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Global Nuclear Safety

The scientific and practical journal
National Research Nuclear University "MEPhI"
online version: ISSN 2499-9733
print version: ISSN 2305-414Х

2018-2(27)

Nuclear, radiation and environmental safety

Article Name	The Influence of Nanoparticles Bacterial Ferrihydrite Doped with Aluminum on Oil-Pollution
Authors	М.Е. Baranov
Address	Reshetnev Siberian State University of Science and Technologies 31, Krasnoyarsky Rabochy Av., Krasnoyarsk, Krasnoyarsky kraj, Russia, 660037 e-mail: me_baranov@mail.ru
Abstract	The paper discusses the use of bacterial ferrihydrite nanoparticles (5Fe2O3·9H2O) doped with aluminum (FeAl) to reduce the phytotoxicity of an oil contaminated soil substrate. It is proposed to evaluate the antitoxic effect in case of increased contamination with oil products, compare the level of phytotoxicity (decrease in germination and germination energy of test culture Lepidium sativum L) and to determine the optimal concentrations of nanoparticles to neutralize petroleum products in the soil.
Keywords	soil substratum, oil pollution, nanoparticles, biotesting, watercress
Language	Russian
References	[1] Kartashev A.G., Smolina T.V., Cherdantsev A.Yu. Vliyanie neftezagryazneniy na nadpochvennykh i pochvennykh bespozvonochnykh zhivotnykh [The Impact of Oil Pollution on Supersoil and soil Invertebrates]. Izvestiya Tomskogo politekhnicheskogo universiteta [Bulletin of Tomsk Polytechnic University], 2006, Vol. 309, №8, pp.182–185. (in Russian) [2] Kartashev A. Vliyanie neftezagryazneniy na nadpochvennykh i pochvennykh bespozvonochnykh zhivotnykh [The Impact of Oil Pollution on Supersoil and Soil Invertebrates]. М. 1982, pp. 238–244. (in Russian) [3] Avetov N.A., Shishkonakova E.A. Zagryaznenie neftyu pochv taezhnoy zony zapadnoy Sibiri [Oil Pollution of Soils of the Taiga Zone of Western Siberia]. Byulleten Pochvennogo instituta im. V.V. Dokuchaeva [Bulletin of Soil Institute by V.V. Dokuchaev], 2011, № 68. pp.45–53. (in Russian) [4] Andreson R.K., Mukatanov A.Kh., Boyko T.F. Ekologicheskie posledstviya zagryazneniya neftyu [Environmental Consequences of Oil Pollution]. Ekologiya [Ecology], 1980, №6, pp. 21–25. (in Russian) [5] Kireeva N.A., Miftakhova A.M., Kuzyakhmetov G.G. Vliyanie zagryazneniya neftyu na fitotoksichnost seroy lesnoy pochvy [The Impact of Oil Pollution on the Phytotoxicity of Grey Forest Soil]. Agrokhimiya [Chemistry], 2001, № 5, pp. 64–69. (in Russian) [6] Nazarov A.V. Vliyanie neftyanogo zagryazneniya pochvy na rasteniya [The Effect of Oil Pollution of Soil on Plants]. Vestnik permskogo universiteta [Perm University Herald], 2007, Issue 5(10), pp. 135–138. (in Russian) [7] Miertus S., Grechishcheva N.Yu., Meshcheryakov S.V., Rybalskiy N.G., Barsov A.R. Spravochnik. Tekhnologii vosstanovleniya pochv, zagryaznennykh neftyu i nefteproduktami [Handbook. Technology of Restoration of Soils Contaminated with Oil and Oil Products]. М. Pub. REFIA, NIA-Priroda [The State Committee of Environmental Protection, NIA-Priroda], 2001, 185 p. (in Russian) [8] Matveev Yu. Tekhnologii ochistki territoriy, zagryaznennykh nefteproduktami [Technologies for Cleaning Areas Contaminated with Oil Products]. Poiski nefti, neftyanaya industriya i okhrana okruzhayushchey sredy: Trudy pervoy Vserossiyskoy konferentsii [Oil Searches, Oil Industry and Environmental Protection: Proceedings of the First All-Russian Conference], Sankt-Peterburg. Pub. VNIGRI, 1995. pp. 127–132. (in Russian) [9] Lushnikov S.V., Zavgorodnev K.N., Bober V.V., Ochistka vody i pochvy ot nefti i nefteproduktov s pomoshchyu kultury mikrobov-destruktorov [Purification of Water and Soil from Oil and Petroleum Products with the Help of Microbial Destructor Culture]. Ekologiya i promyshlennost Rossii [Ecology and Industry of Russia], 1999, №2, pp. 17–20. (in Russian) [10] Krasavin A.P., Khoroshavin A.N., Kataeva I.V. Vosstanovlenie narushennykh zemel s ispolzovaniem bakterialnykh preparatov [Restoration of Disturbed Lands with the Use of Bacterial Preparations]. Vestn. s.-kh. nauki [Bulletin of Agricultural Science], 1988, №10, pp. 64–68. (in Russian) [11] Pandey B. and Fulekar M.H. Nanotechnology: Remediation Technologies to clean up the Environmental pollutants. Research Journal of Chemical Sciences, Vol. 2(2), 90–96, (2012) (in English) [12] Swaranjit Singh Cameotra, Soniya Dhanjal. Environmental Nanotechnology: Nanoparticles for Bioremediation of Toxic Pollutants. Bioremediation Technology, 2010, pp 348-374 (in English) [13] Bernd, N. 2010. Pollution Prevention and Treatment Using Nanotechnology. Nanotechnology. 2:1:1–15 (in English) [14] Gil-Lozano, C., Losa-Adams, E., F.-Dávila, A., Gago-Duport, L. (2014). Pyrite nanoparticles as a Fenton-like reagent for in situ remediation of organic pollutants. Beilstein Journal of Nanotechnology, 5, pp. 855–864. [15] GOST 12038-84 Semena selskohozyajstvennyh kultur. Metody opredeleniya vskhozhesti [State Standard 12038-84. Seeds of Agricultural Crops. Methods for Determination of Germination]. M. Pub. «Izdatelstvo standartov», 1984, pp. 2–42. (in Russian) [16] Stolyar S.V., Bayukov O.A. , Gurevich Yu.L. etc. Zhelezosoderzhashchie nanochastitsy, obrazuyushchiesya v rezultate zhiznedeyatel'nosti mikroorganizmov [Iron-Containing Nanoparticles Formed as a Result of Microbial Activity]. Neorganicheskie materialy [Inorganic Materials], 2006, Vol. 42, №7, pp.1–6. (in Russian) [17] Purtov K.V., Stolyar S.V., IskhakovR.S., Bayukov O.A., Gurevich Yu.L., Dobretsov K.G., Ishchenko L.A. Method for obtaining ferrihydrite nanoparticles. Patent of the Russian Federation for invention №2457074 Russian Federation C1 IPC B22F9/24; The applicant and the patent owner of Siberian Federal University. – №2011111266/02; claimed. 24.03.2011; publ. 27.07.2012. (in Russian) [18] Pollard D. Spravochnik po vychislitel'nym metodam statistiki [Handbook of Computational Methods of Statistics]. М. Pub. Finansy i statistika [Finance and Statistics], 1982, 344 p. (in Russian)
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