Affiliation:
1. Institute of Physicochemical and Biological Problems of Soil Science, Russian Academy of Sciences
2. Institute for Fundamental Problems of Biology, Russian Academy of Sciences
Abstract
The article presents methods for managing natural and environmental risks in the conditions of increasing continentality of the climate in the Polar regions of gas production. It is shown that natural risks associated with the rise in summer temperatures can manifest themselves in the form of various epizootics. The leading factor in the manifestation of such natural risks are large-scale disturbances of tundra soils, in particular, on the Yamal Peninsula due to overgrazing of reindeer. Environmental risks are associated with the impact of gas industry on the processes of eutrophication of tundra ecosystems, which manifests itself in the form of a change in the predominant forms of vegetation and increased thawing of soils. Against the backdrop of an increase in the continentality of the climate, in recent years, on the territory of the Taz Peninsula, biogeochemical technologies for the reclamation of tundra soils, adaptive to the climatic conditions of the Far North, have been successfully tested, based on methods protected by patents of the Russian Federation.
Reference50 articles.
1. Hartmann D., Klein T. A., Rusticucci M., Alexander L., Brönnimann S., Charabi Y., Dentener F., Dlugokencky E., Easterling D., Kaplan A., Soden B., Thorne P., Wild M. and Zhai P. Observations: atmosphere and surface Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change ed T Stocker et al. New York: Cambridge University Press. 2013. P. 659—740.
2. Bindoff N., Stott P., AchutaRao K., Allen M., Gillett N., Gutzler D., Hansingo K., Hegerl G., Hu Y., Jain S., Mokhov I., Overland J., Perlwitz J., Sebbari R., Zhang X. Detection and attribution of climate change: from global to regional Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Changeed T Stocker et al. New York: Cambridge University Press. 2013. P. 867—952.
3. Omrani N. E., Keenlyside N., Matthes K. et al. Coupled stratosphere-troposphere-Atlantic multidecadal oscillation and its importance for near-future climate projection // Clim Atmos Sci. 2022. V. 5 (59). https://doi.org/10.1038/s41612-022-00275-1
4. Van Dijk A. I. J. M., Beck H. E., de Jeu R. A. M., Dorigo W. A., Hou J., Preimesberger W., Rahman J., Rozas Larraondo P. R., van der Schalie R. Global Water Monitor 2022, Summary Report. 2022. Global Water Monitor (www.globalwater.online).
5. Soon W. H., Posmentier E. S., Baliunas S. L. Inference of Solar Irradiance Variability from Terrestrial Temperature Changes, 1880–1993: An Astrophysical Application of the Sun‐Climate Connection // The Astrophysical Journal, 1996. V. 472(2), 891—902. https://doi.org/10.1086/178119