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Field Data on Soils, Vegetation, and Fire History for Alaska Tundra Sites, 1972-2020
This dataset, titled the Synthesized Alaskan Tundra Field Database (SATFiD), provides a comprehensive collection of in-situ field data compiled from 37 existing datasets... -
Remote sensing-based permafrost region disturbances: retrogressive thaw slumps, 1999-2014, Alaska (US)
The data quantify the abundance and distribution of the permafrost region disturbance (PRD) of retrogressive thaw slumps, using trend analyses of 30-m-resolution Landsat imagery... -
Remote sensing-based permafrost region disturbances: lakes, 1999-2014, Alaska (US)
The data quantify the abundance and distribution of the permafrost region disturbance (PRD) of lakes and their dynamics, using trend analyses of 30-m-resolution Landsat imagery... -
Remote sensing-based permafrost region disturbances: fire, 1999-2015, Alaska (US)
The data quantify the abundance and distribution of the permafrost region disturbance (PRD) wildfire, using trend analyses of 30-m-resolution Landsat imagery from 1999-2015 and... -
Lake Ice Classification from Sentinel-1, 2015-2016, Teshekpuk, Alaska (US)
Weekly lake ice classifications distinguish grounded ice and floating ice in lakes based on Sentinel-1A and Sentinel-1B synthetic aperture radar time-series with a resolution of... -
Lake Ice Classification from Sentinel-1, 2016-2017, Central Seward Peninsula, Alaska (US)
Lake ice classifications distinguish grounded ice and floating ice in lakes based on Sentinel-1A and Sentinel-1B synthetic aperture radar time-series with a resolution between... -
Lake Ice Classification from Sentinel-1, 2016-2017, Cape Espenberg Lowland, Alaska (US)
Lake ice classifications distinguish grounded ice and floating ice in lakes based on Sentinel-1A and Sentinel-1B synthetic aperture radar time-series with a resolution between... -
Vegetation Height from Sentinel-1 and Sentinel-2, 2016-2018, Teshekpuk, Arctic Alaska (US)
Vegetation height has been derived from Sentinel-1 satellite data acquired in VV mode with a resolution of 20 m. Vegetation height was estimated using an empirical model on... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 6N, 70°N - 72°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 6N, 68°N - 70°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 6N, 66°N - 68°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 6N, 64°N - 66°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 5N, 70°N - 72°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 5N, 68°N - 70°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 5N, 66°N - 68°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 5N, 64°N - 66°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 5N, 62°N - 64°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 5N, 60°N - 62°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 4N, 70°N - 72°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,... -
Trends of Land Surface Change from Landsat time-series 1999-2014, Alaska, UTM Zone 4N, 68°N - 70°N (US)
The Hot Spot Regions of Permafrost Change (HRPC) product maps changes in surface characteristics using the full Landsat archive (TM, ETM+, OLI) for the peak summer season (July,...