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Year: 2016|   Volume No: 11|   Number No: 36|   ISSN: 0795-3089|   Page No: 42


Burinova B.V. (2001).Ecological evaluation of the spatial and temporal variability of the heavy metal content of the soils of the experimental forest reserve of the Russian State Agrarian University – MTAA named after K.A. Timiryazev . Ph.D. Dissertation synopsis. - Moscow, 2011. - 25 p.

Dua M., Singh, A., Sethunathan, N., Johri, A.K. (2002). Biotechnology and bioremediation: successes and limitations Applied Microbiology and Biotechnology, 59: 143-152.

Halimov E.M.; Levin S.V.; Guseev S.V. (1996). Ecological and microbiological aspects of the damaging effect of oil on the properties of soil Bulletin. Moscow State University. - Ser. 17. Soil Science, 2: 59- 64.

Kireeva N.A. Biodegradation of crude oil pollutants in soil using cultures of hydrocarbon-oxidizing microorganisms Biotechnology 1: 51-54.

Kuznetsov A.E., Gradova N.B., Luzhnikov S.V., Engelhard M., Weisser T., Chebotaeva M.V. (2010). Applied Eco-biotechnology:

Tutorial: 2 V. - Vol.1 - M.: BINOM. Knowledge Laboratory- 629 p.

Nwachukwu, S.C.U. (2001). Bioremediation of sterile agricultural soils polluted with crude petroleum by application of the soil bacterium, Pseudomonas putida, with inorganic nutrient supplementations. Current Microbiology, 42(2):231-236. PND F 16.1; 2.2.22-98 Method of measuring the mass fraction of petroleum products in mineral, organogenic, and organic mineral soils. State report On the condition and protection of the environment of the Russian Federation, 2001.

Rogozin E.A. (2006) Topical issues of the problem of purification of oil-contaminated soil E.A. Rogozin Petroleum geology. Theory and Practice, - № 1. - P. 36-46.

Russian state epidemiological sanitary standard.2.1.7. (2000). Soil, urban center cleaning, household and industrial waste. Approximate Safe Exposure Level for oil and petroleum products in the soil. (Draft) Official publication pages.

Stankevich D. S. (2002). Using hydrocarbon oxidizing bacteria of the genus Pseudomonas putida for the bioremediation of oil-contaminated soils. Ph.D.

Dissertation. – Russian State Agrarian University-MTAA named after K.A. Timiryazev, Moscow, 2002. P. 189. Teng Y., Luo Y., Sun M., Liu Z., Christie P. (2010). Effect of bioaugmentation by Paracoccus sp. Strin HPD-2 on the soil microbial community and removal of polycyclic aromatic hydrocarbons from an aged contaminated soil Bioresource Technology 101: 3437-3443.

Tyagi M., da Fonseca M.R., de Carvalho C.C.C.R. (2010). Bioaugmentation and biostimulation strategies to improve the effectiveness of bioremediation processes Biodegradation, 22 (2): 231-241.

Wang O., Zhang S., Li Y., Klassen W. (2011). Potential Approaches to Improving Biodegradation of Hydrocarbons for Bioremediation of Crude Oil Pollution Journal of Environmental Protection, 2: 47-55.