First quantitative estimation of growing methane release from the East Siberian Arctic seas: from a single flare to vast seepage area

Denis Chernykh; Natalia Shakhova; Denis Kosmach; Roman Ananiev; Aleksander Salomatin; Vladimir Yusupov; Valentin Sergienko; Örjan Gustafsson; Martin Jakobsson; Larry Mayer; Anatoly Saluk; Nikolay Dmitrevsky; Arcady Kurilenko; Elena Gershelis; Vyacheslav Silionov; Leopold Lobkovsky; Alexey Mazurov; Igor Semiletov

doi:https://doi.org/10.5194/egusphere-egu2020-22402

[Back] [Session BG4.3]

EGU2020-22402

https://doi.org/10.5194/egusphere-egu2020-22402

EGU General Assembly 2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

First quantitative estimation of growing methane release from the East Siberian Arctic seas: from a single flare to vast seepage area

Denis Chernykh^1,2, Natalia Shakhova^2,3, Denis Kosmach^1,2, Roman Ananiev⁴, Aleksander Salomatin¹, Vladimir Yusupov⁵, Valentin Sergienko⁶, Örjan Gustafsson⁷, Martin Jakobsson⁸, Larry Mayer⁹, Anatoly Saluk¹, Nikolay Dmitrevsky⁴, Arcady Kurilenko¹, Elena Gershelis², Vyacheslav Silionov¹, Leopold Lobkovsky⁴, Alexey Mazurov², and Igor Semiletov^1,2

Denis Chernykh et al.

¹Pacific Oceanological Institute FEB RAS, Russia
²National Research Tomsk Polytechnic University, Russia
³International Arctic Research Center, University Alaska Fairbanks, USA
⁴P.P. Shirshov Institute of Oceanology RAS, Russia
⁵Institute of Applied Physics RAS, Russia
⁶Far Eastern Branch, RAS
⁷Department of Environmental Science, Stockholm University, Sweden
⁸Department of Geological Sciences, Stockholm University, Sweden
⁹Department of Earth Science, University of New Hampshire, USA

Sustained release of methane (CH4) to the atmosphere from thawing Arctic permafrost may be a positive and significant feedback to climate warming. Atmospheric venting of CH4 from the East Siberian Arctic Shelf (ESAS) was recently reported to be on par with flux from the Arctic tundra; however, the future scale of these releases remains unclear. Here, based on results of our 12 years observations, we show that CH4 emissions from this shelf to be determined by the state of subsea permafrost degradation. Below we consider dramatically growing release from the area located out of known fault zones.

First time, we observed CH4 emissions from this single flare in 2007 in the ESAS mid-shelf. During 2014-2018 we revisited this area several times aiming to investigate quantitatively changing CH4 ebullition. The data show transformation of a single CH4 flare in a significant seepage area. CH4 emissions from this area emerge from largely thawed sediments via strong flare-like ebullition, producing fluxes that are orders of magnitude greater than fluxes observed in background areas underlain by largely frozen sediments. We suggest that progression of subsea permafrost thawing is much faster not only downward, but also laterally which could result in a significant increase in CH4 emissions from the ESAS.

This work was supported in part by grants from Russian Scientific Foundation (№15-17-20032, № 18-77-10004, №19-77-00067), grant from Russian Government (Grant No. 14, Z50.31.0012/03.19.2014) and Tomsk Polytechnic University Competitiveness Enhancement Program grant, Project Number TPU CEP_SESE-299\2019.

How to cite: Chernykh, D., Shakhova, N., Kosmach, D., Ananiev, R., Salomatin, A., Yusupov, V., Sergienko, V., Gustafsson, Ö., Jakobsson, M., Mayer, L., Saluk, A., Dmitrevsky, N., Kurilenko, A., Gershelis, E., Silionov, V., Lobkovsky, L., Mazurov, A., and Semiletov, I.: First quantitative estimation of growing methane release from the East Siberian Arctic seas: from a single flare to vast seepage area, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-22402, https://doi.org/10.5194/egusphere-egu2020-22402, 2020