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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 43N, 60°N - 62°N (RU)
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,...
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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 43N, 58°N - 60°N (RU)
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,...
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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 42N, 72°N - 74°N (RU)
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,...
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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 42N, 70°N - 72°N (RU)
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,...
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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 42N, 68°N - 70°N (RU)
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,...
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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 42N, 66°N - 68°N (RU)
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,...
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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 42N, 64°N - 66°N (RU)
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,...
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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 42N, 62°N - 64°N (RU)
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,...
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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 42N, 60°N - 62°N (RU)
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,...
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Trends of Land Surface Change from Landsat time-series 1999-2014, Western Siberia, UTM Zone 42N, 58°N - 60°N (RU)
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,...
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Frozen State Backscatter Intensity from Sentinel-1, 2015-2016, West Siberia (RU)
Frozen state backscatter intensity was derived from Sentinel-1 acquisitions from December 2015 and 2016. By excluding the effects of liquid water content (acquisitions under...
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Frozen State Backscatter Intensity from Sentinel-1, 2015-2016, Usa Basin, European Russia (RU)
Frozen state backscatter intensity was derived from Sentinel-1 acquisitions from December 2015 and 2016. By excluding the effects of liquid water content (acquisitions under...
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Frozen State Backscatter Intensity from Sentinel-1, 2015-2016, Teshekpuk, Alaska (US)
Frozen state backscatter intensity was derived from Sentinel-1 acquisitions from December 2015 and 2016. By excluding the effects of liquid water content (acquisitions under...
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Frozen State Backscatter Intensity from Sentinel-1, 2015-2016, Toolik, Alaska (US)
Frozen state backscatter intensity was derived from Sentinel-1 acquisitions from December 2015 and 2016. By excluding the effects of liquid water content (acquisitions under...
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Frozen State Backscatter Intensity from Sentinel-1, 2015-2016, Barrow, Alaska (US)
Frozen state backscatter intensity was derived from Sentinel-1 acquisitions from December 2015 and 2016. By excluding the effects of liquid water content (acquisitions under...
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Frozen State Backscatter Intensity from Sentinel-1, 2014-2016, Lena Delta, Laptev and East Siberian Sea Region (RU)
Frozen state backscatter intensity was derived from Sentinel-1 acquisitions from December 2015 and 2016. By excluding the effects of liquid water content (acquisitions under...
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