LPCLOUD STAC Catalog	2011-06-30		-170, 10, -50, 73	https://cmr.earthdata.nasa.gov/search/concepts/C2763264702-LPCLOUD.umm_json	Goddard’s LiDAR, Hyperspectral, and Thermal Imager (G-LiHT(https://gliht.gsfc.nasa.gov/)) mission utilizes a portable, airborne imaging system that aims to simultaneously map the composition, structure, and function of terrestrial ecosystems. G-LiHT primarily focuses on a broad diversity of forest communities and ecoregions in North America, mapping aerial swaths over the Conterminous United States (CONUS), Alaska, Puerto Rico, and Mexico.    The purpose of G-LiHT’s Canopy Height Model data product (GLCHMT) is to provide LiDAR-derived maximum canopy height and canopy variability information to aid in the study and analysis of biodiversity and climate change. Scientists at NASA’s Goddard Space Flight Center began collecting data over locally-defined areas in 2011 and that the collection will continue to grow as aerial campaigns are flown and processed.    GLCHMT data are processed as a raster data product (GeoTIFF) at a nominal 1 meter spatial resolution over locally-defined areas. A low resolution browse is also provided showing the canopy height with a color map applied in JPEG format.   	proprietary
 GLDAS_CLM10SUBP_3H_001	GLDAS CLM Land Surface Model L4 3 hourly 1.0 x 1.0 degree Subsetted V001 (GLDAS_CLM10SUBP_3H) at GES DISC	GES_DISC STAC Catalog	1979-01-02	2020-03-31	-180, -60, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1279404074-GES_DISC.umm_json	With the upgraded Land Surface Models (LSMs) and updated forcing data sets, the GLDAS version 2.1 (GLDAS-2.1) production stream serves as a replacement for GLDAS-001.  The entire GLDAS-001 collection from January 1979 through March 2020 was decommissioned on June 30, 2020 and removed from the GES DISC system.  However, the replacement for GLDAS-001 monthly and 3-hourly 1.0 x 1.0 degree products from CLM Land Surface Model  currently are not available yet. Once their replacement data products become available, the DOIs of GLDAS-001 CLM data products will direct to the GLDAS-2.1 CLM data products.  This data set contains a series of land surface parameters simulated from the Common Land Model (CLM) V2.0 model in the Global Land Data Assimilation System (GLDAS). The data are in 1.0 degree resolution and range from January 1979 to present. The temporal resolution is 3-hourly.   This simulation was forced by a combination of NOAA/GDAS atmospheric analysis fields, spatially and temporally disaggregated NOAA Climate Prediction Center Merged Analysis of Precipitation (CMAP) fields, and observation based downward shortwave and longwave radiation fields derived using the method of the Air Force Weather Agency's AGRicultural METeorological modeling system (AGRMET). The simulation was initialized on 1 January 1979 using soil moisture and other state fields from a GLDAS/CLM model climatology for that day of the year.   WGRIB or another GRIB reader is required to read the files. The data set applies a user-defined parameter table to indicate the contents and parameter number. The GRIBTAB file shows a list of parameters for this data set, along with their Product Definition Section (PDS) IDs and units.   For more information, please see the README document.	proprietary
@@ -6543,9 +6543,11 @@ GRACE_L1B_GRAV_JPL_RL02_2	GRACE LEVEL 1B JPL RELEASE 2.0	POCLOUD STAC Catalog	20
 GRACE_L1B_GRAV_JPL_RL03_3	GRACE LEVEL 1B JPL RELEASE 3.0	POCLOUD STAC Catalog	2002-04-01	2017-07-01	-180, -88, 180, 88	https://cmr.earthdata.nasa.gov/search/concepts/C2491772142-POCLOUD.umm_json	FOR EXPERT USE ONLY.  The GRACE Level 1B data provide all necessary inputs to derive monthly time variations in the Earth's gravity field.  Level 1B data are also used for GRACE orbit and mean gravity field determination.  It contains K-Band Ranging Data Product (KBR1B), Star Camera Data Product (SCA1B), Accelerometer Data Product (ACC1B), GPS Data Product (GPS1B), Vector Products (VGN1B, VGO1B, VGB1B, VCM1B, VKB1B, VSL1B), Quaternion Products (QSA1B, QSB1B), and Housekeeping Products (AHK1B, IHK1B, THR1B, TNK1B, MAG1B, MAS1B, TIM1B)The GRACE Level-1B RL03 data consists only of updated spacecraft attitude (SCA1B) and K-band inter-satellite ranging (KBR1B) data. All other Level-1B were not changed and it is recommended to use the RL02 products with the updated RL03 KBR1B and SCA1B products. The RL03 SCA1B data were corrected for a stellar aberration error in the onboard star tracker software and incorrect data weighting in the star tracker combination software. For the RL03 SCA1B data a new software module was developed that uses Kalman filtering, field of view error modeling, relative alignment adjustment and the inclusion of angular spacecraft body acceleration measurements from the ACC instrument. This new processing resulted in a significant reduction in high frequency noise and the elimination of jumps during transitions between dual and single star tracker operation.  The KBR1B product is updated as well because the KBR antenna phase center range correction, range rate correction and range acceleration are computed using the spacecraft attitude information (SCA1B). Only these three correction values were updated in the KBR1B product. All other entries in the KBR1B remained the same.	proprietary
 GRAVCD-npra	Gravity Data for the National Petroleum Reserve-Alaska	CEOS_EXTRA STAC Catalog	1974-01-01	1980-01-01	-162, 60, -152, 70	https://cmr.earthdata.nasa.gov/search/concepts/C2231548712-CEOS_EXTRA.umm_json	This data set is part of a 2 CD-ROM set from NOAA's National Geophysical Data Center entitled Land and Marine Gravity Data - 1999 Edition.  The gravity station data (53,520 records) were gathered by various governmental organizations (and academia) using a variety of methods. This data base was received in November 1980. Principal gravity parameters include Free-air Anomalies and Simple Bouguer Anomalies (no terrain correction applied). The observed gravity values are referenced to the International Gravity Standardization Net 1971 (IGSN 71). The gravity anomaly computation uses the Geodetic Reference System 1967 (GRS 67) theoretical gravity formula. The data are randomly distributed within the boundaries of the National Petroleum Reserve-Alaska (NPRA).	proprietary
 GRAVITY_LD_WL_1967_1986_CSV_1	Gravity data collected from the Australian Antarctic Territory and subantarctic between 1967 and 1986	AU_AADC STAC Catalog	1967-01-01	1986-12-31	110, -67, 160, -38	https://cmr.earthdata.nasa.gov/search/concepts/C1214313476-AU_AADC.umm_json	Gravity data collected from the Australian Antarctic Territory and subantarctic between 1967 and 1986.  Data are mostly from the Casey region.  The download file contains a large number of csv files, as well as a number of explanatory documents.	proprietary
+GRC-GFO_GRIDDED_AOD1B_JPL_1-DEG_RL06.3_RL06.3	JPL GRACE/GRACE-FO Gridded-AOD1B Water-Equivalent-Thickness Surface-Mass Anomaly RL06.3 dataset for Tellus Level-3 1.0-degree grid	POCLOUD STAC Catalog	2002-04-04		-180, -89.5, 180, 89.5	https://cmr.earthdata.nasa.gov/search/concepts/C3215150173-POCLOUD.umm_json	GRACE non-tidal high-frequency atmospheric and oceanic mass variation models are routinely generated at GFZ as so-called Atmosphere and Ocean De-aliasing Level-1B (AOD1B) products (in terms of corresponding spherical harmonic geopotential coefficients) to be added to the background static gravity model during GRACE monthly gravity field determination. AOD1B products are 3-hourly series of spherical harmonic coefficients up to degree and order 180 which are routinely provided to the GRACE Science Data System and the user community with only a few days time delay. These products reflect spatio-temporal mass variations in the atmosphere and oceans deduced from an operational atmospheric model and corresponding ocean dynamics provided by an ocean model. The variability is derived by subtraction of a long-term mean of vertical integrated atmospheric mass distributions and a corresponding mean of ocean bottom pressure as simulated with the ocean model. For further details, please refer to https://www.gfz-potsdam.de/en/aod1b/.    The Gridded AOD1B data sets provided here contain the monthly mean AOD1B data in geolocated gridded form, smoothed or spatially aggregated to be consistent with the GRACE and GRACE-FO Tellus Level-3 data products of land and/or ocean mass anomalies. With these gridded AOD1B Level-3 products, users can remove or add the effects of the modeled mean monthly atmospheric and ocean bottom pressure change (e.g., to compare different models).	proprietary
 GRC-GFO_GRIDDED_AOD1B_JPL_1-DEG_RL06_RL06	JPL GRACE/GRACE-FO Gridded-AOD1B Water-Equivalent-Thickness Surface-Mass Anomaly RL06 dataset for Tellus Level-3 1.0-degree grid	POCLOUD STAC Catalog	2002-04-04		-180, -89.5, 180, 89.5	https://cmr.earthdata.nasa.gov/search/concepts/C2036882154-POCLOUD.umm_json	GRACE non-tidal high-frequency atmospheric and oceanic mass variation models are routinely generated at GFZ as so-called Atmosphere and Ocean De-aliasing Level-1B (AOD1B) products (in terms of corresponding spherical harmonic geopotential coefficients) to be added to the background static gravity model during GRACE monthly gravity field determination. AOD1B products are 3-hourly series of spherical harmonic coefficients up to degree and order 180 which are routinely provided to the GRACE Science Data System and the user community with only a few days time delay. These products reflect spatio-temporal mass variations in the atmosphere and oceans deduced from an operational atmospheric model and corresponding ocean dynamics provided by an ocean model. The variability is derived by subtraction of a long-term mean of vertical integrated atmospheric mass distributions and a corresponding mean of ocean bottom pressure as simulated with the ocean model. For further details, please refer to https://www.gfz-potsdam.de/en/aod1b/.    The Gridded AOD1B data sets provided here contain the monthly mean AOD1B data in geolocated gridded form, smoothed or spatially aggregated to be consistent with the GRACE and GRACE-FO Tellus Level-3 data products of land and/or ocean mass anomalies. With these gridded AOD1B Level-3 products, users can remove or add the effects of the modeled mean monthly atmospheric and ocean bottom pressure change (e.g., to compare different models).	proprietary
+GRC-GFO_GRIDDED_AOD1B_JPL_MASCON_RL06.3_RL06.3	JPL GRACE/GRACE-FO Gridded-AOD1B Water-Equivalent-Thickness Surface-Mass Anomaly RL06.3 dataset for Tellus Level-3 mascon 0.5-degree grid	POCLOUD STAC Catalog	2002-04-04		-180, -89.5, 180, 89.5	https://cmr.earthdata.nasa.gov/search/concepts/C3215162709-POCLOUD.umm_json	GRACE non-tidal high-frequency atmospheric and oceanic mass variation models are routinely generated at GFZ as so-called Atmosphere and Ocean De-aliasing Level-1B (AOD1B) products (in terms of corresponding spherical harmonic geopotential coefficients) to be added to the background static gravity model during GRACE monthly gravity field determination. AOD1B products are 3-hourly series of spherical harmonic coefficients up to degree and order 180 which are routinely provided to the GRACE Science Data System and the user community with only a few days time delay. These products reflect spatio-temporal mass variations in the atmosphere and oceans deduced from an operational atmospheric model and corresponding ocean dynamics provided by an ocean model. The variability is derived by subtraction of a long-term mean of vertical integrated atmospheric mass distributions and a corresponding mean of ocean bottom pressure as simulated with the ocean model. For further details, please refer to https://www.gfz-potsdam.de/en/aod1b/.    The Gridded AOD1B data sets provided here contain the monthly mean AOD1B data in geolocated gridded form, smoothed or spatially aggregated to be consistent with the GRACE and GRACE-FO Tellus Level-3 data products of land and/or ocean mass anomalies. With these gridded AOD1B Level-3 products, users can remove or add the effects of the modeled mean monthly atmospheric and ocean bottom pressure change (e.g., to compare different models).	proprietary
 GRC-GFO_GRIDDED_AOD1B_JPL_MASCON_RL06_RL06	JPL GRACE/GRACE-FO Gridded-AOD1B Water-Equivalent-Thickness Surface-Mass Anomaly RL06 dataset for Tellus Level-3 mascon 0.5-degree grid	POCLOUD STAC Catalog	2002-04-04		-180, -89.5, 180, 89.5	https://cmr.earthdata.nasa.gov/search/concepts/C2036882163-POCLOUD.umm_json	GRACE non-tidal high-frequency atmospheric and oceanic mass variation models are routinely generated at GFZ as so-called Atmosphere and Ocean De-aliasing Level-1B (AOD1B) products (in terms of corresponding spherical harmonic geopotential coefficients) to be added to the background static gravity model during GRACE monthly gravity field determination. AOD1B products are 3-hourly series of spherical harmonic coefficients up to degree and order 180 which are routinely provided to the GRACE Science Data System and the user community with only a few days time delay. These products reflect spatio-temporal mass variations in the atmosphere and oceans deduced from an operational atmospheric model and corresponding ocean dynamics provided by an ocean model. The variability is derived by subtraction of a long-term mean of vertical integrated atmospheric mass distributions and a corresponding mean of ocean bottom pressure as simulated with the ocean model. For further details, please refer to https://www.gfz-potsdam.de/en/aod1b/.    The Gridded AOD1B data sets provided here contain the monthly mean AOD1B data in geolocated gridded form, smoothed or spatially aggregated to be consistent with the GRACE and GRACE-FO Tellus Level-3 data products of land and/or ocean mass anomalies. With these gridded AOD1B Level-3 products, users can remove or add the effects of the modeled mean monthly atmospheric and ocean bottom pressure change (e.g., to compare different models).	proprietary
-GREENLAND_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.1_V3_RL06.1Mv03	Tellus Level-4 Greenland Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.1 version 03	POCLOUD STAC Catalog	2002-04-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2537009236-POCLOUD.umm_json	This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL06.1Mv03 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.1_V3. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability is provided as an ASCII table.	proprietary
+GREENLAND_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.3_V4_RL06.3Mv04	Tellus Level-4 Greenland Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.3 version 04	POCLOUD STAC Catalog	2002-04-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3206299308-POCLOUD.umm_json	This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL06.3Mv04 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.3_V3. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability is provided as an ASCII table.	proprietary
 GRID-INPE	GRID-INPE; UNEP Global Resource Information Database - INPE Cooperating Center	CEOS_EXTRA STAC Catalog	1993-04-15		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2232849388-CEOS_EXTRA.umm_json	This is a collection of data-sets held by GRID-INPE. Please contact   the technical contact for further details and data-set breakdown.      GRID-INPE is a cooperating center to UNEP's Global Resource   Information Database. Grid is a system of cooperating centers within   the United Nations Environmental Programme that is dedicated to making   environmental information more readily accessible to environmental   analysis as well as to international and national decision makers. Its   mission is to provide timely and reliable geo-referenced environmental   information. Besides acquiring and disseminating integrated,   spatially-referenced environmental data, GRID provides   decision-support services to environmental analysts and international   and national decision makers, and fosters the use of geographic   information systems (GIS) and satellite image processing (IP) as tools   for environmental analysis.	proprietary
 GSI_ABSOLUT_GRAVITY_ANT	Absolute gravity measurement	SCIOPS STAC Catalog	1992-01-01		39.5, -69, 39.5, -69	https://cmr.earthdata.nasa.gov/search/concepts/C1214590222-SCIOPS.umm_json	The IAGBN aims to distribute gravity points worldwide and construct a network on which gravity observation is based. There are two kinds of points: A is a point set up in regions with stable crustal structure, and B is a point set up in regions where crustal activity is expected. Syowa Station in Antarctica was among the 36 A points. McMurdo Station of the U.S. is the only point in Antarctica other than Syowa Station that is classified as A. Introduced GSI in 1980, the upcast-type absolute gravity meter (GA60) generally called the Sakuma type, was used in this survey. The 36th JARE (1994) conducted observation using FG5 that the GSI introduced in 1992. Because FG5 measures gravity in a free-fall system, it is characterized by the ability to conduct automatic continuous measurement and allow for many measurements.	proprietary
 GSI_JARE_TOPOMAPS	1:50,000 Topographic maps from Japan Antarctic Research Expedition (JARE)	SCIOPS STAC Catalog	1989-04-01		23, -73, 28, -72	https://cmr.earthdata.nasa.gov/search/concepts/C1214610482-SCIOPS.umm_json	The data set consists of 1:50,000 topographic maps which cover most areas of the Sor-Rondane Mountains, with 21 sheets. The contour interval is 20 m. All maps have been digitalized into raster data and are available in TIFF format.	proprietary
@@ -6685,8 +6687,8 @@ HAQ_TROPOMI_NO2_CONUS_M_L3_2.4	HAQAST Sentinel-5P TROPOMI Nitrogen Dioxide (NO2)
 HAQ_TROPOMI_NO2_CONUS_S_L3_2.4	HAQAST Sentinel-5P TROPOMI Nitrogen Dioxide (NO2) CONUS Seasonal Level 3 0.01 x 0.01 Degree Gridded Data V2.4 (HAQ_TROPOMI_NO2_CONUS_S_L3) at GES DISC	GES_DISC STAC Catalog	2018-06-01		-124.75, 24.5, -66.76, 49.49	https://cmr.earthdata.nasa.gov/search/concepts/C2839237223-GES_DISC.umm_json	This product provides level 3 seasonal averages of tropospheric Nitrogen dioxide (NO2) vertical column density derived from the level 2 Tropospheric Monitoring Instrument (TROPOMI) across the Continental United States oversampled to a spatial resolution of 0.01˚ x 0.01˚ (~1 km2) using a consistent algorithm from the European Space Agency (ESA) version 2.4 that can be used for trend analysis of air pollution. The dataset record began in June-August 2018 and continues to the present.   This L3 product was developed by the George Washington University Air, Climate and Health Laboratory as part of the NASA Health Air Quality Applied Science Team (HAQAST) using Level 2 version 2.4 TROPOMI NO2 files from the ESA. The TROPOMI instrument on Sentinel-5 Precursor acquires tropospheric NO2 column contents from low Earth orbit (~824 km above ground level) once per day globally at approximately 13:30 local time.  NO2 is an air pollutant that adversely affects the human respiratory system and leads to premature mortality. NO2 is also an important precursor for ozone and fine particulates, which also have severe health impacts. In urban areas, the majority of NO2 originates from anthropogenic NOx (=NO+NO2; most NOx is emitted as NO, which rapidly cycles to NO2) emissions during high-temperature fossil fuel combustion. Tropospheric NO2 vertical column contents are qualitatively representative of near-surface NO2 concentrations and NOx emissions in urban/polluted locations. 	proprietary
 HAQ_TROPOMI_NO2_GLOBAL_A_L3_2.4	HAQAST Sentinel-5P TROPOMI Nitrogen Dioxide (NO2) GLOBAL Annual Level 3 0.1 x 0.1 Degree Gridded Data Version 2.4  (HAQ_TROPOMI_NO2_GLOBAL_A_L3) at GES DISC	GES_DISC STAC Catalog	2019-01-01		-179.5, -60, 179.5, 75	https://cmr.earthdata.nasa.gov/search/concepts/C3087325001-GES_DISC.umm_json	This product provides level 3 annual averages of tropospheric Nitrogen dioxide (NO2) vertical column density derived from the level 2 Tropospheric Monitoring Instrument (TROPOMI) across the globe oversampled to a spatial resolution of 0.1˚ x 0.1˚ (~10 km2) using a consistent algorithm from the European Space Agency (ESA) version 2.4 that can be used for trend analysis of air pollution. The dataset record began in January 2019 and continues to the present.   This L3 product was developed by the George Washington University Air, Climate and Health Laboratory as part of the NASA Health Air Quality Applied Science Team (HAQAST) using Level 2 version 2.4 TROPOMI NO2 files from the ESA. The TROPOMI instrument on Sentinel-5 Precursor acquires tropospheric NO2 column contents from low Earth orbit (~824 km above ground level) once per day globally at approximately 13:30 local time.  NO2 is an air pollutant that adversely affects the human respiratory system and leads to premature mortality. NO2 is also an important precursor for ozone and fine particulates, which also have severe health impacts. In urban areas, the majority of NO2 originates from anthropogenic NOx (=NO+NO2; most NOx is emitted as NO, which rapidly cycles to NO2) emissions during high-temperature fossil fuel combustion. Tropospheric NO2 vertical column contents are qualitatively representative of near-surface NO2 concentrations and NOx emissions in urban/polluted locations. 	proprietary
 HAQ_TROPOMI_NO2_GLOBAL_M_L3_2.4	HAQAST Sentinel-5P TROPOMI Nitrogen Dioxide (NO2) GLOBAL Monthly Level 3 0.1 x 0.1 Degree Gridded Data Version 2.4 (HAQ_TROPOMI_NO2_GLOBAL_M_L3) at GES DISC	GES_DISC STAC Catalog	2019-01-01		-179.5, -60, 179.5, 75	https://cmr.earthdata.nasa.gov/search/concepts/C3087325222-GES_DISC.umm_json	This product provides level 3 monthly averages of tropospheric Nitrogen dioxide (NO2) vertical column density derived from the level 2 Tropospheric Monitoring Instrument (TROPOMI) across the globe oversampled to a spatial resolution of 0.1˚ x 0.1˚ (~10 km2) using a consistent algorithm from the European Space Agency (ESA) version 2.4 that can be used for trend analysis of air pollution. The dataset record began in January 2019 and continues to the present.   This L3 product was developed by the George Washington University Air, Climate and Health Laboratory as part of the NASA Health Air Quality Applied Science Team (HAQAST) using Level 2 version 2.4 TROPOMI NO2 files from the ESA. The TROPOMI instrument on Sentinel-5 Precursor acquires tropospheric NO2 column contents from low Earth orbit (~824 km above ground level) once per day globally at approximately 13:30 local time.  NO2 is an air pollutant that adversely affects the human respiratory system and leads to premature mortality. NO2 is also an important precursor for ozone and fine particulates, which also have severe health impacts. In urban areas, the majority of NO2 originates from anthropogenic NOx (=NO+NO2; most NOx is emitted as NO, which rapidly cycles to NO2) emissions during high-temperature fossil fuel combustion. Tropospheric NO2 vertical column contents are qualitatively representative of near-surface NO2 concentrations and NOx emissions in urban/polluted locations. 	proprietary
-HAWKEYE_L1_1	SeaHawk HawkEye Level-1 Data, version 1	OB_DAAC STAC Catalog	2018-12-03		-180, 90, -180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2124738110-OB_DAAC.umm_json	The Hawkeye instrument, flown onboard the SeaHawk CubeSat, was optimized to provide  high quality, high resolution imagery (120 meter) of the open ocean, coastal zones,  lakes, estuaries and land features. This ability provides a valuable complement to  the lower resolution measurements from previous missions like SeaWiFS, MODIS and  VIIRS. The SeaHawk CubeSat mission is a partnership between NASA and the University  of North Carolina, Wilmington (UNCW), Cloudland Instruments and AAC-Clyde Space and  is funded by the Moore Foundation under a grant for the Sustained Ocean Color  Observations with Nanosatellites (SOCON).	proprietary
 HAWKEYE_L1_1	SeaHawk-1 HawkEye Level-1A  Data, version 1	OB_CLOUD STAC Catalog	2018-12-03	2023-10-27	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3160685741-OB_CLOUD.umm_json	The Hawkeye instrument, flown onboard the SeaHawk CubeSat, was optimized to provide high quality, high resolution imagery (120 meter) of the open ocean, coastal zones, lakes, estuaries and land features. This ability provides a valuable complement to the lower resolution measurements from previous missions like SeaWiFS, MODIS and VIIRS. The SeaHawk CubeSat mission is a partnership between NASA and the University of North Carolina, Wilmington (UNCW), Cloudland Instruments and AAC-Clyde Space and is funded by the Moore Foundation under a grant for the Sustained Ocean Color Observations with Nanosatellites (SOCON).	proprietary
+HAWKEYE_L1_1	SeaHawk HawkEye Level-1 Data, version 1	OB_DAAC STAC Catalog	2018-12-03		-180, 90, -180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2124738110-OB_DAAC.umm_json	The Hawkeye instrument, flown onboard the SeaHawk CubeSat, was optimized to provide  high quality, high resolution imagery (120 meter) of the open ocean, coastal zones,  lakes, estuaries and land features. This ability provides a valuable complement to  the lower resolution measurements from previous missions like SeaWiFS, MODIS and  VIIRS. The SeaHawk CubeSat mission is a partnership between NASA and the University  of North Carolina, Wilmington (UNCW), Cloudland Instruments and AAC-Clyde Space and  is funded by the Moore Foundation under a grant for the Sustained Ocean Color  Observations with Nanosatellites (SOCON).	proprietary
 HAWKEYE_L2_OC_2018.0	SeaHawk HawkEye Regional Ocean Color (OC) Data, version 2018.0	OB_DAAC STAC Catalog	2021-04-16	2023-10-27	-180, 90, -180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2124738174-OB_DAAC.umm_json	The Hawkeye instrument, flown onboard the SeaHawk CubeSat, was optimized to provide  high quality, high resolution imagery (120 meter) of the open ocean, coastal zones,  lakes, estuaries and land features. This ability provides a valuable complement to  the lower resolution measurements from previous missions like SeaWiFS, MODIS and  VIIRS. The SeaHawk CubeSat mission is a partnership between NASA and the University  of North Carolina, Wilmington (UNCW), Cloudland Instruments and AAC-Clyde Space and  is funded by the Moore Foundation under a grant for the Sustained Ocean Color  Observations with Nanosatellites (SOCON).	proprietary
 HAWKEYE_L2_OC_2022.0	SeaHawk-1 HawkEye Level-2 Regional Ocean Color (OC) Data, version 2022.0	OB_CLOUD STAC Catalog	2019-03-21	2023-10-27	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3160685780-OB_CLOUD.umm_json	The Hawkeye instrument, flown onboard the SeaHawk CubeSat, was optimized to provide  high quality, high resolution imagery (120 meter) of the open ocean, coastal zones,  lakes, estuaries and land features. This ability provides a valuable complement to  the lower resolution measurements from previous missions like SeaWiFS, MODIS and  VIIRS. The SeaHawk CubeSat mission is a partnership between NASA and the University  of North Carolina, Wilmington (UNCW), Cloudland Instruments and AAC-Clyde Space and  is funded by the Moore Foundation under a grant for the Sustained Ocean Color  Observations with Nanosatellites (SOCON).	proprietary
 HCDN_810_1	Monthly Climate Data for Selected USGS HCDN Sites, 1951-1990, R1	ORNL_CLOUD STAC Catalog	1951-01-01	1990-12-31	-125.15, 24.16, -66.74, 49.39	https://cmr.earthdata.nasa.gov/search/concepts/C2756285170-ORNL_CLOUD.umm_json	Time series of monthly minimum and maximum temperature, precipitation, and potential evapotranspiration were derived for 1,469 watersheds in the conterminous United States for which stream flow measurements were also available from the national streamflow database, termed the Hydro-Climatic Data Network (HCDN), developed by Slack et al. (1993a,b). Monthly climate estimates were derived for the years 1951-1990.The climate characteristic estimates of temperature and precipitation were estimated using the PRISM (Daly et al. 1994, 1997) climate analysis system as described in Vogel, et al. 1999.Estimates of monthly potential evaporation were obtained using a method introduced by Hargreaves and Samani (1982) which is based on monthly time series of average minimum and maximum temperature data along with extraterrestrial solar radiation. Extraterrestrial solar radiation was estimated for each basin by computing the solar radiation over 0.1 degree grids using the method introduced by Duffie and Beckman (1980) and then summing those estimates for each river basin. This process is described in Sankarasubramanian, et al. (2001). Revision Notes: This data set has been revised to update the number of watersheds included in the data set and to updated the units for the potential evapotranspiration variable.  Please see the Data Set Revisions section of this document for detailed information. 	proprietary
@@ -9694,10 +9696,8 @@ MERGED_S3_OLCI_L3m_ILW_4	Merged Sentinel-3A and Sentinel-3B OLCI Regional Mapped
 MERGED_TP_J1_OSTM_OST_ALL_V52_5.2	Integrated Multi-Mission Ocean Altimeter Data for Climate Research complete time series Version 5.2	POCLOUD STAC Catalog	1992-09-25		-180, -66, 180, 66	https://cmr.earthdata.nasa.gov/search/concepts/C2901524183-POCLOUD.umm_json	The Integrated Multi-Mission Ocean Altimeter Sea Surface Height (SSH) Version 5.2 dataset provides level 2 along track sea surface height anomalies (SSHA) from the TOPEX/Poseidon, Jason-1, OSTM/Jason-2, Jason-3, and Sentinel-6A missions geo-referenced to a mean reference orbit. It is produced by NASA Sea Surface Height (NASA-SSH) project investigators at Goddard Space Flight Center and Jet Propulsion Laboratory with support from NASA’s Physical Oceanography program, and was developed originally as an Earth System Data Record (ESDR) under the Making Earth System Data Records for Use in Research Environments (MEaSUREs) program, which supported forward processing and incremental refinements through version 5.1 (released in April 2022).<br>  Geophysical Data Records (GDRs) from each altimetry mission were interpolated to a common reference orbit with biases and cross-calibrations applied so that the derived SSHA are consistent between satellites to form a single homogeneous climate data record. The entire multi-mission data record covers the period from September 1992 to present; it is extended to include new observations approximately once each quarter. The previous release (version 5.1) integrated Jason-3 data and applied revised internal tides and pole tide across missions (GDR_F standard). The current release (version 5.2) includes the following revisions: a) GSFC std2006_cs21 orbit for all missions, b) GOT5.1 ocean tide model, c) TOPEX/Poseidon GDR_F data, d) Sentinel-6 LR version F08 data, e) Jason-3 re-calibrated radiometer wet troposphere correction. More information about the data content and derivation can be found in the v5.2 User’s Handbook (https://doi.org/10.5067/ALTUG-TJ152).<br>  Please note that this collection is the same data as https://doi.org/10.5067/ALTCY-TJA52 but with all cycles included in one netCDF file.	proprietary
 MERGED_TP_J1_OSTM_OST_CYCLES_V52_5.2	Integrated Multi-Mission Ocean Altimeter Data for Climate Research Version 5.2	POCLOUD STAC Catalog	1992-09-25		-180, -66, 180, 66	https://cmr.earthdata.nasa.gov/search/concepts/C2901523432-POCLOUD.umm_json	The Integrated Multi-Mission Ocean Altimeter Sea Surface Height (SSH) Version 5.2 dataset provides level 2 along track sea surface height anomalies (SSHA) for 10-day cycles from the TOPEX/Poseidon, Jason-1, OSTM/Jason-2, Jason-3, and Sentinel-6A missions geo-referenced to a mean reference orbit. It is produced by NASA Sea Surface Height (NASA-SSH) project investigators at Goddard Space Flight Center and Jet Propulsion Laboratory with support from NASA’s Physical Oceanography program, and was developed originally as an Earth System Data Record (ESDR) under the Making Earth System Data Records for Use in Research Environments (MEaSUREs) program, which supported forward processing and incremental refinements through version 5.1 (released in April 2022).<br>  Geophysical Data Records (GDRs) from each altimetry mission were interpolated to a common reference orbit with biases and cross-calibrations applied so that the derived SSHA are consistent between satellites to form a single homogeneous climate data record. The entire multi-mission data record covers the period from September 1992 to present; it is extended to include new observations approximately once each quarter. The previous release (version 5.1) integrated Jason-3 data and applied revised internal tides and pole tide across missions (GDR_F standard). The current release (version 5.2) includes the following revisions: a) GSFC std2006_cs21 orbit for all missions, b) GOT5.1 ocean tide model, c) TOPEX/Poseidon GDR_F data, d) Sentinel-6 LR version F08 data, e) Jason-3 re-calibrated radiometer wet troposphere correction. More information about the data content and derivation can be found in the v5.2 User’s Handbook (https://doi.org/10.5067/ALTUG-TJ152).<br>  Please note that this collection contains the same data as https://doi.org/10.5067/ALTTS-TJA52, re-organized into one netCDF file per cycle for convenience.	proprietary
 MERGED_TP_J1_OSTM_OST_GMSL_ASCII_V51_5.1	Global Mean Sea Level Trend from Integrated Multi-Mission Ocean Altimeters TOPEX/Poseidon, Jason-1, OSTM/Jason-2, and Jason-3 Version 5.1	POCLOUD STAC Catalog	1992-09-01		-180, -66, 180, 66	https://cmr.earthdata.nasa.gov/search/concepts/C2205556193-POCLOUD.umm_json	This dataset contains the Global Mean Sea Level (GMSL) trend generated from the Integrated Multi-Mission Ocean Altimeter Data for Climate Research Version 5.1. The GMSL trend is a 1-dimensional time series of globally averaged Sea Surface Height Anomalies (SSHA) from TOPEX/Poseidon, Jason-1, OSTM/Jason-2, and Jason-3 that covers September 1992 to present with a lag of up to 4 months. The data are reported as variations relative to a 20-year TOPEX/Jason collinear mean. Bias adjustments and cross-calibrations were applied to ensure SSHA data are consistent across the missions; Glacial Isostatic Adjustment (GIA) was also applied. The data are available as a table in ASCII format. Changes between the version 4.2 and version 5.x releases are described in detail in the user handbook.	proprietary
-MERIS_L1_FRS_4	ENVISAT MERIS Level-1B Full Resolution, Full Swath (FRS) Data, version 4	OB_CLOUD STAC Catalog	2002-03-21	2012-05-09	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3281778834-OB_CLOUD.umm_json	MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration.	proprietary
 MERIS_L1_FRS_4	ENVISAT MERIS Full Resolution, Full Swath (FRS) Data, version 4	OB_DAAC STAC Catalog	2002-03-21	2012-05-09	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1569867387-OB_DAAC.umm_json	MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration.	proprietary
 MERIS_L1_RR_4	ENVISAT MERIS Reduced Resolution (RR) Data, version 4	OB_DAAC STAC Catalog	2002-03-21	2012-05-09	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1569867388-OB_DAAC.umm_json	MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration.	proprietary
-MERIS_L1_RR_4	ENVISAT MERIS Level-1B Reduced Resolution (RR) Data, version 4	OB_CLOUD STAC Catalog	2002-03-21	2012-05-09	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3281778839-OB_CLOUD.umm_json	MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration.	proprietary
 MERIS_L2_FRS_IOP_2022.0	ENVISAT MERIS Level-2 Regional Full Resolution, Full Swath (FRS) Inherent Optical Properties (IOP) Data, version 2022.0	OB_CLOUD STAC Catalog	2002-03-21	2012-05-09	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3281901057-OB_CLOUD.umm_json	MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration. 	proprietary
 MERIS_L2_FRS_IOP_R2022.0	ENVISAT MERIS Regional Full Resolution, Full Swath (FRS) Inherent Optical Properties (IOP) Data, version R2022.0	OB_DAAC STAC Catalog	2002-03-21	2012-05-09	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2210672029-OB_DAAC.umm_json	MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration.	proprietary
 MERIS_L2_FRS_OC_2022.0	ENVISAT MERIS Level-2 Regional Full Resolution, Full Swath (FRS) Ocean Color (OC) Data, version 2022.0	OB_CLOUD STAC Catalog	2002-03-21	2012-05-09	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3281778845-OB_CLOUD.umm_json	MERIS (Medium Resolution Imaging Spectrometer) is a programmable, medium-spectral resolution, imaging spectrometer operating in the solar reflective spectral range. Fifteen spectral bands can be selected by ground command. The instrument scans the Earth's surface by the so called 'push-broom' method. Linear CCD arrays provide spatial sampling in the across-track direction, while the satellite's motion provides scanning in the along-track direction. MERIS is designed so that it can acquire data over the Earth whenever illumination conditions are suitable. The instrument's 68.5-degree field-of-view around nadir covers a swath width of 1150 km. This wide field of view is shared between five identical optical modules arranged in a fan shape configuration. 	proprietary
@@ -11374,7 +11374,7 @@ OAHU_0	Measurements made in the west-central Pacific near Wake Island	OB_DAAC ST
 OASIS_Moorings_0	Ocean Acquisition System for Interdisciplinary Science (OASIS) moorings	OB_DAAC STAC Catalog	1995-03-16		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1633360534-OB_DAAC.umm_json	Measurements from the OASIS moorings at the mouth of the Monterey Bay in 1995.	proprietary
 OCEANSAT-2_0	Monsoonal Arabian Sea measurements to validate OceanSat-2	OB_DAAC STAC Catalog	2009-02-10		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1633360558-OB_DAAC.umm_json	Measurements made in the monsoonal Arabian Sea in 2009 to validate the Indian Satellite, OceanSat-2.	proprietary
 OCEAN_LIDAR_0	Ocean LiDAR measurements Pacific Ocean	OB_DAAC STAC Catalog	1994-11-19		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1633360543-OB_DAAC.umm_json	Measurements made in the Tropical Western Pacific Ocean between 1994 and 2001.	proprietary
-OCEAN_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.1_V3_RL06.1Mv03	Tellus Level-4 Ocean Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.1 version 03	POCLOUD STAC Catalog	2002-04-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2537004985-POCLOUD.umm_json	This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL06.1Mv03 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.1_V3. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability is provided as an ASCII table.	proprietary
+OCEAN_MASS_TELLUS_MASCON_CRI_TIME_SERIES_RL06.3_V4_RL06.3Mv04	Tellus Level-4 Ocean Mass Anomaly Time Series from JPL GRACE/GRACE-FO Mascon CRI Filtered Release 06.3 version 04	POCLOUD STAC Catalog	2002-04-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3206302778-POCLOUD.umm_json	This dataset is a time series of mass variability averaged over all of the global ocean. It provides the non-steric or mass only sea level changes over time. The mass variability are derived from JPL GRACE Mascon Ocean, Ice, and Hydrology Equivalent Water Height CRI Filtered RL06.1Mv04 dataset, which can be found at https://podaac.jpl.nasa.gov/dataset/TELLUS_GRAC-GRFO_MASCON_CRI_GRID_RL06.3_V4. A more detailed description on the Mascon solution, including the mathematical derivation, implementation of geophysical constraints, and solution validation, please see Watkins et al., 2015, doi: 10.1002/2014JB011547. The mass variability is provided as an ASCII table.	proprietary
 OCFLEXPART_1	FLEXPART organic carbon aerosol L4 global daily 1 x 1 degrees V1 (OCFLEXPART)	GES_DISC STAC Catalog	2008-01-01	2015-12-31	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2364413057-GES_DISC.umm_json	This is a global simulation of organic carbon (OC) aerosol concentrations and daily deposition (wet+dry) from the FLEX-ible PARTicle (FLEXPART) Lagrangian particle dispersion model version 10.4. The FLEXPART model code are open source and freely available.   	proprietary
 OCO2GriddedXCO2_3	OCO-2 Gridded bias-corrected XCO2 and other select fields aggregated as Level 4 daily files V3 (OCO2GriddedXCO2)	GES_DISC STAC Catalog	2014-09-06		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C2219374142-GES_DISC.umm_json	Gridded carbon dioxide mole fraction (XCO2) and other select variables created by applying local kriging (also known as optimal interpolation) to daily aggregates of Orbiting Carbon Observatory (OCO-2) bias corrected data.  This is the latest version of this collection. The DOIs assigned to previous versions, which are no longer available, now direct to this page.	proprietary
 OCO2GriddedXCO2_4	OCO-2 Gridded bias-corrected XCO2 and other select fields aggregated as Level 3 daily files V4 (OCO2GriddedXCO2)	GES_DISC STAC Catalog	2014-09-06		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3278456736-GES_DISC.umm_json	Gridded carbon dioxide mole fraction (XCO2) and other select variables created by applying local kriging (also known as optimal interpolation) to daily aggregates of Orbiting Carbon Observatory (OCO-2) bias corrected data.  This is the latest version of this collection. The DOIs assigned to previous versions, which are no longer available, now direct to this page.	proprietary
@@ -11593,8 +11593,8 @@ OMAEROZ_003	OMI/Aura Aerosol product Multi-wavelength Algorithm Zoomed 1-Orbit L
 OMAERO_003	OMI/Aura Multi-wavelength Aerosol Optical Depth and Single Scattering Albedo 1-orbit L2 Swath 13x24 km V003 (OMAERO) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239966755-GES_DISC.umm_json	The Level-2 Aura Ozone Monitoring Instrument (OMI) Aerosol Product (OMAERO) is now available from NASA Goddard Earth Sciences Data and Information Services Center (GES DISC) for public access. This is the second public release of version 003. The data was re-processed in late 2011 using an improved algorithm (processing version 1.2.3.1). After some quick validation the reprocessed data was released to the public in March 2012. The shortname for this Level-2 Aerosol Product is OMAERO_V003. There are two Level-2 Aura OMI aerosol products OMAERUV and OMAERO. The OMAERUV product uses the near-UV algorithm. The OMAERO product is based on the multi-wavelength algorithm and that uses up to 20 wavelength bands between 331 nm and 500 nm. OMAERO retrieval algorithm is developed by the KNMI OMI Team Scientists. Drs. Deborah Stein-Zweers, Martin Sneep and Pepijn Veefkind are now the key investigators of this product. The OMAERO product contains Aerosol Optical Depths, Single Scattering Albedo, and other ancillary and geolocation information.  The OMAERO files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMAERO data product is about 6 Mbytes.	proprietary
 OMAEROe_003	OMI/Aura Multi-wavelength Aerosol Optical Depth and Single Scattering Albedo L3 1 day Best Pixel in 0.25 degree x 0.25 degree V3 (OMAEROe) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1266136062-GES_DISC.umm_json	The OMI science team produces this Level-3 Aura/OMI Global Aerosol Data Products OMAEROe (0.25deg Lat/Lon grids). The OMAEROe product selects best aerosol value from the Level2G good quality data that are reported in each grid, based on the multi-wavelength algorithm that uses up to 20 wavelength bands between 331 nm and 500 nm.  The selection criteria is based on the shortest optical path length (secant of solar zenith angle + secant of viewing zenith angle).  The OMAEROe files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains daily data from approximately 15 orbits. The maximum file size for the OMAEROe data product is about 7 Mbytes. (The shortname for this Level-3 Global Gridded Aerosol Product is OMAEROe)	proprietary
 OMAERUVG_003	OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo Daily L2 Global Gridded 0.25 degree x 0.25 degree V3 (OMAERUVG) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1266136097-GES_DISC.umm_json	This Level-2G daily global gridded product OMAERUVG is based on the pixel level OMI Level-2 AERUV product OMAERUV. This Level-2G daily global gridded product OMAERUVG is based on the pixel level OMI Level-2 Aerosol product OMAERUV. OMAERUVG data product is a special Level-2 gridded product where pixel level products are binned into 0.25x0.25 degree global grids. It contains the data for all scenes that have observation time between UTC times of 00:00:00 and 23:59:59.9999. All data pixels that fall in a grid box are saved without averaging. Scientists can apply a data filtering scheme of their choice and create new gridded products.  The OMAERUVG files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains daily data from approximately 15 orbits mapped on the Global 0.25x0.25 deg Grids. The maximum file size for the OMAERUVG data product is about 50 Mbytes.	proprietary
-OMAERUV_003	OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo 1-orbit L2 Swath 13x24 km V003 (OMAERUV) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239966768-GES_DISC.umm_json	The Aura Ozone Monitoring Instrument level-2 near UV Aerosol data product 'OMAERUV', recently re-processed using an enhanced algorithm, is now released (April 2012) to the public. The data are available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). The shortname for this Level-2 near-UV Aerosol Product is OMAERUV_V003. The OMAERUV retrieval algorithm is developed by the US OMI Team Scientists. Dr. Omar Torres (GSFC/NASA) is the principal investigator of this product. The OMAERUV product contains Aerosol Absorption and Aerosol Extinction Optical Depths, and Single Scattering Albedo at three different wavelengths (354, 388 and 500 nm), Aerosol Index, and other ancillary and geolocation parameters, in the OMI field of view (13x24 km).  The OMAERUV files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMAERUV data product is about 6 Mbytes.	proprietary
 OMAERUV_003	OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo 1-orbit L2 Swath 13x24 km V003 NRT	OMINRT STAC Catalog	2004-07-15		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1000000120-OMINRT.umm_json	The OMI/Aura level-2 near UV Aerosol data product 'OMAERUV', recently re-processed using an enhanced algorithm, is now released (April 2012) to the public. The data is available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC), http://disc.gsfc.nasa.gov/Aura/OMI/omaeruv_v003.shtml NASA Aura satellite sensors are tracking important atmospheric pollutants from space since its launch in July, 2004. The Ozone Monitoring Instrument(OMI), one of the four Aura satellite sensors with its 2600 km viewing swath width provides daily global measurements of four important US Environmental Protection Agency criteria pollutants (Tropospheric ozone, Nitrogen dioxide,Sulfur dioxide and Aerosols from biomass burning and industrial emissions, HCHO, BrO, OClO and surface UV irradiance. OMI is a contribution of the Netherlands Agency for Aerospace Programs (NIVR)in collaboration with Finish Meterological Institute (FMI), to the US EOS-Aura Mission. The principal investigator (Dr. Pieternel Levelt) institute is the KNMI (Royal Netherlands Meteorological Institute). The Level-2 OMI Aerosol Product OMAERUV from the Aura-OMI is now available from NASAs GSFC Earth Sciences (GES) Data and Information Services Center (DISC) for public access. OMAERUV retrieval algorithm is developed by the US OMI Team Scientists. Dr. Omar Torres (GSFC/NASA) is the principal investigator of this product. The OMAERUV product contains Aerosol Absorption and Aerosol Extinction Optical Depths, and Single Scattering Albedo at three different wavelengths (354, 388 and 500 nm), Aerosol Index, and other ancillary and geolocation parameters, in the OMI field of view (13x24 km). Another standard OMI aerosol product is OMAERO, that is based on the KNMI multi-wavelength spectral fitting algorithm. OMAERUV files are stored in EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMAERUV data product is about 6 Mbytes. A list of tools for browsing and extracting data from these files can be found at: http://disc.gsfc.nasa.gov/Aura/tools.shtml A short OMAERUV Readme Document that includes brief algorithm description and currently known data quality issues is provided by the OMAERUV Algorithm lead (see http://disc.gsfc.nasa.gov/Aura/OMI/omaeruv_v003.shtml) For more information on Ozone Monitoring Instrument and atmospheric data products, please visit the OMI-Aura sites: http://aura.gsfc.nasa.gov/ http://www.knmi.nl/omi/research/documents/ . OMAERUV Data Groups and Parameters: The OMAERUV data file contains a swath which consists of two groups: Data fields: Total Aerosol Optical Depth (extinction optical depth) and Aerosol Absorption Optical Depths (at 354, 388 and 500 nm), Single Scattering Albedo, UV Aerosol Index, Visible Aerosol Index, and other intermediate and ancillary parameters (e.g. Estimates of Aerosol Total Extinction and Absorption Optical Depths and Single Scattering Albedo at five atmospheric levels, Aerosol Type, Aerosol Layer Height, Normalized Radiance, Lambert equivalent Reflectivity, Surface Albedo, Imaginary Component of Refractive Index) and Data Quality Flags. Geolocation Fields: Latitude, Longitude, Time(TAI93), Seconds, Solar Zenith Angles, Viewing Zenith Angles, Relative Azimuth Angle, Terrain Pressure, Ground Pixel Quality Flags. For the full set of Aura products available from the GES DISC, please see the link below. http://disc.sci.gsfc.nasa.gov/Aura/ Atmospheric Composition data from Aura and other satellite sensors can be ordered from the following sites: http://disc.sci.gsfc.nasa.gov/acdisc/ 	proprietary
+OMAERUV_003	OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo 1-orbit L2 Swath 13x24 km V003 (OMAERUV) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239966768-GES_DISC.umm_json	The Aura Ozone Monitoring Instrument level-2 near UV Aerosol data product 'OMAERUV', recently re-processed using an enhanced algorithm, is now released (April 2012) to the public. The data are available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). The shortname for this Level-2 near-UV Aerosol Product is OMAERUV_V003. The OMAERUV retrieval algorithm is developed by the US OMI Team Scientists. Dr. Omar Torres (GSFC/NASA) is the principal investigator of this product. The OMAERUV product contains Aerosol Absorption and Aerosol Extinction Optical Depths, and Single Scattering Albedo at three different wavelengths (354, 388 and 500 nm), Aerosol Index, and other ancillary and geolocation parameters, in the OMI field of view (13x24 km).  The OMAERUV files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMAERUV data product is about 6 Mbytes.	proprietary
 OMAERUV_004	OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo 1-orbit L2 Swath 13x24 km V004 (OMAERUV) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3185856256-GES_DISC.umm_json	The Aura Ozone Monitoring Instrument level-2 near UV Aerosol data product OMAERUV (Version 004) is available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC) for the public access. The OMAERUV retrieval algorithm is developed by the US OMI Team Scientists. Dr. Omar Torres (GSFC/NASA) is the principal investigator of this product. The OMAERUV product contains Aerosol Optical Depth, Aerosol Single Scattering Albedo, Absorption Optical Depth, UV Aerosol Index, and Aerosol Optical Depth over clouds at three wavelengths (354, 388, and 500 nm), and other ancillary and geolocation parameters, in the OMI field of view (13x24 km).  The OMAERUV files are stored in the  version 4.0 Network Common Data Form (NetCDF). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMAERUV data product is about 17 Mbytes.	proprietary
 OMAERUV_CPR_003	OMI/Aura Level 2 Near UV Aerosol Optical Depth and Single Scattering Albedo 200-m swath subset along CloudSat track V003 (OMAERUV_CPR) at GES DISC	GES_DISC STAC Catalog	2006-06-01	2017-05-10	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1236350969-GES_DISC.umm_json	This is a CloudSat-collocated subset of the original OMI product OMAERUV, for the purposes of the A-Train mission. The goal of the subset is to select and return OMI data that are within +/-100 km across the CloudSat track. The resultant OMI subset swath is sought to be about 200 km cross-track of CloudSat. This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. Even though collocated with CloudSat, this subset can serve many other A-Train applications.              (The shortname for this CloudSat-collocated OMI Level 2 near-UV aerosol subset is OMAERUV_CPR_003)	proprietary
 OMAERUVd_003	OMI/Aura Near UV Aerosol Optical Depth and Single Scattering Albedo L3 1 day 1.0 degree x 1.0 degree V3 (OMAERUVd) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1266136096-GES_DISC.umm_json	The OMI science team produces this Level-3 daily global gridded product OMAERUVd (1 deg Lat/Lon grids). The OMAERUVd product is produced with all data pixels that fall in a grid box with quality filtered and then averaged, based on the pixel level OMI Level-2 Aerosol data product OMAERUV. The OMAERUV data product is based on the enhanced TOMS version-8 algorithm that essentially uses the ultraviolet radiance data. The OMAERUVd data product contains extinction and absorption optical depths at three wavelenghts (355 nm, 388 nm and 500 nm).   The OMAERUVd files are stored in version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains daily data from approximately 15 orbits. The maximum file size for the OMAERUVd data product is about 0.2 Mbytes.	proprietary
@@ -11604,8 +11604,8 @@ OMCLDO2Z_003	OMI/Aura Cloud Pressure and Fraction (O2-O2 Absorption) Zoomed 1-Or
 OMCLDO2_003	OMI/Aura Cloud Pressure and Fraction (O2-O2 Absorption) 1-Orbit L2 Swath 13x24km V003 (OMCLDO2) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239966787-GES_DISC.umm_json	The reprocessed OMI/Aura Level-2 cloud data product OMCLDO2 is now available from the NASA GoddardEarth Sciences Data and Information Services Center (GES DISC) for the public access. It is the second release of Version 003 and was reprocessed in late 2011. OMI provides two cloud products based on two different algorithms, the Rotational Raman Scattering method, and O2-O2 absorption method using the DOAS technique. This level-2 global cloud product, with a pixel resolution of 13x24 km2at nadir, is based on the spectral fitting of O2-O2 absorption band at 477 nm using DOAS technique. This product contains cloud pressure, cloud fraction, slant column O2-O2, ozone, ring coefficients, uncertainties in derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The lead scientist for this product is Dr. Pepijn Veefkind.  The OMCLDO2 product files are stored in the version 5 Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes) and is roughly 15.096 MB in size. There are approximately 14 orbits per day thus the total data volume is approximately 200 GB/day.	proprietary
 OMCLDO2_CPR_003	OMI/Aura Cloud Pressure and Fraction (O2-O2 Absorption) 200-km swath subset along CloudSat track V003 (OMCLDO2_CPR) at GES DISC	GES_DISC STAC Catalog	2006-06-01	2018-03-02	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1236350939-GES_DISC.umm_json	This the OMI/Aura Cloud Pressure and Fraction (O2-O2 Absorption) subset along CloudSat track, for the purposes of the A-Train mission. The original product uses the DOAS technique method. This level-2 global cloud product at the pixel resolution (13x24 km2 at nadir) is based on the spectral fitting of O2-O2 absorption band at 477 nm using DOAS technique. The goal of the subset is to select and return OMI data that are within +/-100 km across the CloudSat track. The resultant OMI subset swath is sought to be about 200 km cross-track. This product contains cloud pressure, cloud fraction, slant column O2-O2 and O3, ring coefficients, uncertainties in derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. Even though collocated with CloudSat, this subset can serve many other A-Train applications.        (The shortname for this Level-2 OMI cloud pressure and fraction (O2-O2 absorption) subset along CloudSat track product is OMCLDO2_CPR)	proprietary
 OMCLDRRG_003	OMI/Aura Effective Cloud Pressure and Fraction (Raman Scattering) Daily L2 Global Gridded 0.25 degree x 0.25 degree V3 (OMCLDRRG) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1266136100-GES_DISC.umm_json	This Level-2G daily global gridded product OMCLDRRG is based on the pixel level OMI Level-2 CLDRR product OMCLDRR. This level-2G global cloud product (OMCLDRRG) provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering). This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The algorithm lead for the products OMCLDRR and OMCLDRRG is NASA OMI scientist Dr. Joanna Joinner. OMCLDRRG data product is a special Level-2G Gridded Global Product where pixel level data (OMCLDRR)are binned into 0.25x0.25 degree global grids. It contains the OMCLDRR data for all L2 scenes that have observation time between UTC times of 00:00:00 and 23:59:59.9999. All data pixels that fall in a grid box are saved without Averaging. Scientists can apply a data filtering scheme of their choice and create new gridded products.  The OMCLDRRG data products are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each daily file contains data from the day lit portion of the orbits (~14 orbits). The average file size for the OMCLDRRG data product is about 75 Mbytes.	proprietary
-OMCLDRR_003	OMI/Aura Cloud Pressure and Fraction (Raman Scattering) 1-Orbit L2 Swath 13x24 km V003 NRT	OMINRT STAC Catalog	2004-07-15		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1000000100-OMINRT.umm_json	The reprocessed Aura OMI Version 003 Level 2 Cloud Data Product OMCLDRR is made available (in April 2012) to the public from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). http://disc.gsfc.nasa.gov/Aura/OMI/omcldrr_v003.shtml ) Aura OMI provides two Level-2 Cloud products (OMCLDRR and OMCLDO2) at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms, the Rotational Raman Scattering method and the O2-O2 absorption method. This level-2 global cloud product (OMCLDRR) provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering). This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI Cloud Pressure and Fraction product is OMCLDRR and the algorithm lead for this product is NASA OMI scientist Dr. Joanna Joinner. OMCLDRR files are stored in EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMCLDRR data product is about 9 Mbytes. A list of tools for browsing and extracting data from these files can be found at: http://disc.gsfc.nasa.gov/Aura/tools.shtml . A short OMCLDRR Readme Document that includes brief algorithm description and data quality is also provided by the OMCLDRR Algorithm lead. The Ozone Monitoring Instrument (OMI) was launched aboard the EOS-Aura satellite on July 15, 2004(1:38 pm equator crossing time, ascending mode). OMI with its 2600 km viewing swath width provides almost daily global coverage. OMI is a contribution of the Netherlands Agency for Aerospace Programs (NIVR)in collaboration with Finish Meterological Institute (FMI), to the US EOS-Aura Mission. OMI is designed to monitor stratospheric and tropospheric ozone, clouds, aerosols and smoke from biomass burning, SO2 from volcanic eruptions, and key tropospheric pollutants (HCHO, NO2) and ozone depleting gases (OClO and BrO). OMI sensor counts, calibrated and geolocated radiances, and all derived geophysical atmospheric products are archived at the NASA GES DISC. For more information on Ozone Monitoring Instrument and atmospheric data products, please visit the OMI-Aura sites: http://aura.gsfc.nasa.gov/instruments/omi/ http://www.knmi.nl/omi/research/documents/ . Data Category Parameters: The OMCLDRR data file contains one swath which consists of two groups: Data fields: Two Effective Cloud Fraction and two Cloud Top Pressures that are based on two different clear and cloudy scene reflectivity criteria, Chlorophyll Amount, Effective Reflectivity (394.1 micron), UV Aerosol Index (based on 360 and 388 nm), and many Auxiliary Algorithm Parameter and Quality Flags. Geolocation Fields: Latitude, Longitude, Time, Solar Zenith Angle, Viewing Zenith Angle, Relative Azimuth Angle, Terrain Height, and Ground Pixel Quality Flags. OMI Atmospheric data and documents are available from the following sites: http://disc.gsfc.nasa.gov/Aura/OMI/ http://mirador.gsfc.nasa.gov/	proprietary
 OMCLDRR_003	OMI/Aura Effective Cloud Pressure and Fraction (Raman Scattering) 1-Orbit L2 Swath 13x24 km V003 (OMCLDRR) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239966791-GES_DISC.umm_json	The reprocessed Aura Ozone Monitoring Instrument (OMI) Version 003 Level 2 Cloud Data Product OMCLDRR is available to the public from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). Aura OMI provides two Level-2 Cloud products (OMCLDRR and OMCLDO2) at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms, the Rotational Raman Scattering method and the O2-O2 absorption method. This level-2 global cloud product, OMCLDRR, provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering).  This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI Cloud Pressure and Fraction product is OMCLDRR and the algorithm lead for this product is NASA OMI scientist Dr. Joanna Joinner.  The OMCLDRR files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMCLDRR data product is about 9 Mbytes.	proprietary
+OMCLDRR_003	OMI/Aura Cloud Pressure and Fraction (Raman Scattering) 1-Orbit L2 Swath 13x24 km V003 NRT	OMINRT STAC Catalog	2004-07-15		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1000000100-OMINRT.umm_json	The reprocessed Aura OMI Version 003 Level 2 Cloud Data Product OMCLDRR is made available (in April 2012) to the public from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC). http://disc.gsfc.nasa.gov/Aura/OMI/omcldrr_v003.shtml ) Aura OMI provides two Level-2 Cloud products (OMCLDRR and OMCLDO2) at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms, the Rotational Raman Scattering method and the O2-O2 absorption method. This level-2 global cloud product (OMCLDRR) provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering). This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI Cloud Pressure and Fraction product is OMCLDRR and the algorithm lead for this product is NASA OMI scientist Dr. Joanna Joinner. OMCLDRR files are stored in EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMCLDRR data product is about 9 Mbytes. A list of tools for browsing and extracting data from these files can be found at: http://disc.gsfc.nasa.gov/Aura/tools.shtml . A short OMCLDRR Readme Document that includes brief algorithm description and data quality is also provided by the OMCLDRR Algorithm lead. The Ozone Monitoring Instrument (OMI) was launched aboard the EOS-Aura satellite on July 15, 2004(1:38 pm equator crossing time, ascending mode). OMI with its 2600 km viewing swath width provides almost daily global coverage. OMI is a contribution of the Netherlands Agency for Aerospace Programs (NIVR)in collaboration with Finish Meterological Institute (FMI), to the US EOS-Aura Mission. OMI is designed to monitor stratospheric and tropospheric ozone, clouds, aerosols and smoke from biomass burning, SO2 from volcanic eruptions, and key tropospheric pollutants (HCHO, NO2) and ozone depleting gases (OClO and BrO). OMI sensor counts, calibrated and geolocated radiances, and all derived geophysical atmospheric products are archived at the NASA GES DISC. For more information on Ozone Monitoring Instrument and atmospheric data products, please visit the OMI-Aura sites: http://aura.gsfc.nasa.gov/instruments/omi/ http://www.knmi.nl/omi/research/documents/ . Data Category Parameters: The OMCLDRR data file contains one swath which consists of two groups: Data fields: Two Effective Cloud Fraction and two Cloud Top Pressures that are based on two different clear and cloudy scene reflectivity criteria, Chlorophyll Amount, Effective Reflectivity (394.1 micron), UV Aerosol Index (based on 360 and 388 nm), and many Auxiliary Algorithm Parameter and Quality Flags. Geolocation Fields: Latitude, Longitude, Time, Solar Zenith Angle, Viewing Zenith Angle, Relative Azimuth Angle, Terrain Height, and Ground Pixel Quality Flags. OMI Atmospheric data and documents are available from the following sites: http://disc.gsfc.nasa.gov/Aura/OMI/ http://mirador.gsfc.nasa.gov/	proprietary
 OMCLDRR_004	OMI/Aura Effective Cloud Pressure and Fraction (Raman Scattering) 1-Orbit L2 Swath 13x24 km V004 (OMCLDRR) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3159637081-GES_DISC.umm_json	This is the Aura Ozone Monitoring Instrument (OMI) Version 004 Level 2 Cloud Data Product OMCLDRR. OMI provides two Level-2 Cloud products (OMCLDRR and OMCLDO2) at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms, the Rotational Raman Scattering method and the O2-O2 absorption method. This level-2 global cloud product, OMCLDRR, provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering). This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI Cloud Pressure and Fraction product is OMCLDRR and the algorithm lead for this product is NASA OMI scientist Dr. Joanna Joinner.  The OMCLDRR files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMCLDRR data product is about 9 Mbytes.	proprietary
 OMCLDRR_CPR_003	OMI/Aura Cloud Pressure and Fraction (Raman Scattering) 200-km swath subset along CloudSat track V003 (OMCLDRR_CPR) at GES DISC	GES_DISC STAC Catalog	2006-06-01	2018-03-02	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1236350980-GES_DISC.umm_json	This is the OMI/Aura Cloud Pressure and Fraction (Raman Scattering) subset along CloudSat tracks, for the purposes of the A-Train mission. The original data product uses the Rotational Raman Scattering method. This level-2 global cloud product provides effective cloud pressure and effective cloud fraction that is based on the least square fitting of the Ring spectrum (filling-in of Fraunhofer lines in the range 392 to 398 nm due to rotational Raman scattering). The goal of this subset is to select and return OMI data that are within +/-100 km across the CloudSat track. The resultant OMI subset swath is sought to be about 200 km cross-track. This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. Even though collocated with CloudSat, this subset can serve many other A-Train applications.  (The shortname for this Level-2 OMI cloud pressure and fraction subset along CloudSat tracks product is OMCLDRR_CPR)	proprietary
 OMDOAO3G_003	OMI/Aura Ozone (O3) DOAS Total Column Daily L2 Global Gridded 0.25 degree x 0.25 degree V3 (OMDOAO3G) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1266136103-GES_DISC.umm_json	This Level-2G daily global gridded product OMDOAO3G is based on the pixel level OMI Level-2 DOAO3 product OMDOAO3.  This Level-2G global total column ozone product is derived from OMDOAO3 which is based on the Differential Absorption Spectroscopy (DOAS) fitting technique that essentially uses the OMI visible radiance values between 331.1 and 336.1 nm. In addition to the total ozone column this product also contains some auxiliary derived and ancillary input parameters, e.g. ozone slant column density, ozone ghost column density, etc. The short name for this Level-2 OMI ozone product is OMDOAO3G and the lead algorithm scientist for this product and for OMDOAO3 (the data source of OMDOAO3G) is Dr. Pepijn Veefkind from KNMI.  The OMDOAO3G product files are stored in the version 5 Hierarchical Data Format (HDF-EOS5). Each daily file contains data from the day lit portion of the orbits (approximately 14 orbits) and is roughly 80 MB in size.	proprietary
@@ -11687,8 +11687,8 @@ OMSO2_003	OMI/Aura Sulphur Dioxide (SO2) Total Column 1-orbit L2 Swath 13x24 km
 OMSO2_CPR_003	OMI/Aura Level 2 Sulphur Dioxide (SO2) Trace Gas Column Data 1-Orbit Subset and Collocated Swath along CloudSat V003 (OMSO2_CPR) at GES DISC	GES_DISC STAC Catalog	2006-06-01	2018-03-02	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1236350970-GES_DISC.umm_json	"This is a CloudSat-collocated subset of the original product OMSO2, for the purposes of the A-Train mission.  The goal of the subset is to select and return OMI data that are within +/-100 km across the CloudSat track. The resultant OMI subset swath is sought to be about 200 km cross-track of CloudSat. Even though collocated with CloudSat, this subset can serve many other A-Train applications.  (The shortname for this CloudSat-collocated subset of the original product OMSO2 Product is OMSO2_CPR_V003)              This document describes the original OMI SO2 product (OMSO2) produced from global mode UV measurements of the Ozone Monitoring Instrument (OMI). OMI was launched on July 15, 2004 on the EOS Aura satellite, which is in a sun-synchronous ascending polar orbit with 1:45pm local equator crossing time. The data collection started on August 17, 2004 (orbit 482) and continues to this day with only minor data gaps. The minimum SO2 mass detectable by OMI is about two orders of magnitude smaller than the detection threshold of the legacy Total Ozone Mapping Spectrometer (TOMS) SO2 data (1978-2005) [Krueger et al 1995]. This is due to smaller OMI footprint and the use of wavelengths better optimized for separating O3 from SO2.  The product file, called a data granule, covers the sunlit portion of the orbit with an approximately 2600 km wide swath containing 60 pixels per viewing line. During normal operations, 14 or 15 granules are produced daily, providing fully contiguous coverage of the globe. Currently, OMSO2 products are not produced when OMI goes into the ""zoom mode"" for one day every 452 orbits (~32 days). For each OMI pixel we provide 4 different estimates of the column density of SO2 in Dobson Units (1DU=2.69x10^16 molecules/cm2) obtained by making different assumptions about the vertical distribution of the SO2. However, it is important to note that in most cases the precise vertical distribution of SO2 is unimportant. The users can use either the SO2 plume height, or the center of mass altitude (CMA) derived from SO2 vertical distribution, to interpolate between the 4 values:   1)Planetary Boundary Layer (PBL) SO2 column (ColumnAmountSO2_PBL), corresponding to CMA of 0.9 km. 2)Lower tropospheric SO2 column (ColumnAmountSO2_TRL), corresponding to CMA of 2.5 km. 3)Middle tropospheric SO2 column, (ColumnAmountSO2_TRM), usually produced by volcanic degassing, corresponding to CMA of 7.5 km,   4)Upper tropospheric and Stratospheric SO2 column (ColumnAmountSO2_STL), usually produced by explosive volcanic eruption, corresponding to CMA of 17 km.   The accuracy and precision of the derived SO2 columns vary significantly with the SO2 CMA and column amount, observational geometry, and slant column ozone. OMI becomes more sensitive to SO2 above clouds and snow/ice, and less sensitive to SO2 below clouds. Preliminary error estimates are discussed below (see Data Quality Assessment).   OMSO2 files are stored in EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMSO2 data product is about 9 Mbytes."	proprietary
 OMSO2e_003	OMI/Aura Sulfur Dioxide (SO2) Total Column Daily L3 1 day Best Pixel in 0.25 degree x 0.25 degree V3 (OMSO2e) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1266136112-GES_DISC.umm_json	"The OMI science team produces this Level-3 Aura/OMI Global OMSO2e Data Products (0.25 degree Latitude/Longitude grids). In this Level-3 daily global SO2 data product, each grid contains only one observation of Total Column Density of SO2 in the Planetary Boundary Layer (PBL), based on an improved Principal Component Analysis (PCA) Algorithm. This single observation is the ""best pixel"", selected from all ""good"" L2 pixels of OMSO2 that overlap this grid and have UTC time between UTC times of 00:00:00 and 23:59:59.999. In addition to the SO2 Vertical column value some ancillary parameters, e.g., cloud fraction, terrain height, scene number, solar and satellite viewing angles, row anomaly flags, and quality flags have been also made available corresponding to the best selected SO2 data pixel in each grid.  The OMSO2e files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5) using the grid model."	proprietary
 OMTO3G_003	OMI/Aura Ozone (O3) Total Column Daily L2 Global Gridded 0.25 degree x 0.25 degree V3 (OMTO3G) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1266136114-GES_DISC.umm_json	This Level-2G daily global gridded product OMTO3G is based on the pixel level OMI Level-2 Total Ozone Product OMTO3. The OMTO3 product is from the enhanced TOMS version-8 algorithm that essentially uses the ultraviolet radiance data at 317.5 and 331.2 nm. The OMTO3G data product is a special Level-2 Global Gridded Product where pixel level data are binned into 0.25x0.25 degree global grids. It contains the data for all L2 scenes that have observation time between UTC times of 00:00:00 and 23:59:59.9999. All data pixels that fall in a grid box are saved Without Averaging. Scientists can apply a data filtering scheme of their choice and create new gridded products.  The OMTO3G data product contains almost all parameters that are contained in the OMTO3. For example, in addition to the total column ozone it also contains  UV aerosol index, cloud fraction, cloud pressure, terrain height, geolocation, solar and satellite viewing angles, and quality flags.  The OMTO3G files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains daily data from approximately 15 orbits. The maximum file size for the OMTO3G data product is about 150 Mbytes.	proprietary
-OMTO3_003	OMI/Aura Ozone(O3) Total Column 1-Orbit L2 Swath 13x24 km V003 (OMTO3) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239966818-GES_DISC.umm_json	The Aura Ozone Monitoring Instrument (OMI) Level-2 Total Column Ozone Data Product OMTO3 (Version 003) is available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC) for the public access. OMI provides two Level-2 (OMTO3 and OMDOAO3) total column ozone products at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms. This level-2 global total column ozone product (OMTO3) is based on the enhanced TOMS version-8 algorithm that essentially uses the ultraviolet radiance data at 317.5 and 331.2 nm. OMI hyper-spectral measurements help in the corrections for the factors that induce uncertainty in ozone retrievals (e.g., cloud and aerosol, sea-glint effects, profile shape sensitivity, SO2 and other trace gas contamination). In addition to the total ozone values this product also contains some auxiliary derived and ancillary input parameters including N-values, effective Lambertian scene-reflectivity, UV aerosol index, SO2 index, cloud fraction, cloud pressure, ozone below clouds, terrain height, geolocation, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI total column ozone product is OMTO3. The algorithm lead for this product is NASA OMI scientist  Dr. Pawan K. Bhartia.  The OMTO3 files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMTO3 data product is approximately 35 MB.	proprietary
 OMTO3_003	OMI/Aura Ozone (O3) Total Column 1-Orbit L2 Swath 13x24 km V003 NRT	OMINRT STAC Catalog	2004-07-15		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1000000140-OMINRT.umm_json	The OMI/Aura Level-2 Total Column Ozone Data Product OMTO3 Near Real Time data is made available from the OMI SIPS NASA  for the public access.  The Ozone Monitoring Instrument (OMI)was launched aboard the EOS-Aura satellite on July 15, 2004(1:38 pm equator crossing time, ascending mode). OMI with its 2600 km viewing swath width provides almost daily global coverage. OMI is a contribution of the Netherlands Agency for Aerospace Programs (NIVR)in collaboration with Finish Meterological Institute (FMI), to the US EOS-Aura Mission. The principal investigator's (Dr. Pieternel Levelt) institute is the KNMI (Royal Netherlands Meteorological Institute). OMI is designed to monitor stratospheric and tropospheric ozone, clouds, aerosols and smoke from biomass burning, SO2 from volcanic eruptions, and key tropospheric pollutants (HCHO, NO2) and ozone depleting gases (OClO and BrO). OMI sensor counts, calibrated and geolocated radiances, and all derived geophysical atmospheric products will be archived at the NASA Goddard DAAC. This level-2 global total column ozone product (OMTO3)is based on the enhanced TOMS version-8 algorithm that  essentially uses the ultraviolet radiance data at 317.5 and 331.2 nm. OMI additional hyper-spectral measurements help in the corrections for the factors that induce uncertainty in ozone retrieval (e.g., cloud and aerosol, sea-glint effects, profile shape sensitivity, SO2 and other trace gas contamination). In addition to the total ozone values this product also contains some auxiliary derived and ancillary input parameters including N-values, effective Lambertian scene-reflectivity, UV aerosol index, SO2 index, cloud fraction, cloud pressure, ozone below clouds, terrain height, geolocation, solar and satellite viewing angles, and extensive quality flags. The shortname for this Level-2 OMI total column ozone product is OMTO3 and the algorithm lead for this product is NASA OMI scientist  Dr. Pawan K. Bhartia ( Pawan.K.Bhartia@nasa.gov). OMTO3 files are stored in EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMTO3 data product is about 35 Mbytes. A list of tools for browsing and extracting data from these files can be found at: http://disc.gsfc.nasa.gov/Aura/tools.shtml For more information on Ozone Monitoring Instrument and atmospheric data products, please visit the OMI-Aura sites: http://aura.gsfc.nasa.gov/  http://www.knmi.nl/omi/research/documents/ .        Data Category Parameters: The OMTO3 data file contains one swath which consists of two groups: Data fields: OMI Total Ozone,Effective Reflectivity (331 - 360 nm), N-value, Cloud Fraction, Cloud Top Pressure, O3 below Cloud, UV Aerosol Index, SO2 index, Wavelength used in the algorithm, many Auxiliary Algorithm Parameter and Quality Flags Geolocation Fields: Latitude, Longitude, Time, Relative Azimuth, Solar Zenith and Azimuth, Viewing Zenith and Azimuth angles, Spacecraft Altitude, Latitude, Longitude, Terrain Height, Ground Pixel Quality Flags.For the full set of Aura data products available from the GES DISC, please see the link http://disc.sci.gsfc.nasa.gov/Aura/ .	proprietary
+OMTO3_003	OMI/Aura Ozone(O3) Total Column 1-Orbit L2 Swath 13x24 km V003 (OMTO3) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239966818-GES_DISC.umm_json	The Aura Ozone Monitoring Instrument (OMI) Level-2 Total Column Ozone Data Product OMTO3 (Version 003) is available from the NASA Goddard Earth Sciences Data and Information Services Center (GES DISC) for the public access. OMI provides two Level-2 (OMTO3 and OMDOAO3) total column ozone products at pixel resolution (13 x 24 km at nadir) that are based on two different algorithms. This level-2 global total column ozone product (OMTO3) is based on the enhanced TOMS version-8 algorithm that essentially uses the ultraviolet radiance data at 317.5 and 331.2 nm. OMI hyper-spectral measurements help in the corrections for the factors that induce uncertainty in ozone retrievals (e.g., cloud and aerosol, sea-glint effects, profile shape sensitivity, SO2 and other trace gas contamination). In addition to the total ozone values this product also contains some auxiliary derived and ancillary input parameters including N-values, effective Lambertian scene-reflectivity, UV aerosol index, SO2 index, cloud fraction, cloud pressure, ozone below clouds, terrain height, geolocation, solar and satellite viewing angles, and quality flags. The shortname for this Level-2 OMI total column ozone product is OMTO3. The algorithm lead for this product is NASA OMI scientist  Dr. Pawan K. Bhartia.  The OMTO3 files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains data from the day lit portion of an orbit (~53 minutes). There are approximately 14 orbits per day. The maximum file size for the OMTO3 data product is approximately 35 MB.	proprietary
 OMTO3_CPR_003	OMI/Aura Level 2 Ozone (O3) Total Column 1-Orbit Subset and Collocated Swath along CloudSat track 200-km wide at 13x24 km2 resolution	GES_DISC STAC Catalog	2006-06-01	2018-03-02	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1236350982-GES_DISC.umm_json	This is a CloudSat-collocated subset of the original product OMTO3, for the purposes of the A-Train mission. The goal of the subset is to select and return OMI data that are within +/-100 km across the CloudSat track. The resultant OMI subset swath is sought to be about 200 km cross-track of CloudSat. This product also contains many ancillary and derived parameters, terrain and geolocation information, solar and satellite viewing angles, and quality flags. Even though collocated with CloudSat, this subset can serve many other A-Train applications.             (The shortname for this CloudSat-collocated OMI Level 2 Total Ozone Column subset is OMTO3_CPR_V003)	proprietary
 OMTO3d_003	OMI/Aura TOMS-Like Ozone, Aerosol Index, Cloud Radiance Fraction L3 1 day 1 degree x 1 degree V3 (OMTO3d) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1266136070-GES_DISC.umm_json	The OMI science team produces this Level-3 daily global TOMS-Like Total Column Ozone gridded product OMTO3d (1 deg Lat/Lon grids). The OMTO3d product is produced by gridding and averaging only good quality level-2 total column ozone orbital swath data (OMTO3, based on the enhanced TOMS version-8 algorithm) on the 1x1 degree global grids.  The OMTO3d files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains daily data from approximately 15 orbits. The maximum file size for the OMTO3d data product is about 0.65 Mbytes.	proprietary
 OMTO3e_003	OMI/Aura TOMS-Like Ozone and Radiative Cloud Fraction L3 1 day 0.25 degree x 0.25 degree V3 (OMTO3e) at GES DISC	GES_DISC STAC Catalog	2004-10-01		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1266136071-GES_DISC.umm_json	The OMI science team produces this Level-3 Aura/OMI Global TOMS-Like Total Column Ozone gridded product OMTO3e (0.25deg Lat/Lon grids). The OMTO3e product selects the best pixel (shortest path length) data from the good quality filtered level-2 total column ozone data (OMTO3) that fall in the 0.25 x 0.25 degree global grids. Each file contains total column ozone, radiative cloud fraction and solar and viewing zenith angles.  The OMTO3e files are stored in the version 5 EOS Hierarchical Data Format (HDF-EOS5). Each file contains daily data from approximately 15 orbits. The maximum file size for the OMTO3e data product is about 2.8 Mbytes.	proprietary
@@ -11806,8 +11806,9 @@ PACE_OCI_L2_AOP_2.0	PACE OCI Level-2 Regional Apparent Optical Properties Data,
 PACE_OCI_L2_AOP_NRT_2.0	PACE OCI Level-2 Regional Apparent Optical Properties - Near Real-time (NRT) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020920190-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L2_BGC_2.0	PACE OCI Level-2 Regional Biogeochemical Properties Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020920337-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.	proprietary
 PACE_OCI_L2_BGC_NRT_2.0	PACE OCI Level-2 Regional Biogeochemical Properties, Near Real-time (NRT) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020920290-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
-PACE_OCI_L2_CLDMSK_NRT_2.0	PACE OCI Level-2 Regional Cloud Mask - Near Real Time (NRT) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020920380-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L2_CLD_2.0	PACE OCI Level-2 Regional Cloud Optical Properties Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020920454-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI). It is a highly advanced optical spectrometer that will be used to measure properties of light over portions of the electromagnetic spectrum. It will enable continuous measurement of light at finer wavelength resolution than previous NASA satellite sensors, extending key system ocean color data records for climate studies.	proprietary
+PACE_OCI_L2_CLD_MASK_2.0	PACE OCI Level-2 Regional Cloud Mask Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3284453675-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.	proprietary
+PACE_OCI_L2_CLD_MASK_NRT_2.0	PACE OCI Level-2 Regional Cloud Mask - Near Real-time (NRT) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3284453641-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L2_CLD_NRT_2.0	PACE OCI Level-2 Regional Cloud Optical Properties - NRT Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020920417-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L2_IOP_2.0	PACE OCI Level-2 Regional Inherent Optical Properties (IOP) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020920547-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.	proprietary
 PACE_OCI_L2_IOP_NRT_2.0	PACE OCI Level-2 Regional Inherent Optical Properties (IOP) - Near Real-time (NRT) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020920493-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
@@ -11837,6 +11838,8 @@ PACE_OCI_L3B_CARBON_2.0	PACE OCI Level-3 Global Binned Carbon Data, version 2.0
 PACE_OCI_L3B_CARBON_NRT_2.0	PACE OCI Level-3 Global Binned Carbon, Near Real-time (NRT) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020922208-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L3B_CHL_2.0	PACE OCI Level-3 Global Binned Chlorophyll (CHL) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020922315-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.	proprietary
 PACE_OCI_L3B_CHL_NRT_2.0	PACE OCI Level-3 Global Binned Chlorophyll (CHL) - NRT Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020922264-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
+PACE_OCI_L3B_CLD_MASK_2.0	PACE OCI Level-3 Global Binned Cloud Mask Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3284453731-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI). It is a highly advanced optical spectrometer that will be used to measure properties of light over portions of the electromagnetic spectrum. It will enable continuous measurement of light at finer wavelength resolution than previous NASA satellite sensors, extending key system ocean color data records for climate studies.	proprietary
+PACE_OCI_L3B_CLD_MASK_NRT_2.0	PACE OCI Level-3 Global Binned Cloud Mask - Near Real-time (NRT) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3284453705-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L3B_CLD_TOP_2.0	PACE OCI Level-3 Global Binned Cloud Optical Properties, Cloud Top Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020922412-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.	proprietary
 PACE_OCI_L3B_CLD_TOP_NRT_2.0	PACE OCI Level-3 Global Binned Cloud Optical Properties, Cloud Top - NRT Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020922362-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L3B_FLH_2.0	PACE OCI Level-3 Global Binned Fluorescence Line Height (FLH) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020922494-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.	proprietary
@@ -11877,6 +11880,8 @@ PACE_OCI_L3M_CARBON_2.0	PACE OCI Level-3 Global Mapped Carbon Data, version 2.0
 PACE_OCI_L3M_CARBON_NRT_2.0	PACE OCI Level-3 Global Mapped Carbon, Near Real-time (NRT) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020923838-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L3M_CHL_2.0	PACE OCI Level-3 Global Mapped Chlorophyll (CHL) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020923954-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.	proprietary
 PACE_OCI_L3M_CHL_NRT_2.0	PACE OCI Level-3 Global Mapped Chlorophyll (CHL) - NRT Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020923919-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
+PACE_OCI_L3M_CLD_MASK_2.0	PACE OCI Level-3 Global Mapped Cloud Mask Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3284453780-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.	proprietary
+PACE_OCI_L3M_CLD_MASK_NRT_2.0	PACE OCI Level-3 Global Mapped Cloud Mask - Near Real-time (NRT) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3284453766-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L3M_CLD_TOP_2.0	PACE OCI Level-3 Global Mapped Cloud Optical Properties, Cloud Top Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020924017-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI). It is a highly advanced optical spectrometer that will be used to measure properties of light over portions of the electromagnetic spectrum. It will enable continuous measurement of light at finer wavelength resolution than previous NASA satellite sensors, extending key system ocean color data records for climate studies.	proprietary
 PACE_OCI_L3M_CLD_TOP_NRT_2.0	PACE OCI Level-3 Global Mapped Cloud Optical Properties, Cloud Top - NRT Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020923989-OB_CLOUD.umm_json	The Ocean Biology DAAC produces near real-time (quicklook) products using the best-available combination of ancillary data from meteorological and ozone data. As such, the inputs and the calibration used are less than optimal. Quicklook products provide a snapshot of the data during a short time period within a single orbit.	proprietary
 PACE_OCI_L3M_FLH_2.0	PACE OCI Level-3 Global Mapped Fluorescence Line Height (FLH) Data, version 2.0	OB_CLOUD STAC Catalog	2024-02-25		-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C3020924092-OB_CLOUD.umm_json	The primary sensor aboard the PACE spacecraft is the Ocean Color Instrument (OCI).  It is a highly advanced optical spectrometer that will be used to measure properties  of light over portions of the electromagnetic spectrum. It will enable continuous  measurement of light at finer wavelength resolution than previous NASA satellite  sensors, extending key system ocean color data records for climate studies.	proprietary
@@ -13077,12 +13082,12 @@ SV16M_V_1	SMAPVEX16 Manitoba In Situ Vegetation Data V001	NSIDC_ECS STAC Catalog
 SV19MA_DEM_1	SMAPVEX19-22 Massachusetts Lidar Derived Digital Elevation Model V001	NSIDC_ECS STAC Catalog	2022-04-02	2022-08-09	-72.33, 42.32, -71.91, 42.72	https://cmr.earthdata.nasa.gov/search/concepts/C2697180518-NSIDC_ECS.umm_json	"These digital elevation model (DEM) data consist of ground surface elevations derived from source lidar measurements collected in April and August 2022 in the vicinity of Petersham, MA during the SMAPVEX19-22 campaign. This location was chosen due to its forested land cover, as SMAPVEX19-22 aims to validate satellite derived soil moisture estimates in forested areas. The two acquisition periods occurred to characterize differences during ""leaf-off” and ""leaf-on"" conditions."	proprietary
 SV19MA_DSM_1	SMAPVEX19-22 Massachusetts Lidar Derived Digital Surface Model V001	NSIDC_ECS STAC Catalog	2022-08-03	2022-08-05	-72.33, 42.32, -71.91, 42.72	https://cmr.earthdata.nasa.gov/search/concepts/C2709181228-NSIDC_ECS.umm_json	These digital surface model (DSM) data consist of surface elevations derived from source lidar measurements collected in August 2022 in the vicinity of Petersham, MA during the SMAPVEX19-22 campaign. The location was selected due to its forested land cover, as SMAPVEX19-22 aims to validate satellite derived soil moisture estimates in forested areas. The August collection period was selected to characterize ‘leaf-on’ conditions. DSM data represents the highest elevation of features on the Earth’s surface, which may include bare-earth, vegetation, and human-made objects.	proprietary
 SV19MA_LID_1	SMAPVEX19-22 Massachusetts Airborne Lidar V001	NSIDC_ECS STAC Catalog	2022-04-02	2022-08-09	-72.33, 42.32, -71.91, 42.72	https://cmr.earthdata.nasa.gov/search/concepts/C2746987854-NSIDC_ECS.umm_json	"These lidar measurements were collected in April and August 2022 in the vicinity of Petersham, MA during the SMAPVEX19-22 campaign. This location was chosen due to its forested land cover, as SMAPVEX19-22 aims to validate satellite derived soil moisture estimates in forested areas. The two acquisition periods were selected to characterize differences during ""leaf-off” and ""leaf-on"" conditions."	proprietary
-SV19MA_TNET_001	SMAPVEX19-22 Massachusetts Temporary Soil Moisture Network V001	NSIDC_ECS STAC Catalog	2019-05-01	2021-10-31	-72.29, 42.34, -71.95, 42.69	https://cmr.earthdata.nasa.gov/search/concepts/C2654469973-NSIDC_ECS.umm_json	These data consist of ground-based, soil moisture, soil temperature, and air temperature measurements recorded by twenty-five temporary stations located in the vicinity of Petersham, MA during the SMAPVEX19-22 campaign. The stations were installed across an area of approximately 23 km by 36 km in May 2019 and operated through 2022. Note that the product is named SMAPVEX19-22 because, although the current coverage is through 2021, it is projected to include 2022 data in the future.	proprietary
+SV19MA_TNET_1	SMAPVEX19-22 Massachusetts Temporary Soil Moisture Network V001	NSIDC_ECS STAC Catalog	2019-05-01	2021-10-31	-72.29, 42.34, -71.95, 42.69	https://cmr.earthdata.nasa.gov/search/concepts/C2654469973-NSIDC_ECS.umm_json	These data consist of ground-based, soil moisture, soil temperature, and air temperature measurements recorded by twenty-five temporary stations located in the vicinity of Petersham, MA during the SMAPVEX19-22 campaign. The stations were installed across an area of approximately 23 km by 36 km in May 2019 and operated through 2022. Note that the product is named SMAPVEX19-22 because, although the current coverage is through 2021, it is projected to include 2022 data in the future.	proprietary
 SV19MA_VOD_1	SMAPVEX19-22 Massachusetts Vegetation Optical Depth V001	NSIDC_ECS STAC Catalog	2019-04-28	2019-10-17	-72.17, 42.54, -72.17, 42.54	https://cmr.earthdata.nasa.gov/search/concepts/C3028784585-NSIDC_ECS.umm_json	As part of the SMAPVEX19-22 campaign, an L-band radiometer was deployed on top of a tower at Harvard Forest,Massachusetts, looking down at a stand of red oak forest. The radiometer collected data in V-polarization from late April to mid October 2019. Over 4 days in early July 2019, the water potential and L-band complex dielectric constant of canopy leaves were measured at various times of day. Other instruments were installed within the radiometer's field of view to measure soil moisture and temperature, air temperature, tree xylem apparent dielectric permittivity at 70 MHz, tree xylem water potential, and canopy wetness. The goal of this experiment was to study the sensitivity of L-band vegetation optical depth (VOD) to changing vegetation water potential over a growing season.	proprietary
 SV19MB_DEM_1	SMAPVEX19-22 Millbrook Lidar Derived Digital Elevation Model V001	NSIDC_ECS STAC Catalog	2022-04-02	2022-08-09	-73.81, 41.66, -73.42, 42.05	https://cmr.earthdata.nasa.gov/search/concepts/C2697180532-NSIDC_ECS.umm_json	"These digital elevation model (DEM) data consist of ground surface elevations derived from source lidar measurements collected in April and August 2022 in the vicinity of Millbrook, NY during the SMAPVEX19-22 campaign. This location was chosen due to its forested land cover, as SMAPVEX19-22 aims to validate satellite derived soil moisture estimates in forested areas. The two acquisition periods occurred to characterize differences during ""leaf-off"" and ""leaf-on"" conditions."	proprietary
 SV19MB_DSM_1	SMAPVEX19-22 Millbrook Lidar Derived Digital Surface Model V001	NSIDC_ECS STAC Catalog	2022-08-02	2022-08-09	-73.81, 41.66, -73.42, 42.05	https://cmr.earthdata.nasa.gov/search/concepts/C2709181275-NSIDC_ECS.umm_json	These digital surface model (DSM) data consist of surface elevations derived from source lidar measurements collected in August 2022 in the vicinity of Millbrook, NY during the SMAPVEX19-22 campaign. The location was selected due to its forested land cover, as SMAPVEX19-22 aims to validate satellite derived soil moisture estimates in forested areas. The August collection period was selected to characterize ‘leaf-on’ conditions. DSM data represents the highest elevation of features on the Earth’s surface, which may include bare-earth, vegetation, and human-made objects.	proprietary
 SV19MB_LID_1	SMAPVEX19-22 Millbrook Airborne Lidar V001	NSIDC_ECS STAC Catalog	2022-04-02	2022-08-09	-73.81, 41.66, -73.42, 42.05	https://cmr.earthdata.nasa.gov/search/concepts/C2747348757-NSIDC_ECS.umm_json	"These lidar measurements were collected in April and August 2022 in the vicinity of Millbrook, NY during the SMAPVEX19-22 campaign. This location was chosen due to its forested land cover, as SMAPVEX19-22 aims to validate satellite derived soil moisture estimates in forested areas. The two acquisition periods were selected to characterize differences during ""leaf-off"" and ""leaf-on"" conditions."	proprietary
-SV19MB_TNET_001	SMAPVEX19-22 Millbrook Temporary Soil Moisture Network V001	NSIDC_ECS STAC Catalog	2019-05-01	2021-10-31	-73.79, 41.68, -73.44, 42.03	https://cmr.earthdata.nasa.gov/search/concepts/C2654470154-NSIDC_ECS.umm_json	These data consist of soil moisture sensor, soil temperature and air temperature measurements recorded by 25 temporary stations in the Millbrook (MB) experiment location during SMAPVEX19-22. The stations were spread out over the experiment domain of about 30 by 40 km located around Millbrook, NY. The stations were installed in May 2019 and are to continue operation until 2022. Note that the product is named SMAPVEX19-22 because, although the current coverage is through 2021, it is projected to include 2022 data in the future.	proprietary
+SV19MB_TNET_1	SMAPVEX19-22 Millbrook Temporary Soil Moisture Network V001	NSIDC_ECS STAC Catalog	2019-05-01	2021-10-31	-73.79, 41.68, -73.44, 42.03	https://cmr.earthdata.nasa.gov/search/concepts/C2654470154-NSIDC_ECS.umm_json	These data consist of soil moisture sensor, soil temperature and air temperature measurements recorded by 25 temporary stations in the Millbrook (MB) experiment location during SMAPVEX19-22. The stations were spread out over the experiment domain of about 30 by 40 km located around Millbrook, NY. The stations were installed in May 2019 and are to continue operation until 2022. Note that the product is named SMAPVEX19-22 because, although the current coverage is through 2021, it is projected to include 2022 data in the future.	proprietary
 SWDB_L2_004	SeaWiFS Deep Blue Aerosol Optical Depth and Angstrom Exponent Level 2 Data V004 (SWDB_L2) at GES DISC V004	GES_DISC STAC Catalog	1997-09-04	2010-12-11	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239900189-GES_DISC.umm_json	The SeaWiFS Deep Blue (SWDB) Level 2 Product contains data corresponding to a single SeaWiFS swath using Deep Blue algorithm. There are about 15 Level 2 data files produced per day.  Each contains retrieved aerosol properties averaged to a resolution of 3x3 SeaWiFS pixels (13.5x13.5 km at the center of the swath given 4.5km SeaWiFS pixels).    The primary data parameters are aerosol optical thickness, and Angstrom exponent.	proprietary
 SWDB_L305_004	SeaWiFS Deep Blue Aerosol Optical Depth and Angstrom Exponent Daily Level 3 Data Gridded at 0.5 Degrees V004 (SWDB_L305) at GES DISC	GES_DISC STAC Catalog	1997-09-04	2010-12-11	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239900190-GES_DISC.umm_json	The SeaWiFS Deep Blue (SWDB) Level 3 daily global gridded (0.5 x 0.5 deg) data is derived from SeaWiFS Deep Blue Level 2 data. In most cases, each data field represents the arithmetic mean of all cells whose latitude and longitude places it within the bounds of each grid element. Furthermore, only cells measured on the day of interest are included in this calculation. The local date based on the longitude of the cell is calculated from the time of measurement. If the local date equals the day of interest, the cell is included in the L3 data processing.   The primary data parameters are aerosol optical thickness, and Angstrom exponent.	proprietary
 SWDB_L310_004	SeaWiFS Deep Blue Aerosol Optical Depth and Angstrom Exponent Daily Level 3 Data Gridded at 1.0 Degrees V004 (SWDB_L310) at GES DISC	GES_DISC STAC Catalog	1997-09-04	2010-12-11	-180, -90, 180, 90	https://cmr.earthdata.nasa.gov/search/concepts/C1239900200-GES_DISC.umm_json	The SeaWiFS Deep Blue Level 3 daily global gridded (1.0 x 1.0 deg) data is derived from SeaWiFS Deep Blue Level 2 data. In most cases, each data field represents the arithmetic mean of all cells whose latitude and longitude places it within the bounds of each grid element. Furthermore, only cells measured on the day of interest are included in this calculation. The local date based on the longitude of the cell is calculated from the time of measurement. If the local date equals the day of interest, the cell is included in the L3 data processing.   The primary data parameters are aerosol optical thickness, and Angstrom exponent.	proprietary