The deep permafrost carbon pool of the Yedoma region in Siberia and Alaska

Estimates for circumpolar permafrost organic carbon (OC) storage suggest that this pool contains twice the amount of current atmospheric carbon. The Yedoma region sequestered substantial quantities of OC and is unique because its deep OC, which was incorporated into permafrost during ice age conditi...

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Published inGeophysical research letters Vol. 40; no. 23; pp. 6165 - 6170
Main Authors Strauss, Jens, Schirrmeister, Lutz, Grosse, Guido, Wetterich, Sebastian, Ulrich, Mathias, Herzschuh, Ulrike, Hubberten, Hans-Wolfgang
Format Journal Article
LanguageEnglish
Published United States Blackwell Publishing Ltd 16.12.2013
John Wiley & Sons, Inc
BlackWell Publishing Ltd
Subjects
Arctic
Atmospheric models
Atmospherics
Carbon
carbon cycle
Climate change
climate feedback
Deposition
Deposits
frozen organic matter
Ice ages
Inclusions
Lake basins
Lakes
Organic carbon
Organic matter
Permafrost
Pleistocene
Pools
Regular
Sediment deposits
Sediments
Spatial data
Stores
Thermokarst
Yedoma
Russia, Siberia
USA, Alaska
frozen organic matter
climate feedback
carbon cycle
Arctic
thermokarst
Yedoma
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Summary:Estimates for circumpolar permafrost organic carbon (OC) storage suggest that this pool contains twice the amount of current atmospheric carbon. The Yedoma region sequestered substantial quantities of OC and is unique because its deep OC, which was incorporated into permafrost during ice age conditions. Rapid inclusion of labile organic matter into permafrost halted decomposition and resulted in a deep long‐term sink. We show that the deep frozen OC in the Yedoma region consists of two distinct major subreservoirs: Yedoma deposits (late Pleistocene ice‐ and organic‐rich silty sediments) and deposits formed in thaw‐lake basins (generalized as thermokarst deposits). We quantified the OC pool based on field data and extrapolation using geospatial data sets to 83 + 61/−57 Gt for Yedoma deposits and to 128 + 99/−96 Gt for thermokarst deposits. The total Yedoma region 211 + 160/−153 Gt is a substantial amount of thaw‐vulnerable OC that must be accounted for in global models. Key Points The Yedoma region stores 211Gt OC (83Gt in Yedoma; 128 Gt in thermokarst) Thermokarst deposits constitute the dominant current Yedoma region carbon pool Thawing portions of this significant OC pool will amplify climate change
Bibliography:NSF - No. OPP 0732735
NASA - No. NNX08AJ37G
Supporting InformationSupporting Information
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ArticleID:GRL51163
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ObjectType-Article-1
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content type line 23
ISSN:0094-8276
1944-8007
DOI:10.1002/2013GL058088