Semenov P.B.1, Malyshev S.A.1, Kil A.O.1, Shatrova E.V.1,2, Lodochnikova A.S.1, Belova N.G.3, Leibman M.O.4,5, Streletskaya I.D.3

GEOCHEMISTRY OF GROUND ICE IN THE RUSSIAN ARCTIC WITH A FOCUS ON THE CARBON CYCLE: EXPLORATIVE STATISTICS RESULTS 

Relief and Quaternary deposits of the Arctic, Subarctic and North-West Russia. Issue 10.

Download *pdf

doi: 10.24412/2687-1092-2023-10-245-254

Лицензия Creative Commons

1VNIIOkeangeologiya, St. Petersburg, Russia

2St. Petersburg State University, St. Petersburg, Russia

3Lomonosov Moscow State University, Moscow, Russia

4Institute of the Earth Cryosphere Tyumen Scientific Center SB RAS, Tyumen, Russia

5Tyumen State University, Tyumen, Russia 

 

     

Abstract. Ground ice is extremely variable in the composition of dissolved components, including molecular fractions of dissolved organic matter, which illustrates the diversity of biogeochemical environments. The work demonstrates that the interaction of source water with solid material serves as the main mechanism for the enrichment of ground ice with dissolved components. The resulting classification of ground ice will be useful for spatial generalizations and classification of samples for experimental studies.

Keywords: ground ice, carbon cycle, dissolved organic matter, carbon dioxide and methane

 


 

REFERENCES:

Cory R.M., Ward C.P., Crump B.C., Kling G.W. Sunlight controls water column processing of carbon in arctic fresh waters // Science, 2014. Vol. 345. Is. 6199. P. 925-928. doi: 10.1126/science.125311

Fellman J.B., Hood E., D’Amore D.V., Edwards R.T., White D. Seasonal changes in the chemical quality and biodegradability of dissolved organic matter exported from soils to streams in coastal temperate rainforest watersheds // Biogeochemistry. 2009. Vol. 95. P. 277–293. doi: 10.1007/s10533-009-9336-6

Hugelius G, Strauss J, Zubrzycki S. et al. Estimated stocks of circumpolar permafrost carbon with quantified uncertainty ranges and identified data gaps // Biogeosciences. 2014. Vol. 11. Is. 23. P. 6573–6593. doi:10. 5194/bg-11-6573-201

Knoblauch C., Beer C., Liebner S., Grigoriev M.N., Pfeiffer E.M. Methane production as key to the greenhouse gas budget of thawing permafrost // Nature Climate Change. 2018. Vol. 8. P. 309–312. doi: 10.1038/s41558-018-0095-z

Pismeniuk A., Semenov P., Veremeeva A., He W., Kozachek A., Malyshev S., Shatrova E., Lodochnikova A., Streletskaya I. Geochemical Features of Ground Ice from the Faddeevsky Peninsula Eastern Coast (Kotelny Island, East Siberian Arctic) as a Key to Understand Paleoenvironmental Conditions of Its Formation // Land. 2023. Vol. 12, 324. doi:10.3390/land12020324

Semenov P., Pismeniuk A., Malyshev S., Leibman M., Streletskaya I., Shatrova E., Kizyakov A., Vanshtein B. Methane and Dissolved Organic Matter in the Ground Ice Samples from Central Yamal: Implications to Biogeochemical Cycling and Greenhouse Gas Emission // Geosciences. 2020. Vol. 10, 450. doi:10.3390/geosciences10110450

Stedmon C.A., Cory R.M. Biological origins and fate of fluorescent dissolved organic matter in aquatic environments. In: Aquatic Organic Matter Fluorescence; Coble, P.G., Lead, J.R., Eds., Cambridge University Press: Cambridge, NY, 2014, pp. 278–300.

Streletskaya I.D., Pismeniuk A.A., Vasiliev A.A., Gusev E.A., Oblogov G.E., Zadorozhnaya N.A. The ice-rich permafrost sequences as a paleoenvironmental archive for the Kara Sea region (Western Arctic) // Frontiers in Earth Science. 2021. Vol. 9. 723382. doi: 10.3389/feart.2021.723382

Vonk J.E., Tank S.E., Bowden W.B., Laurion I., Vincent W.F., Alekseychik P., Amyot M., Billet M.F., Canário J., Cory R.M., Deshpande B.N. Reviews and syntheses: Effects of permafrost thaw on Arctic aquatic ecosystems // Biogeosciences. 2015. Vol. 12. Is. 23. P. 7129-7167. doi: 10.5194/bg-12-7129-2015

Vonk J.E., Mann P.J., Davydov S., Davydova A., Spencer R.G.M., Schade J., Sobczak W.V., Zimov N., Zimov S., Bulygina E., Eglinton T.I., Holmes R.M. High biolability of ancient permafrost carbon upon thaw // Geophysical Research Letters. 2013. Vol. 40. P. 2689-2693 doi: 10.1088/1748-9326/8/3/035023

Yokohata T., Saito K., Ito A. et al. Future projection of greenhouse gas emissions due to permafrost degradation using a simple numerical scheme with a global land surface model // Progress in Earth and Planetary Science. 2020. Vol. 7, 56. doi:10.1186/s40645-020-00366-8

 

 

 

Cite this article:

Semenov P.B., Malyshev S.V., Kil A.O., Shatrova E.V., Lodochnikova A.S., Belova N.G., Leibman M.O., Streletskaya I.D. Geochemistry of ground ice in the Russian Arctic with a focus on the carbon cycle: explorative statistics results // Relief and Quaternary deposits of the Arctic, Subarctic and North-West Russia. 2023. Issue 10. P. 245-254. doi: 10.24412/2687-1092-2023-10-245-254

 



eXTReMe Tracker


Flag Counter

Яндекс.Метрика

Hosted by uCoz