Recent Warming Fuels Increased Organic Carbon Export From Arctic Permafrost

Xiaowen Zhang; Thomas S. Bianchi; Andrea J. M. Hanna; Michael R. Shields; Gareth Izon; Jack A. Hutchings; Chien‐Lu Ping; Mikhail Kanevskiy; Negar Haghipour; Timothy I. Eglinton

doi:10.1029/2021AV000396

AGU Advances (Jun 2021)

Recent Warming Fuels Increased Organic Carbon Export From Arctic Permafrost

Xiaowen Zhang,
Thomas S. Bianchi,
Andrea J. M. Hanna,
Michael R. Shields,
Gareth Izon,
Jack A. Hutchings,
Chien‐Lu Ping,
Mikhail Kanevskiy,
Negar Haghipour,
Timothy I. Eglinton

Affiliations

Xiaowen Zhang: Department of Geological Sciences University of Florida Gainesville FL USA
Thomas S. Bianchi: Department of Geological Sciences University of Florida Gainesville FL USA
Andrea J. M. Hanna: Jackson School of Geosciences Institute of Geophysics University of Texas at Austin Austin TX USA
Michael R. Shields: Department of Geological Sciences University of Florida Gainesville FL USA
Gareth Izon: Department of Earth, Atmospheric and Planetary Sciences Massachusetts Institute of Technology Cambridge MA USA
Jack A. Hutchings: Department of Earth and Planetary Sciences Washington University St. Louis MO USA
Chien‐Lu Ping: School of Natural Resources and Extension University of Alaska Fairbanks Fairbanks AK USA
Mikhail Kanevskiy: Institute of Northern Engineering University of Alaska Fairbanks Fairbanks AK USA
Negar Haghipour: Department of Earth Sciences Geological Institute ETH Zürich Zürich Switzerland
Timothy I. Eglinton: Department of Earth Sciences Geological Institute ETH Zürich Zürich Switzerland

DOI: https://doi.org/10.1029/2021AV000396
Journal volume & issue: Vol. 2, no. 2
pp. n/a – n/a

Abstract

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Abstract Climate‐driven thawing of Arctic permafrost renders its vast carbon reserves susceptible to microbial degradation, serving as a potentially potent positive feedback hidden within the climate system. While seemingly intuitive, the relationship between thermally driven permafrost losses and organic carbon (OC) export remains largely unexplored in natural settings. Filling this knowledge gap, we present down‐core bulk and compound‐specific radiocarbon records of permafrost change from a sediment core taken within the Alaskan Colville River delta spanning the last c. 2,700 years. Fingerprinted by significantly older radiocarbon ages of bulk OC and long‐chain fatty acids, these data expose a thermally driven increase in permafrost OC export and/or deepening of mobilizable permafrost layers over the last c. 160 years after the Little Ice Age. Comparison of OC content and radiocarbon data between recent and Roman warming episodes likely implies that the rate of warming, alongside the prevailing boundary conditions, may dictate the ultimate fate of the Arctic's permafrost inventory. Our findings highlight the importance of leveraging geological records as archives of Arctic permafrost mobilization dynamics with temperature change.

Published in AGU Advances

ISSN: 2576-604X (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Geology; Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/2576604x

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Abstract

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