Вестник Пермского университета. Геология

Актуальность работы обусловлена высокой техногенной нагрузкой на окружающую среду промышленных зон, связанных с добычей, хранением, транспортировкой, переработкой и потреблением нефти и ее продуктов. Утечки, аварии, потери в производственных циклах приводят к поступлению нефтепродуктов  в окружающую среду, их воздействие вызывает серьезные экологические проблемы. Загрязнение нефтепродуктами носит глобальный характер, отравляя биосферу и меняя условия жизни. Загрязнение гидросферы – одно из наиболее существенных, рассматривается в статье на примере подземных вод промышленных зон.

подземные воды; нефтепродукты; скважина; наблюдения; уровень подземных вод

Arkhiv pogody. Available at: https://rp5.ru/Погода_в_России (accessed 16 March 2019) (in Russian)

Belkin P.A. 2018. Kharakteristika tekhnogennoy transformatsii khimicheskogo sostava rodnikovogo stoka v rayone dobychi soley na primere Verkhnekamskogo mestorozhdeniya [Characterization of technogenic transformation of the chemical composition of spring runoff in the area of salt production on the example of the Verkhnekamskoye field]. Vestnik Permskogo universiteta. Geoloiya. 17(3): 297-306. (in Russian)

Gaev A.Ya., Savilova E.B., Malikova O.N. 2016. Osobennosti gidrosfery neftegazonosnoy Buzulukskoy vpadiny Orenburzhya [Features of the hydrosphere of the oil-bearing Buzulukskaya depression of the Orenburg region]. Vestnik Permskogo universiteta. Geologiya. 4 (33):18-25. (in Russian)

Goreva Y.A., Korotkova T.G., Burlaka S.D., Sedoy Yu.N., Udychak M.M. 2017. Proizvodstvennyy ekologicheskiy kontrol zagryazneniy gruntovykh vod v skvazhinakh neftepererabatyvayushchego zavoda g. Tuapse [Industrial environmental monitoring of groundwater pollution in the wells of the Tuapse oil refinery]. Scientific Journal of KubSAU. n. 126. (in Russian)

GOST R 54003-2010. Natsionalnyy standart Rossiyskoy Federatsii. Ekologicheskiy menedzhment. Otsenka proshlogo nakoplennogo v mestakh dislokatsii organizatsiy ekologicheskogo ushcherba. Obshchiye polozheniya [National standard of the Russian Federation. Environmental

management. Assessment of the past environmental damage accumulated in the locations of organizations. General Provisions] Moscow. 2010

Dashko R.E., Lange I.Yu. 2017. Inzhenernogeologicheskiye aspekty negativnykh posledstviy kontaminatsii dispersnykh gruntov nefteproduktami [Engineering-geological aspects of the negative consequences of contamination of dispersed soils with oil products]. Zapiski Gornogo instituta. 228: 624630. (in Russian)

Druzhina N.A., Vasilyeva D.I., Shimanchik I.P., Kholopov Yu.A. 2017. Uchet proshlogo (nakoplennogo) ekologicheskogo ushcherba v prirodookhrannoy rabote OAO «RZHD» [Consideration of past (accumulated) environmental damage in the environmental work of Russian Railways]. Samarskiy nauchnyy vestnik. 6(1):27-32. (in Russian)

Medvedkov K.S, Stripling L.O. 2018. Ukhudsheniye situatsii s podtopleniyem, svyazannoye s antropogennym vliyaniyem na primere goroda Tyukalinska [Deterioration of flooding situation related to anthropogenic effects on the example of Tyukalinsk]. Bulletin of the Tomsk Polytechnic University. Geo assets Engineering. n. 9. (in Russian)

Pryanichnikova V.V., Bikbulatov I. Kh., Bakhonina E.I. 2013. Rekultivatsiya nefteshlamovykh ambarov s ispolzovaniyem geomembrannoy plenki i neftezagryaznennykh pochv [Reclamation of oil sludge barns using a geomembrane film and oil-contaminated soils]. Bash. Chem. g. n. 1. (in Russian)

Tyurina I.M., Patrushev N.V. Retrospektivnyy analiz kislotno-shchelochnykh usloviy gruntovykh vod goroda Permi [Retrospective analysis of acidbase conditions of groundwater in the city of Perm]. Vestnik Permskogo universiteta. Geologiya. 17(2): 112-119. (in Russian)

Shamraev A.V., Shorina T.S. 2009. Vliyaniye nefti i nefteproduktov na razlichnyye komponenty okruzhayushchey sredy [Effect of oil and oil products on various environmental components]. Vestnik OGU. n. 6. (in Russian)

Shibalova G.V., Shkaredo V.A. 2017. Otsenka vozmozhnosti ispolzovaniya glinistykh gruntov, zagryaznennykh uglevodorodami, v stroitelnykh tselyakh [Assessment of the possibility of using clay soils contaminated with hydrocarbons for construction purposes]. Prirodoobustroystvo. n. 5. (in Russian)

Tokumoto, I., Chiba, K., Mizoguchi, M., Miyamoto, H. 2016. Investigation of rootzone salinity with field monitoring system at tsunami affected rice fields in Miyagi, Japan, SOIL Discuss., doi:10.5194/soil-2016-12, 2016.

Kathryn L. Korbel, Grant C. Hose. 2016. The weighted groundwater health index: Improving the monitoring and management of groundwater resources. Ecological Indicators. 75:164-181. doi:10.1016/j.ecolind.2016.11.039