The Influence of associations of hydrocarbon oxidizing microorganisms to the microbial cenosis and oil destruction in soil

Abstract

Mesocosms experiments were used to study the influence of associations of hydrocarbon oxidizing microorganisms on the microbial cenosis and oil destruction in soil. The introduction of active oil oxidizing microorganisms associations into the soil purify of soil from oil to 59.8% - 63.8% after 2 months with 5% oil content and with 10% to 49.2% - 55.6%. As a result of oil destruction there was enlarging of the number of all investigated groups of microorganisms.

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Aitkeldieva, S. , Faizulina, E. , Kurmanbaev, A. , Auezova, O. , Baigonusova, Z. , Tatarkina, L. , Zaitova, T. and Sadanov, A. (2012) The Influence of associations of hydrocarbon oxidizing microorganisms to the microbial cenosis and oil destruction in soil. Natural Science, 4, 784-788. doi: 10.4236/ns.2012.410103.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] Orlov, D.S., Bocharnikova, E.A. and Amosov, J.A.M. (1988) Change of physical and chemical properties of the soils polluted by oil and mineral oil. Abstract Reports: A Republican Seminar Ecotoxicology and Environmental Protection, Jurmala, Riga, 128-130.
[2] Kireeva, N.A. (1995) Use of biohumus to expedite degradation of oil in soil. Biotechnology, 5-6, 32-35.
[3] Kurakov, A.V., Ilinsky, V.V., Kotelevtsev, S.V. and Sadchikov, A.P. (2006) Bioindication and rehabilitation of ecosystems in the oil pollution. Publishing house Graphicon, Moscow.
[4] Trofimov, S.J. and Rozanova, M.S. (2002) Change of properties of soils under the influence of oil pollution. In: Dobrovolsky, G.V., Ed., Degradation and protection of soils, The Moscow State University, Moscow, 359-373.
[5] Ueno, A., Ito, Y., Yumoto, I. and Okuyama, H. (2007) Isolation and characterisation of bacteria from soil contaminated with diesel oil and the possible use of these in autochthonous bioaugmentation. World Journal of Microbiology and Biotechnology, 23, 1739-1745. doi:10.1007/s11274-007-9423-6
[6] Tereshchenko, N.N., Lushnikov, S.V. and Russkih, I.V. (2010) Efficiency of bacterial preparation ?S-607? and zeolite in purification of soil and water environment from oil. Environment Protection in oil and gas complex, 5, 13-19.
[7] Galiulin, R.V., Galiulina, R.A., Bashkin, V.N., Akopova, G.S., Listov, E.L. and Balakirev, I.V. (2010) Comparative an estimation of decomposition of hydrocarbons of a gas condensate and oil in soil under the influence of biological means. Agrochemistry, 10, 52-58.
[8] Lurie, Y. (1984) Analytical chemistry of industrial waste water, Chemistry, Moscow, 448.
[9] Netrusov, A.N., Ed. (2005) Handbook of microbiology. Academia, Мoscow, 597.
[10] Ibatullina, I.Z., Semenova, T.A. and Yakovlev, A.S. (2012) Features of oil biodegradation in the meadow-chestnut soils of the Stavropoulos Territory (model experiment). Soil Science, 3, 376-384.
[11] Ivanova, A.E., Borzenkov, I.A., Strelkov, W.A., Nguyen Thur Hoai, Do Ngok Lan, Belyaev, S.S. and Karpov, V.A. (2012). Taxonomic diversity of aerobic organotrophic bacteria from pure soil of Vietnam, and their ability to oxidize petroleum hydrocarbons. Microbiology, 81, 254-265. doi:10.1134/S002626171202004X

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