The Impact of Catastrophic Forest Fires of 2021 on the Light Soils in Central Yakutia
Author:
Desyatkin Alexey12ORCID, Okoneshnikova Matrena1, Fedorov Pavel1, Ivanova Alexandra1ORCID, Filippov Nikolay1, Desyatkin Roman1
Affiliation:
1. Institute for Biological Problems of Cryolithozone, Siberian Branch, Russian Academy of Science, Yakutsk 677980, Russia 2. Melnikov Permafrost Institute, Siberian Branch, Russian Academy of Science, Yakutsk 677010, Russia
Abstract
This paper presents the results of studying changes in the main parameters and properties of soils in larch and pine forests growing on sandy soils of the Lena-Vilyui interfluve of Central Yakutia, where catastrophic forest fires occurred in 2021. According to the remote monitoring information system of Rosleskhoz, in 2021, almost 8.5 million hectares of forests burned in Yakutia, which is considered as one of the largest forest fires in Russia and in the world in that year. After the fire passes through the forest floor, the content of organic matter decreases as a result of combustion processes. The acidity of the soil changes towards its alkalization due to the entry of combustion products. Changes in soil profiles occur; turbation processes begin more intensively, which in turn change the natural distribution of soil indicator values such as the organic carbon content, the pH, and the number of exchangeable bases. Due to the sharp increase in heat supply after a fire, the depth of seasonal thawing in the soils of burnt larch forests increases by a quarter and by twofold in pine forests. With the beginning of the thawing of the seasonally frozen layer, all the soils experience waterlogging, and ground water occurs above the permafrost.
Funder
MINISTRY OF SCIENCE AND HIGHER EDUCATION OF THE RUSSIAN FEDERATION
Reference75 articles.
1. (2021). A Report on Climate Features on the Territory of the Russian Federation in 2020, Roshydromet. (In Russian). 2. Leskinen, P., Lindner, M., Verkerk, P.J., Nabuurs, G.J., Van Brusselen, J., Kulikova, E., Hassegawa, M., and Lerink, B. (2020). Russian Forests and Climate Change. What Science Can Tell Us 11?, European Forest Institute. 3. The influence of soil hydrothermal regime on post-fire recovery process in the ribbon-like pine forests of Western Siberia;Malinovskikh;IOP Conf. Ser. Earth Environ. Sci.,2021 4. Zamolodchikov, D.G. (2022, January 25–29). Vulnerability and Adaptation of Russian Forestry to Climate Change. Proceedings of the All-Russian Scientific Conference with International Participation on Scientific Foundations of Sustainable Forest Management, Dedicated to the 30th Anniversary of the Center for Forest Ecology and Productivity RAS, Moscow, Russia. (In Russian). 5. Chebykina, E., Polyakov, V., Abakumov, E., and Petrov, A. (2022). Wildfire effects on cryosols in Central Yakutia Region, Russia. Atmosphere, 13.
|
|