Vol. 38, issue 08, article # 9
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Abstract:
Snow cover is an effective accumulator of dust fallout and provides objective information on the level of pollution. Pollution is among key factors that determine life quality in a city and is seriously considered when it comes to people’s residence preferences, house building policy, migration, and other aspects of urban environment management. Accurate pollution estimation and town zoning by pollution level based on these estimates are, therefore, challenges to be taken up in big cities with highly developed industries. This paper deals with the results of the 2018 study of the distribution of snow cover dust loading across Krasnoyarsk. Based on the norm, dust loading appeared to vary from low to high among the city districts. In winter 2018, dust loading dropped averagely 1.3 times as compared to the previous study. The northern and eastern industrial zones (Soviet and Lenin Districts, respectively) encompassing large industries were under the highest dust pollution. The dust pollution of snow cover was low in Krasnoyarsk in 2018.
Keywords:
snow cover, dust load, pollution level, pollution halos, Krasnoyarsk
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References:
1. Vasilenko V.N., Nazarov I.M, Fridman Sh.D. Monitoring zagryazneniya snezhnogo pokrova. L.: Gidrometeoizdat, 1985. 181 p.
2. Kosheleva N.E., Sycheva D.G., Kasimov N.S. Geohimiya snezhnogo pokrova na territorii MGU im. M.V. Lomonosova // Vestn. Mosk. un-ta. Ser. 5: Geografiya. 2024. V. 79, N 5. P. 3–16. DOI: 10.55959/MSU0579-9414.5.79.5.1.
3. Raputa V.F., Lezhenin A.A., Yaroslavtseva T.V., Devyatova A.Yu. Eksperimental'nye i chislennye issledovaniya zagryazneniya snezhnogo pokrova g. Novosibirska v okrestnostyah teplovyh elektrostantsii // Izv. Irkut. gos. un-ta. Ser.: Nauki o Zemle. 2015. V. 12. P. 77–93.
4. Shevchenko V.P., Politova N.V., Dara O.M., Pokrovsky O.S., Auda Y., Shirokova L.S., Vorobyev S.N., Krickov I.V., Manasypov R.M., Kopysov S.G., Kolesnichenko L.G., Zemtsov V.A., Kirpotin S.N. Impact of snow deposition on major and trace element concentrations and elementary fluxes in surface waters of the Western Siberian lowland across a 1700 km latitudinal gradient // Hydrol. Earth Syst. 2017. V. 21. P. 5725–5746. DOI: 10.5194/hess-21-5725-2017.
5. Salo H., Berisha A.K., Mäkinen J. Seasonal comparison of moss bag technique against vertical snow samples for monitoring atmospheric pollution // J. Environ. Sci. 2016. V. 41. P. 128–137. DOI: 10.1016/j.jes.2015.04.021.
6. Moskovchenko D.V., Pozhitkov R.Yu., Soromotin A.V. Geohimicheskaya harakteristika snezhnogo pokrova g. Tobol'sk // Izv. Tom. politehn. un-ta. Inzhiniring georesursov. 2021. V. 332, N 5. P. 156–169. DOI: 10.18799/24131830/2021/05/3195.
7. Gosudarstvennyi doklad «O sostoyanii i ohrane okruzhayushchei sredy v Krasnoyarskom krae v 2018 year». http://www.mpr.krskstate.ru/dat/File/3/Gosdoklad%20.pdf (data obrashcheniya: 25.04.2024).
8. Strimzha T.P., Medvedeva N.N. Geohimicheskii aspekt prozhivaniya lyudei v Krasnoyarske i ego okrestnostyah. Krasnoyarsk: SFU, 2020. 220 p.
9. Onuchin A., Kofman G., Zubareva O., Danilova I. Using an urban snow cover composition-based cluster analysis to zone Krasnoyarsk town (Russia) by pollution level // Pol. J. Environ. Stud. 2020. V. 29, N 6. P. 4257–4267. DOI: 10.15244/pjoes/118168.
10. RD 52.04.186–89. Rukovodstvo po kontrolyu zagryazneniya atmosfery. URL: https://medecol.ru/doc/rd_52_04_186_89.pdf?ysclid=m0vut86gph129997261 (data obrashcheniya: 16.03.2024).
11. Metodicheskie rekomendatsii po otsenke stepeni zagryazneniya atmosfernogo vozduha naselennyh punktov metallami po ih soderzhaniyu v snezhnom pokrove i pochve. Utv. glavnym gosudarstvennym sanitarnym vrachom SSSR ot 15.05.1990 year, N 5174-90. https://files.stroyinf.ru/Data2/1/4293736/4293736062.pdf?ysclid=m8dwbfpsot309995048 (data obrashcheniya: 16.03.2024).
12. Saet Yu.E., Revich B.A., Yanin E.P. Geohimiya okruzhayushchei sredy. M.: Nedra, 1990. 335 p.
13. Volodina D.A., Talovskaya A.V., Yazikov E.G., Devyatova A.Yu., Edelev A.V. Otsenka pyleaerozol'nogo zagryazneniya v zone vliyaniya tsementnogo zavoda na osnove izucheniya snegovogo pokrova (Novosibirskaya oblast') // Izv. Tom. politehn. un-ta. Inzhiniring georesursov. 2022. V. 333, N 10. P. 69–85. DOI: 10.18799/24131830/2022/10/3704.
14. Strimzha T.P., Neustroeva M.V., Perfilova O.Yu., Fertikov A.I. Otsenka atmosfernogo vozduha goroda Krasnoyarska po snegovomu pokrovu // Vestn. KGPU im. V.P. Astaf'eva. 2012. N 3. P. 378–381.
15. Krasnoyarsk Federal'nyi proekt «CHistyi vozduh». URL: https://www.mnr.gov.ru/activity/clean-air/ krasnoyarsk/ (data obrashcheniya: 05.09.2024).
16. Gosudarstvennyi doklad «O sostoyanii i ohrane okruzhayushchei sredy v Krasnoyarskom krae za 2010 year». URL: http://www.mpr.krskstate.ru/dat/bin/art_attach/1812_gosdoklad_ 2010.pdf (data obrashcheniya: 25.04.2024).
17. Litau V.V., Talovskaya A.V., Yazikov E.G., Lonchakova A.D., Tret'yakova M.I. Otsenka pylevogo zagryazneniya territorii g. Omska po dannym snegovoi s"emki // Optika atmosf. i okeana. 2015. V. 28, N 3. P. 256–259.
18. Gasainieva A.G., Gasainieva M.G. O zagryaznenii atmosfery melkodispersnoi pyl'yu i, o ee vliyanii na zdorov'e cheloveka // Inzhenernyi vestnik Dona. 2017. N 4. P. 1–12.
19. Zagorodnov S.Yu. Pylevoe zagryaznenie atmosfernogo vozduha goroda kak nedootsenennyi faktor riska zdorov'yu cheloveka // Vest. Perm. nats. issled. politehn. un-ta. Prikladnaya ekologiya. Urbanistika. 2018. N 2. P. 124–133. DOI: 10.15593/2409-5125/2018.02.10.
20. Aidinov G.T., Marchenko B.I., Sinel'nikova Yu.A. Mnogomernyi analiz struktury i dolevogo vklada potentsial'nyh faktorov riska pri zlokachestvennyh novoobrazovaniyah trahei, bronhov i legkogo // Analiz riska zdorov'yu. 2017. N 1. P. 45–55. DOI: 10.21668/health.risk/2017.1.02.
21. Talovskaya A.V., Yazikov E.G., Osipova N.A., Shahova T.S., Litau V.V., Torosyan E.S., Filimonenko E.A., Volodina D.A., Nikulina E.A. Monitoring pylevogo zagryazneniya gorodskih aglomeratsii Zapadnoi Sibiri po dannym izucheniya snezhnogo pokrova: materialy IV Vseros. nauch.-prakt. konf. s mezhdunar. uchastiem // Sovremennye problemy geografii i geologii k 100-letiyu otkrytiya estestvennogo otdeleniya v Tomskom gosudarstvennom universitete. Tomsk, 16–19 october 2017 year. Tomsk: Izd-vo NI TGU, 2017. P. 540–544.
22. Osipova N.A., Bykov A.A., Talovskaya A.V., Nikolaenko A.N., Yazikov E.G., Larin S.A. Vliyanie ugledobyvayushchih predpriyatii na zagryaznenie snegovogo pokrova prilegayushchih urbanizirovannyh territorii (na primere g. Mezhdurechenska) // Izv. Tom. politehn. un-ta. Inzhiniring georesursov. 2017. V. 328, N 12. P. 36–46.
23. Manankov A.V., Kara-Sal I.D. Opredelenie urovnya zagryazneniya pyl'yu snezhnogo pokrova g. Kyzyla (Respublika Tyva) // Vestn. TGASU. 2013. N 3. P. 308–314.
24. Talovskaya A.V. Geohimicheskaya harakteristika pylevyh atmosfernyh vypadenii na territorii g. Tomska // Optika atmosf. i okeana. 2010. V. 23, N 6. P. 519–524.
25. Kholodova M.S., Pastuhov M.V., Poletaeva V.I. Osobennosti mineral'no-veshchestvennogo sostava tverdofaznyh vypadenii snegovogo pokrova territorii g. Svirska // Izv. SO sektsii nauk o zemle RAEN. 2016. N 57. P. 109–118. DOI: 10.21285/0130-108X-2016-57-4-109-118.
