Influence of climate change on the formation of the boundaries of natural zones in the watersheds of the Assa-Talas river basin

Based long-term climate data, a research database has been created for eight meteorological stations located in various natural-geographical zones of the Assa-Talas river basin; a linear-correlation model of climate indicators has been obtained, allowing to determine the rate of increase in the sums of air temperatures, radiation balance, evaporation from the open water surface or from excessively moistened soil during the biologically active period of the year, annual precipitation, natural moisture coefficient and hydrothermal dryness index, which perform important environment-forming and ecological functions. The results of the study showed that in general, in all natural-geographical zones of the Assa-Talas river basin, the sum of air temperatures, radiation balance, evaporation and hydrothermal dryness index have a positive growth rate, and annual precipitation and the coefficient of natural moisture are negative, contributing to the formation of a positive rate an increase in the deficit of water consumption of agricultural land and a shift in the boundaries of natural zones, which is a signal of the safety of agricultural activities.

1. Bazilevich N.I.,  Grebenshchikov O.S.,  Tishkov A.A. Geographical patterns of structure and functioning of ecosystems / ed. Isakov Yu.A. M.: Nauka, 1986. 297 p.

2. Sergienko V.G. Dynamics of the boundaries of forest growth zones in Russia under climate change // Proceedings of the St. Petersburg Research Institute of Forestry. 2015. № 1. P. 5-19..

3. Titkova T.B.,  Vinogradova V.V.  Climate changes in transitional natural zones of the north of Russia and their manifestation in the spectral characteristics of landscapes // Modern problems of remote sensing of the Earth from space. 2019. V. 16. No. 5. P. 310-323. https://doi.org/10.21046/2070-7401-2019-16-5-310

4. Mustafaev Zh.S. Impact of climate change on water supply of agricultural land in zones of insufficient moisture in Kazakhstan // Prirodoobustrojstvo. 2022. No. 5. P. 105-113.

5. Mustafaev Zh.S.,  Tursynbaev N.A.,  Kireycheva L.V.  Justification of environmental services of river basins using the example of theTalas River. Monograph. – Kishinev: LAP LAMBERT Academic Publishing, 2022. 137 p.

6. Scientific and applied reference book on the climate of the USSR. Series 13: Long-term data. P. 1-6, iss. 18: Kazakh SSR. Book. 2. Leningrad, Gidrometeoizdat Publ., 1989. 656 p.

7. Scientific and applied reference book on the climate of the USSR. Series 13: Long-term data. P. 1-6, iss. 32: Kirgiz SSR. L.: Gidrometeoizdat, 1989. 589 p.

8. World Meteorological Organization (WMO), https://public.Wmo.int/ru

9. Reference-information portal «Weather and climate» // www.pogodaklimat.ru

10. Pоnko V.A. Assessment and forecasting of agroclimatic resources. Novosibirsk: 2012. 100 p.