V. I. Yusupov scite author profile

Remobilization to the atmosphere of only a small fraction of the methane held in East Siberian Arctic Shelf (ESAS) sediments could trigger abrupt climate warming, yet it is believed that sub-sea permafrost acts as a lid to keep this shallow methane reservoir in place. Here, we show that more than 5000 at-sea observations of dissolved methane demonstrates that greater than 80% of ESAS bottom waters and greater than 50% of surface waters are supersaturated with methane regarding to the atmosphere. The current atmospheric venting flux, which is composed of a diffusive component and a gradual ebullition component, is on par with previous estimates of methane venting from the entire World Ocean. Leakage of methane through shallow ESAS waters needs to be considered in interactions between the biogeosphere and a warming Arctic climate.

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The East Siberian Arctic Shelf: towards further assessment of permafrost-related methane fluxes and role of sea ice

Shakhova

Semiletov

Сергиенко

et al. 2015

Phil. Trans. R. Soc. A.

156

185

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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 latest observations, we show that CH4 emissions from this shelf are likely to be determined by the state of subsea permafrost degradation. We observed CH4 emissions from two previously understudied areas of the ESAS: the outer shelf, where subsea permafrost is predicted to be discontinuous or mostly degraded due to long submergence by seawater, and the near shore area, where deep/open taliks presumably form due to combined heating effects of seawater, river run-off, geothermal flux and pre-existing thermokarst. CH4 emissions from these areas 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 and decrease in ice extent could result in a significant increase in CH4 emissions from the ESAS.

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Laser-induced transfer of gel microdroplets for cell printing

Yusupov¹,

Zhigarkov²,

Churbanova³

et al. 2017

Quantum Electron.

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Digging deeper: structural background of PEGylated fibrin gels in cell migration and lumenogenesis

et al. 2020

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Laser-induced hydrodynamics in water-saturated biotissues: 2. Effect on delivery fiber

2011

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V. I. Yusupov

Extensive Methane Venting to the Atmosphere from Sediments of the East Siberian Arctic Shelf

The East Siberian Arctic Shelf: towards further assessment of permafrost-related methane fluxes and role of sea ice

Laser-induced transfer of gel microdroplets for cell printing

Digging deeper: structural background of PEGylated fibrin gels in cell migration and lumenogenesis

Laser-induced hydrodynamics in water-saturated biotissues: 2. Effect on delivery fiber

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