Panov A. V., Prokushkin A. S., Kukavskaya E. A., Putilin I. R., Anuev E. A., Korets M. A., Aryasov V. E., Kolosov R. A., Bondar M. G. Stationary Studies of Concentrations and Fluxes of Greenhouse Gases in Tundra Ecosystems of the Taimyr Peninsula
1 V. N. Sukachev Inst. For., Rus. Acad. Sci., Sib. Br.
Fed. Res. Center Krasnoyarsk Sci. Center, Rus. Acad. Sci., Sib. Br.
Akademgorodok, 50/28, Krasnoyarsk, 660036 Russian Federation
Prospekt Svobodny, 79, Krasnoyarsk, 660041 Russian Federation
3 Joint Directorate of Taymyr Nature Reserves
Kirova str., 24, Norilsk, Krasnoyarsk Krai, 663305 Russian Federation
E-mail: alexey.v.panov@gmail.com, prokushkin@ksc.krasn.ru, kukavskaya@ksc.krasn.ru, irputilin@mail.ru,
djekizion@mail.ru, mik@ksc.krasn.ru, vova_aryasov@mail.ru, kolosov.ra@ksc.krasn.ru, mikisayan@ya.ru
Abstract
UDC 574.4+504.7
Panov A. V.1, Prokushkin A. S.1, 2, Kukavskaya E. A.1, Putilin I. R.1, Anuev E. A.1, Korets M. A.1, Aryasov V. E.1, Kolosov R. A.1, Bondar M. G.3 Stationary studies of concentrations and fluxes of greenhouse gases in tundra ecosystems of the Taimyr Peninsula // Sibirskij Lesnoj Zurnal (Sib. J. For. Sci.). 2025. N. 4. P. … (in Russian with English abstract and references).
DOI: 10.15372/SJFS20250402
EDN: ...
© Panov A. V., Prokushkin A. S., Kukavskaya E. A., Putilin I. R., Anuev E. A., Korets M. A., Aryasov V. E.,
Kolosov R. A., Bondar M. G., 2025
The Arctic is one of the most climate-vulnerable regions of the planet, where the rate of temperature increase is twice as high as the global average. The rapid increase in temperature is largely due to the increasing concentration of greenhouse gases in the atmosphere. Forecasts indicate that the continuation of this trend may lead to a large-scale release of carbon accumulated in permafrost. The scale and duration of the expected effect are not obvious due to the poorly developed monitoring of greenhouse gases in the Russian Arctic: sporadic estimates of their atmospheric variations and exchange with ecosystems. The paper presents the results of studies of the dynamics of atmospheric greenhouse gases in the estuarine zone of the Yenisei River, indicating a stable annual increase in CO2 (~1.9 million–1/year–1) and CH4 (~12.6 million–1/year–1). The values of soil emissions of these gases for different types of tundra and vegetation on the western coast of the Taimyr Peninsula are presented, where it is shown that the highest values are typical for areas with vascular plant forms. Disturbances of the living ground cover by all-terrain vehicles lead, on average, to a threefold increase in methane emissions into the atmosphere.
Article
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