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Climate Sensitivity of High Arctic Permafrost Terrain Demonstrated by Widespread Ice-Wedge Thermokarst on Banks Island [Draft]

This paper shows that climate-driven thaw of hilltop ice-wedge networks is rapidly transforming uplands across Banks Island in the Canadian Arctic Archipelago.

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Climate Sensitivity of High Arctic Permafrost...PDF
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Additional Info

Field	Value
Creator	Robert H. Fraser, Steven V. Kokelj, Trevor C. Lantz, Morgan McFarlane-Winchester, Ian Olthof and Denis Lacelle
Summary	Ice wedges form due to thermal contraction, cracking of the ground and infilling typically by snowmelt that refreezes to form a vein of ice. Over millennia, repeated cracking can cause large ice wedges to develop. The broad distribution and thaw sensitivity of ice-wedge networks suggests that evolution of polygonal terrain will have a major influence on landscape form and ecological and biogeochemical processes across a warming circumpolar Arctic.
Local Relevance	Exploring permafrost effects
Notes
Tags	Remote Sensing,Permafrost,Research
Geographic Region	Beaufort Delta
Release Date	2018-06-12
Last Modified Date	2018-06-12
Funding Program