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Climate Change-Induced Landscape Alterations Increase Nutrient Sequestration and Cause Severe Oligotrophication of Subarctic Lakes. [PDF]
Glob Chang BiolGoedkoop W +4 more
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Post-fire stabilization of thaw-affected permafrost terrain in northern Alaska. [PDF]
Sci RepJones BM +8 more
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Structure and community assembly of rare bacterial community in sediments of Sancha Lake. [PDF]
Sci RepLi Y, Li Y, Wu Y, Liu Z, Luo S, Gong S.
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Permafrost thaw subsidence, sea-level rise, and erosion are transforming Alaska's Arctic coastal zone. [PDF]
Proc Natl Acad Sci U S ACreel R +6 more
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Thermokarst lake dynamics across the Arctic based on Landsat time-series [PDF]
, 2017 Arp, Christopher D. +4 more
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Temperature sensitivity of the mineral permafrost feedback at the continental scale. [PDF]
Sci AdvWalsh EV, Hilton RG, Tank SE, Amos E.
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Freshwater ponds create highly dynamic Arctic tundra landscapes
Assmann J +6 more
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Observing a Catastrophic Thermokarst Lake Drainage in Northern Alaska
Permafrost and Periglacial Processes, 2015AbstractThe formation and drainage of thermokarst lakes have reshaped iceārich permafrost lowlands in the Arctic throughout the Holocene. North of Teshekpuk Lake, on the Arctic Coastal Plain of northern Alaska, thermokarst lakes presently occupy 22.5% of the landscape, and drained thermokarst lake basins occupy 61.8%.
Benjamin M. Jones, Christopher D. Arp
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