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Thawing Yedoma permafrost is a neglected nitrous oxide source

Author

Listed:
  • M. E. Marushchak

    (University of Eastern Finland
    University of Jyväskylä)

  • J. Kerttula

    (University of Eastern Finland)

  • K. Diáková

    (University of Eastern Finland
    University of Bayreuth)

  • A. Faguet

    (Trofimuk Institute of Petroleum Geology and Geophysics)

  • J. Gil

    (University of Eastern Finland
    Michigan State University)

  • G. Grosse

    (Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research
    University of Potsdam)

  • C. Knoblauch

    (Universität Hamburg
    Universität Hamburg)

  • N. Lashchinskiy

    (Trofimuk Institute of Petroleum Geology and Geophysics
    Central Siberian Botanical Garden)

  • P. J. Martikainen

    (University of Eastern Finland)

  • A. Morgenstern

    (Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research)

  • M. Nykamb

    (University of Eastern Finland)

  • J. G. Ronkainen

    (University of Eastern Finland)

  • H. M. P. Siljanen

    (University of Eastern Finland
    University of Vienna)

  • L. van Delden

    (University of Eastern Finland
    Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research)

  • C. Voigt

    (University of Eastern Finland
    University of Montreal)

  • N. Zimov

    (Russian Academy of Sciences)

  • S. Zimov

    (Russian Academy of Sciences)

  • C. Biasi

    (University of Eastern Finland)

Abstract

In contrast to the well-recognized permafrost carbon (C) feedback to climate change, the fate of permafrost nitrogen (N) after thaw is poorly understood. According to mounting evidence, part of the N liberated from permafrost may be released to the atmosphere as the strong greenhouse gas (GHG) nitrous oxide (N2O). Here, we report post-thaw N2O release from late Pleistocene permafrost deposits called Yedoma, which store a substantial part of permafrost C and N and are highly vulnerable to thaw. While freshly thawed, unvegetated Yedoma in disturbed areas emit little N2O, emissions increase within few years after stabilization, drying and revegetation with grasses to high rates (548 (133–6286) μg N m−2 day−1; median with (range)), exceeding by 1–2 orders of magnitude the typical rates from permafrost-affected soils. Using targeted metagenomics of key N cycling genes, we link the increase in in situ N2O emissions with structural changes of the microbial community responsible for N cycling. Our results highlight the importance of extra N availability from thawing Yedoma permafrost, causing a positive climate feedback from the Arctic in the form of N2O emissions.

Suggested Citation

  • M. E. Marushchak & J. Kerttula & K. Diáková & A. Faguet & J. Gil & G. Grosse & C. Knoblauch & N. Lashchinskiy & P. J. Martikainen & A. Morgenstern & M. Nykamb & J. G. Ronkainen & H. M. P. Siljanen & L, 2021. "Thawing Yedoma permafrost is a neglected nitrous oxide source," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-27386-2
    DOI: 10.1038/s41467-021-27386-2
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    Cited by:

    1. Carolina Voigt & Anna-Maria Virkkala & Gabriel Hould Gosselin & Kathryn A. Bennett & T. Andrew Black & Matteo Detto & Charles Chevrier-Dion & Georg Guggenberger & Wasi Hashmi & Lukas Kohl & Dan Kou & , 2023. "Arctic soil methane sink increases with drier conditions and higher ecosystem respiration," Nature Climate Change, Nature, vol. 13(10), pages 1095-1104, October.
    2. Jens Strauss & Christina Biasi & Tina Sanders & Benjamin W. Abbott & Thomas Schneider Deimling & Carolina Voigt & Matthias Winkel & Maija E. Marushchak & Dan Kou & Matthias Fuchs & Marcus A. Horn & Lo, 2022. "A globally relevant stock of soil nitrogen in the Yedoma permafrost domain," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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