Subsea permafrost organic carbon stocks are large and of dominantly low reactivity

F. Miesner; P. P. Overduin; G. Grosse; J. Strauss; M. Langer; S. Westermann; T. Schneider von Deimling; V. Brovkin; S. Arndt

doi:10.1038/s41598-023-36471-z

Subsea permafrost organic carbon stocks are large and of dominantly low reactivity

F. Miesner
, P. P. Overduin
, G. Grosse
, J. Strauss
, M. Langer
, S. Westermann
, T. Schneider von Deimling
, V. Brovkin
, S. Arndt

Earth and Climate

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Subsea permafrost carbon pools below the Arctic shelf seas are a major unknown in the global carbon cycle. We combine a numerical model of sedimentation and permafrost evolution with simplified carbon turnover to estimate accumulation and microbial decomposition of organic matter on the pan-Arctic shelf over the past four glacial cycles. We find that Arctic shelf permafrost is a globally important long-term carbon sink storing 2822 (1518-4982) Pg OC, double the amount stored in lowland permafrost. Although currently thawing, prior microbial decomposition and organic matter aging limit decomposition rates to less than 48 Tg OC/yr (25-85) constraining emissions due to thaw and suggesting that the large permafrost shelf carbon pool is largely insensitive to thaw. We identify an urgent need to reduce uncertainty in rates of microbial decomposition of organic matter in cold and saline subaquatic environments. Large emissions of methane more likely derive from older and deeper sources than from organic matter in thawing permafrost.

Original language	English
Article number	9425
Pages (from-to)	1-12
Number of pages	12
Journal	Scientific Reports
Volume	13
Early online date	9 Jun 2023
DOIs	https://doi.org/10.1038/s41598-023-36471-z
Publication status	Published - Dec 2023

Bibliographical note

Publisher Copyright:
© 2023. The Author(s).

Funding

Open Access funding enabled and organized by Projekt DEAL. This publication is part of the Nunataryuk project. The project has received funding under the European Union’s Horizon 2020 Research and Innovation Programme under Grant Agreement No. 773421. ML and TSvD were supported by a Grant of the Federal Ministry of Education and Research (BMBF) of Germany (No. 01LN1709A). This publication is supported by the Open Access Publication Funds of Alfred-Wegener-Institut Helmholtz-Zentrum für Polar- und Meeresforschung.

Funders	Funder number
Alfred-Wegener-Institut Helmholtz-Zentrum für Polar
Horizon 2020 Framework Programme	77342, 773421
Bundesministerium für Bildung und Forschung	01LN1709A

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title = "Subsea permafrost organic carbon stocks are large and of dominantly low reactivity",

abstract = "Subsea permafrost carbon pools below the Arctic shelf seas are a major unknown in the global carbon cycle. We combine a numerical model of sedimentation and permafrost evolution with simplified carbon turnover to estimate accumulation and microbial decomposition of organic matter on the pan-Arctic shelf over the past four glacial cycles. We find that Arctic shelf permafrost is a globally important long-term carbon sink storing 2822 (1518-4982) Pg OC, double the amount stored in lowland permafrost. Although currently thawing, prior microbial decomposition and organic matter aging limit decomposition rates to less than 48 Tg OC/yr (25-85) constraining emissions due to thaw and suggesting that the large permafrost shelf carbon pool is largely insensitive to thaw. We identify an urgent need to reduce uncertainty in rates of microbial decomposition of organic matter in cold and saline subaquatic environments. Large emissions of methane more likely derive from older and deeper sources than from organic matter in thawing permafrost.",

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AU - Miesner, F.

AU - Overduin, P. P.

AU - Grosse, G.

AU - Strauss, J.

AU - Langer, M.

AU - Westermann, S.

AU - Schneider von Deimling, T.

AU - Brovkin, V.

AU - Arndt, S.

PY - 2023/12

Y1 - 2023/12

N2 - Subsea permafrost carbon pools below the Arctic shelf seas are a major unknown in the global carbon cycle. We combine a numerical model of sedimentation and permafrost evolution with simplified carbon turnover to estimate accumulation and microbial decomposition of organic matter on the pan-Arctic shelf over the past four glacial cycles. We find that Arctic shelf permafrost is a globally important long-term carbon sink storing 2822 (1518-4982) Pg OC, double the amount stored in lowland permafrost. Although currently thawing, prior microbial decomposition and organic matter aging limit decomposition rates to less than 48 Tg OC/yr (25-85) constraining emissions due to thaw and suggesting that the large permafrost shelf carbon pool is largely insensitive to thaw. We identify an urgent need to reduce uncertainty in rates of microbial decomposition of organic matter in cold and saline subaquatic environments. Large emissions of methane more likely derive from older and deeper sources than from organic matter in thawing permafrost.

AB - Subsea permafrost carbon pools below the Arctic shelf seas are a major unknown in the global carbon cycle. We combine a numerical model of sedimentation and permafrost evolution with simplified carbon turnover to estimate accumulation and microbial decomposition of organic matter on the pan-Arctic shelf over the past four glacial cycles. We find that Arctic shelf permafrost is a globally important long-term carbon sink storing 2822 (1518-4982) Pg OC, double the amount stored in lowland permafrost. Although currently thawing, prior microbial decomposition and organic matter aging limit decomposition rates to less than 48 Tg OC/yr (25-85) constraining emissions due to thaw and suggesting that the large permafrost shelf carbon pool is largely insensitive to thaw. We identify an urgent need to reduce uncertainty in rates of microbial decomposition of organic matter in cold and saline subaquatic environments. Large emissions of methane more likely derive from older and deeper sources than from organic matter in thawing permafrost.

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Subsea permafrost organic carbon stocks are large and of dominantly low reactivity

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