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2013 | 22 | 3 |

Tytuł artykułu

Effect of complex technological means on biodegradation of oil products and succession of microorganisms in polluted soil

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The impact of various technological means (addition of NPK, sewage sludge, and biopreparation) on oil product degradation was studied ex situ in biodegradation sites. The degradation degree of oil products depended on pollutant concentration and addition of fertilizers. The succession of microorganisms during biodegradation process in polluted soil was ascertained. The addition of NPK stimulated the growth of ammonifying bacteria and fungi, while sewage sludge promoted the growth of ammonificators and yeasts but suppressed fungi. The increase of OO bacteria positively correlated with the abundance of heterotrophic bacteria, while the amounts of OO yeast and fungi correlated negatively. It was demonstrated that sewage sludge is a suitable organic fertilizer for polluted soil bioremediation and, moreover, in this way the problem of this industrial waste utilization could be solved as well.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

22

Numer

3

Opis fizyczny

p.831-840,fig.,ref.

Twórcy

  • Biodeterioration research laboratory, Institute of Botany, Nature Research Centre, Žaliųjų ežerų 49, LT-08406 Vilnius, Lithuania
autor
  • Biodeterioration research laboratory, Institute of Botany, Nature Research Centre, Žaliųjų ežerų 49, LT-08406 Vilnius, Lithuania
  • Biodeterioration research laboratory, Institute of Botany, Nature Research Centre, Žaliųjų ežerų 49, LT-08406 Vilnius, Lithuania
autor
  • Public agency “Soil remediation technologies“, Antakalnio 42, LT-10304 Vilnius, Lithuania
  • Public agency “Soil remediation technologies“, Antakalnio 42, LT-10304 Vilnius, Lithuania
  • Biodeterioration research laboratory, Institute of Botany, Nature Research Centre, Žaliųjų ežerų 49, LT-08406 Vilnius, Lithuania

Bibliografia

  • 1. KLEIN J. Possibilities, limits, and future developments of soil bioremediation, in: Rehm H.J., Reed G. (Eds.) Environmental processes II. Soil decontamination. Biotechnology 11b, Wiley-VCH: Weinheim, 465, 2000.
  • 2. SABATÉ, J., VIÑAS, M., SOLANAS, A.M. Laboratory-scale bioremediation experiments on hydrocarbon-contaminated soils. Int. Biodeter. Biodegr. 54, (1), 19, 2004.
  • 3. MARGESIN R. Potential of cold-adapted microorganisms for bioremediation of oil-polluted Alpine soils. Int. Biodeter. Biodegr. 46, 3, 2000.
  • 4. JANKEVIČIUS K., LIUŽINAS R. (Eds.). Important aspects of environmental bioremediation. Apyaušris: Vilnius, pp. 134, 2005.
  • 5. TERESHCHENKO N.N. Ecologo-biological factors and mechanisms of human-damaged soils remediation. Tomsk University: Tomsk, pp. 42, 2007 [In Russian].
  • 6. VAN GESTEL K., MERGAERT J., COOSEMAN J, RYCKEBOER J. Bioremediation of diesel oil-contaminated soil by composting with biowaste. Environ. Pollut. 125, (3), 361, 2003.
  • 7. CHUA C.L., ISA, M.H. Bioremediation of oil sludge contaminated soil by co-composting with sewage sludge. J. Sci. Ind. Res. 65, (4), 364, 2006.
  • 8. MURYGINA V.P., MARKAROVA M.Y., KALYUZHNYI S.V. Application of biopreparation „Rhoder“ for remediation of oil polluted polar marshy wetlands in Komi Republic. Environ. Int. 31, (2), 163, 2005.
  • 9. JUHANSON J., TRUU J., HEINARU E., HEINARU A. Temporal dynamics of microbial community in soil during phytoremediation field experiment. J. Environ. Eng. Landsc. Manag. 15, (4), 213, 2007.
  • 10. WHITE D., CROSBIE J. D., ATKINSON D., KILHAM K. Effect of an introduced inoculum on soil microbial diversity. FEMS Microbiol. Ecol. 14, (2), 169, 1994.
  • 11. DIDŽIAPETRIS A., JANKEVIČIUS K., JANUŠKA V., KRIŠČIŪNAS J., LIUŽINAS R., LUGAUSKAS A., PAŠKEVIČIUS A., REPEČKIENĖ J. 05 25. Strain Candida lipolytica 0.6. 1-5, oxidizing oil and its products. Patent LT 4793 B. 2001 [In Lithuanian].
  • 12. LIUŽINAS R., DIDŽIAPETRIS A., JANKEVIČIUS K., KMITA M., VIZBARIENĖ R., ZVEROČKINIENĖ D., ŠATINSKIENĖ V. Biopreparation for oil- and its products-polluted soil and water cleaning, its production and use. Patent LT 5057 B. 2003 [In Lithuanian].
  • 13. BORZENKOV I.A., BELIAJEV S.S., IBATULLIN R.R., POSPELOV M.E., SVITNEV A.I. Bioremediation technique of soil, natural and waste water, polluted with oil and oil products by applying biopreparations. Patent 2114071 RU. 1998 [In Russian].
  • 14. KREGER-VAN RIJ N.J.W. (Eds.) The Yeasts, a Toxonomic Study, 3rd ed, Elsevier Science Publishers: Amsterdam, pp. 1082, 1984.
  • 15. KURTZMAN C.P., FELL J.W. The yeasts, a toxonomic study, 4th ed., Elsevier Science Publishers: Amsterdam, pp. 1055, 1998.
  • 16. SAMSON R.A., FRISVAD J.C. Penicillium subgenus Penicillium: new taxonomic schemes, mycotoxins and other extrolites. Stud. Mycol. 49, 1, 2004.
  • 17. DOMSH K.H., GAMS W., ANDERSON T.-H. Compendium of soil fungi, 2nd ed. taxonomically revised by W. Gams. IHW-Verlag: Eching, pp. 672, 2007.
  • 18. SALINA O. Micromycetes of Trichoderma sect. Longibrachiatum in Lithuania. Botanica Lithuanica, 13, (4), 261, 2007.
  • 19. PEČIULYTĖ D., BRIDŽIUVIENĖ D. Fungi of Lithuania. II. Mortierellales and Mucorales, Vilnius: Botanikos instituto leidykla. 256 p. 2008 [In Lithuanian, summary English].
  • 20. LIUŽINAS R. JANKEVIČIUS K., PAŠKEVIČIUS A., REPEČKIENĖ J. Means of reception of medium for oil oxidizing microorganisms and medium produced by these means. Patent LT 5587 B. 2009 [In Lithuanian].
  • 21. CARTER M.R., GREGORICH E.G. (Eds.) Soil sampling and methods of analysis, 2nd ed., CRC Press and Taylor and Francis Group: Oxford, pp. 1264, 2008.
  • 22. SKAISGIRIENĖ A., JANUTĖNIENĖ J., VAITIEKŪNAS P. Modelling of chloride influence upon activated sludge community growth. J. Environ. Eng. Landsc. Manag. 17, (2), 114, 2009.
  • 23. HN 60:2004. The highest permissive concentrations of dangerous chemical sub stances. Valstybės žinios, pp. 8, 2004 [In Lithuanian].
  • 24. BIEDUNKIEWICZ A., OZIMEK T. Qualitative and Quatative changes of potentially pathogenic fungi in a hydrophyte wastewater treatment plant. Pol. J. Environ. Stud. 18, (2), 161, 2009.
  • 25. ULFIG K., PLAZA G., JANDA-ULFIG K., JASTRZĘBSKA S. Examination of keratinolytic and associated non- keratinolytic fungi in sewage sludge. Pol. J. Environ. Stud. 18, (6), 1163, 2009.
  • 26. ESSIEN J.P., UDOSEN E.D. Distribution of actinomycetes in oil contaminated ultisoils of the Niger delta (Nigeria). J. Environ. Sci. 12, (3), 296, 2000.
  • 27. BANIASADI F., SHAHIDI G.H., NIK A.K. In vitro petroleum decomposition by actinomycetesisolated from petroleum contaminated soils. American-Eurasian J. Agric. Environ. Sci. 6, (3), 268, 2009.
  • 28. GURIELIDZE M., BERISHVILI T., CHOLOKAVA N., PATARAYA D., NUTSUBIDZE N. Oil destructing extremophilic Actinomycetes, isolated from various types of soil of Georgia. Bull. Georg. Nat. Acad. Sci. Microbiol. 3, (3), 118, 2009.
  • 29. PIAULOKAITĖ-MOTUZIENĖ L., LAPINSKAS E., ČIUBERKIENĖ D. Influence of soil acidity and mineral fertilizers on distribution of ammonifying and mineral nitrogen assimilating microorganisms. Žemd.-Agric. 4, (88), 198, 2004.
  • 30. MARGESIN R., SCHINNER F. Effect of temperature on oil degradation by a psychrotrophic yeast in liquid culture and in soil. FEMS Microbiol. Ecol. 24, (3), 243, 1997.
  • 31. SINGH H. Mycoremediation: fungal Bioremediation. Wiley-Interscience: New York, pp. 592, 2006.
  • 32. PRENAFETA-BOLDÚ F.X., KHUN A., LUYKX D.M.A.M., ANKE H., VAN GROENESTIJN J.W., BONT J.A. M. Isolation and characterisation of fungi growing on volatile aromatic hydrocarbons as their sole carbon and energy source. Mycol. Res. 105, (4), 477, 2001.
  • 33. BRIDŽIUVIENĖ D., LEVINSKAITĖ L., LUGAUSKAS A., PAŠKEVIČIUS A., PEČIULYTĖ D., REPEČKIENĖ J., SALINA O., VARNAITĖ R. Microbiological Damage of Materials. UAB “Valstiečių laikraštis”: Vilnius, pp. 467, 1997 [In Lithuanian, summary English].
  • 34. KIREEVA N.A., BAKAEVA M.D., GALIMZIANOVA N.F. Influence of petroleum products on the complex of soil micromycetes. Mycol. Phytopath. 38, (1), 27, 2004 [In Russian, summary English].
  • 35. LUGAUSKAS A., PAŠKEVIČIUS A., REPEČKIENĖ J. Patogenic and toxic microorganisms in human environment. Aldorija: Vilnius, pp. 434, 2002 [In Lithuanian, summary English].
  • 36. TANG P., MOHAN S., SIGLER L., MAZZULLI T. Allergic Fungal Sinusitis Associated with Trichoderma longibrachiatum. J. Clin. Microbiol. 41, (1), 5333, 2003.
  • 37. ZHUKOVA O.V., MERKUSHIN O.S., MOROZOV N.V. Influence of active association of hydrocarbon oxidizing microorganisms on the degradation of oil products. In: Fundamental Science and Practice, 2nd Int. Conf. „Problems and perspectives in modern medicine, biology and ecology. Tomsk University: Tomsk, 73, 2010.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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