Thawing Arctic hillsides are major climate change contributors

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Thawing Arctic hillsides release a significant amount of organic carbon that has been locked in frozen ground for thousands of years but which now can contribute to an already warming climate, according to new research.

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The finding comes from the study of hillsides in a far north region of Russia, where the researchers also found a significant and rapid increase of collapsed hillsides. The collapses feature landslides that gradually expose more of the permafrost for thawing โ€” and more carbon for release.

Global climate models donโ€™t account for the once-frozen carbon set free by these collapsing hillsides. The researchers say that needs to change.

The findings were published July 15 in The Cryosphere, a journal of the European Geosciences Union. They are the first based on the use of satellite imagery to estimate carbon release from slumping Arctic hillsides.

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โ€œPermafrost landscapes are expected to change profoundly over the next decades,โ€ said Simon Zwieback, a University of Alaska Fairbanks Geophysical Institute assistant professor and one of the research paperโ€™s authors. โ€œAmong the many consequences of this is the release of greenhouse gasses such as carbon dioxide, which can exacerbate climate change.โ€

Similar thaw slumps are also widespread in Russiaโ€™s Yamal Peninsula in Siberia, in northwestern Canada and in Canadaโ€™s Arctic archipelago.

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Doctoral student Philipp Bernhard of the Swiss Federal Institute of Technology in Zรผrich and Irena Hajnsek of the Zรผrich institute and the German Aerospace Center also worked on the research. Zwieback and Hajnsek were Bernhardโ€™s Ph.D. advisors.

The work focused on 10,500 square miles in the northern Taymyr Peninsula of Russiaโ€™s Siberia, an area bounded by the Byrranga Mountains to the south and the Kara Sea to the north.

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The researchers compared satellite images from two time periods โ€” 2010-2017 and 2018-2021 โ€” to note elevation changes and movement of debris and of the slumpโ€™s exposed leading edge. They then incorporated a soil organic carbon map and made assumptions about the groundโ€™s ice content and its carbon stores to calculate the amount of organic carbon released.

An ice sheet covered the entire study region around 130,000 years ago, with subsequent periods of ice retreat and advance covering a smaller and smaller area.The most recent retreat occurred at the end of the last ice age and was largely completed 12,000 years ago.

Satellite images revealed the spread of thaw slumps in areas containing remnants of that long-ago ice sheet.

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A retreating sheet usually leaves behind substantial quantities of ice covered by clay, sand, gravel and rocks, particularly along the ice sheetโ€™s edges. The retreating sheet that once covered the present-day Taymyr region created several of these ice-rich zones, referred to as ice-marginal zones. Two of those zones are in the researchersโ€™ study area.

Images of the study area showed an increase in slumps from 82 in the 2010-2017 study period to 1,404 in the 2018-2021 period, with nearly all of that increase occurring during the regionโ€™s extremely warm 2020.

The images also showed that the annual volume of affected material increased by about 43 times from the first to second periods.

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โ€œThe extreme warmth was compounded by there being a lot of ground ice close to the surface,โ€ Zwieback said. โ€œThis is due to the long-term legacy of past ice ages but also to the fact that so much of this old ice is still there because summers are usually cool and there are no fires.

โ€œAnd the ice is not well protected by insulating organic layers because thereโ€™s not much life in the harsh climate,โ€ he said.

Alaska has thaw slumps but not nearly as many as those in Canada and Russia. Alaska also has other hillslide deformations caused by thawing permafrost, and these may contribute to climate change, Zwieback said.

Little research on such a large geographic scale as that in the Taymyr Peninsula exists about thaw slumps. The work of Zwieback, Bernhard and Hajnsek shows that the carbon release from thawing Arctic hillsides must be accounted for in assessing the Arcticโ€™s carbon cycle. Researchers also need to quantify how much of it is turned into greenhouse gasses such as carbon dioxide.

โ€œThe big challenge is to quantify and predict where, when and how much carbon dioxide is released,โ€ Zwieback said.

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