Vol. 36, issue 06, article # 9
Copy the reference to clipboard
Abstract:
The paper considers changes in the state of the environment in Krasnoyarsk and its environs during the existence of the smoke of large-scale Yakut fires in August 2021. The appearance of smoke aerosols in the atmosphere led to a weakening of the passage of solar radiation to the Earth's surface and, accordingly, to a decrease in the temperature of the active soil layer and the surface air layer. Advection of cooled air with high relative humidity over the surface of the Yenisei River in the lower reaches of the Krasnoyarsk HPP formed cooling mists.
Keywords:
forest fires, smoke aerosols, cooling, soil, atmosphere, fogs
Figures:
References:
1. Borisenkov E.P., Pasetskij V.M. Ekstremal'nye prirodnye yavleniya v russkih letopisyah XI–XVII vv. L.: Gidrometeoizdat, 1983. 240 p.
2. Shostakovitch V.B. Forest conflagrations in Siberia // J. For. 1925. V. 23, N 4. P. 365–371.
3. Crutzen P., Birks J. Twilight at noon: The atmosphere after a nuclear war // Ambio. 1982. V. 11, N 2–3. P. 114–125.
4. Turco R.P., Toon O.B., Ackerman T.P., Pollack J.B., Sagan C. Nuclear winter: Global consequences of multiple nuclear explosions // Science. 1983. V. 222, N 4630. P. 283–1292.
5. Golitsyn G.S. New developments from USSR // Environ. Sci. Policy Sustain. Dev. 1986. V. 28, N 8. P. 2–44.
6. Seitz R. Siberian fire as “nuclear winter” guide // Nature. 1986. V. 323, N 6084. P. 116–117.
7. Vel'tishchev N.N., Ginzburg A.S., Golitsyn G.S. Klimaticheskie effekty massovyh pozharov // Izv. AN SSSR. Fiz. atmosf. i okeana. 1988. V. 24, N 3. P. 296–305.
8. Hansen J., Sato M., Ruedy R. Radiative forcing and climate response // J. Geophys. Res.: Atmos. 1997. V. 102, N D6. P. 6831–6864.
9. Ackerman A.S., Toon O.B., Stevens D.E., Heymsfield A.J., Ramanathan V., Welton E.J. Reduction of tropical cloudiness by soot // Science. 2000. V. 288, N 5468. P. 1042–1047.
10. Kondrat'ev K.Ya. Aerozol' kak klimatoobrazuyushchij komponent atmosfery. 2. Pryamoe i kosvennoe vozdejstvie na klimat // Optika atmosf. i okeana. 2002. V. 15, N 4. P. 301–320.
11. Kondrat'ev K.Ya. Aerozol' i klimat: sovremennoe sostoyanie i perspektivy razrabotok. 3. Aerozol'noe radiatsionnoe vozmushchayushchee vozdejstvie // Optika atmosf. i okeana. 2006. V. 19, N 7. P. 565–575.
12. Ramanathan V., Carmichael G. Global and regional climate changes due to black carbon // Nat. Geosci. 2008. V. 1, N 4. P. 221–227.
13. Ivlev L.S. Aerozol'noe vozdejstvie na klimaticheskie protsessy // Optika atmosf. i okeana. 2011. V. 24, N 5. P. 392–410.
14. Panchenko M.V., Zhuravleva T.B., Kozlov V.S., Nasrtdinov I.M., Pol'kin V.V., Terpugova S.A., Chernov D.G. Otsenka radiatsionnyh effektov aerozolya v fonovyh i zadymlennyh usloviyah atmosfery Sibiri na osnove empiricheskih dannyh // Meteorol. i gidrol. 2016. N 2. P. 45–54.
15. Zhuravleva T.B., Panchenko M.V., Kozlov V.S., Nasrtdinov I.M., Pol’kin V.V., Terpugova S.A., Chernov D.G. Model'nye otsenki dinamiki vertikal'noj struktury pogloshcheniya solnechnogo izlucheniya i temperaturnyh effektov v fonovyh usloviyah i ekstremal'no zadymlennoj atmosfere no dannym samoletnyh nablyudenij // Optika atmosf. i okeana. 2017. V. 30, N 10. P. 834–839; Zhuravleva T.B., Panchenko M.V., Kozlov V.S., Nasrtdinov I.M., Pol’kin V.V., Terpugova S.A., Chernov D.G. Model estimates of dynamics of the vertical structure of solar absorption and temperature effects under background conditions and in extremely smoke-laden atmosphere according to data of aircraft observations // Atmos. Ocean. Opt. 2018. V. 31, N 1. P. 24–30.
16. Bondur V.G. Kosmicheskij monitoring prirodnyh pozharov v Rossii v usloviyah anomal'noj zhary 2010 year. // Issled. Zemli iz kosmosa. 2011. N 3. P. 3–13.
17. Voronova O.S., Zima A.L., Kladov V.L., Cherepanova E.V. Anomal'nye pozhary na territorii Sibiri letom 2019 year // Issled. Zemli iz kosmosa. 2020. № 1. С. 70–82.
18. Shvidenko A.Z., Shchepashchenko D.G., Vaganov E.A., Suhinin A.I., Maksyutov Sh.Sh., MkKalum I., Lakida I.P. Vliyanie prirodnyh pozharov v Rossii 1998–2010 years na ekosistemy i global'nyj uglerodnyj byudzhet // Dokl. RAN. 2011. V. 441, N 4. P. 544–548.
19. Shaparev N.Ya., Tokarev A.V., Yakubajlik O.E. Formirovanie tumanov v nizhnem b'efe Krasnoyarskoj GES na reke Enisej // Optika atmosf. i okeana. 2022. V. 35, N 5. P. 397–401.
20. Shaparev N., Tokarev A., Yakubailik O. The state of the atmosphere in the city of Krasnoyarsk (Russia) in indicators of sustainable development // Int. J. Sustain. Dev. World Ecol. 2020. V. 27, N 4. P. 349–357.
21. Herman J.R., Bhartia P.K., Torres O., Hsu C., Seftor C., Celarier E. Global distribution of UV-absorbing aerosols from Nimbus 7/TOMS data // J. Geophys. Res.: Atmos. 1997. V. 102, N D14. P. 16911–16922.
22. Svodnyj otchet o lesnyh pozharah (termicheskih anomaliyah) na vsekh vidah territorij po dannym kosmicheskogo monitoringa po sostoyaniyu na 31 december 2021 year // Informatsionnaya sistema distantsionnogo monitoringa Federal'nogo agentstva lesnogo hozyajstva Rossii. URL: https://public.aviales.ru/main_pages/openform1.shtml?2021-12-31 (data obrashcheniya: 1.12.2022).
23. Yakubailik O., Romas’ko V., Pavlichenko E. Complex for reception and real time processing of remote sensing data // E3S Web Conf. 2019. V. 75. P. 03003.
24. Gosteva A.A., Yakubailik O.E., Shaparev N.Y. Wildfires and the spread of smoke from forest fires in the Krasnoyarsk territory in summer 2019 // IOP Conf. Ser. Mater. Sci. Eng. 2020. V. 862, N 6. P. 062057.
25. Matveev L.T. Fizika atmosfery. SPb.: Gidrometeoizdat, 2000. 778 p.
26. Pérez-Díaz J.L., Ivanov O., Peshev Z., Álvarez-Valenzuela M.A., Valiente-Blanco I., Evgenieva T., Dreischuh T., Gueorguiev O., Todorov P.V., Vaseashta A. Fogs: Physical basis, characteristic properties, and impacts on the environment and human health // Water (Switzerland). MDPI AG. 2017. V. 9, N 10. P. 807.
27. Gultepe I., Isaac G.A., Williams A., Marcotte D., Strawbridge K.B. Turbulent heat fluxes over leads and polynyas, and their effects on arctic clouds during FIRE.ACE: Aircraft observations for April 1998 // Atmosphere–Ocean. 2003. V. 41, N 1. P. 15–34.
