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Analysis of Petroleum Biodegradation by a Bacterial Consortium of Bacillus amyloliquefaciens ssp. Plantarum and Bacillus subtilis

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Features of change of phytotoxic influence of the soil polluted with oil at the use of a complex biological product based on strains of microorganisms Bacillus amyloliquefaciens subsp. plantarum NSh-2 and Bacillus subtilis NSh-4 in the laboratory were investigated. The level of destruction of petroleum hydrocarbons at different combinations of pollutant and biological product concentrations was determined, as well as in the absence of oil pollution to ensure the assessment of the biological product’s impact on the environment. Soil phytotoxicity was assessed by the method of biotesting using radish seeds of the Sora variety by the ratio of seedling height and the obtained mass of organic matter.
Rocznik
Strony
36--42
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
  • Admiral Makarov National University of Shipbuilding, 54025, Heroiv Ukrainy avе., 9, Mykolaiv, Ukraine
  • Admiral Makarov National University of Shipbuilding, 54025, Heroiv Ukrainy avе., 9, Mykolaiv, Ukraine
  • Karat-bio, LLC&ARE (Limited Liability Company & Academic and Research Enterprise), 42700, Shevchenka, 36-42, Okhtyrka, Sums'ka oblast, Ukraine
  • Admiral Makarov National University of Shipbuilding, 54025, Heroiv Ukrainy avе., 9, Mykolaiv, Ukraine
Bibliografia
  • 1. Datta P., Tiwari P., Pandey L.M. 2018. Isolation and characterization of biosurfactant producing and oil degrading Bacillus subtilis MG495086 from formation water of assam oil reservoir and its suitability for enhanced oil recovery. Bioresour. Technol., 270, 439–448. https://doi.org/10.1016/j.biortech.2018.09.047
  • 2. Dzhura N.M. 2011. Mozhlyvosti vykorystannya roslynnykh test-system dlya biomonitorynhu naftozabrudnenykh gruntiv. Studia Biologica, 9(3), 183–196. (in Ukrainian)
  • 3. Felix A.K.N., Martins J.J.L., Almeida J.G.L., Giro M.E.A., Calvacante K.F., Melo V.M.M., et al. 2019. Purification and characterization of a biosurfactant produced by Bacillus subtilis in cashew apple juice and its application in the remediation of contaminated soil. Colloids Surf. B Biointerfaces., 175, 256–263. https://doi.org/10.1016/j.colsurfb.2018.11.062
  • 4. Filonov A.E. 2016. Mikrobnyye biopreparaty dlya ochistki okruzhayushchey sredy ot neftyanykh zagryazneniy v usloviyakh umerennogo i kholodnogo klimata. Doctorʹs thesis. Pushchyno. (in Russian)
  • 5. Hrodzynsʹkyy D.M., Shylina Y.U.V., Kutsokonʹ N.K., et al. 2006. Zastosuvannya roslynnykh test-system dlya otsinky kombinovanoyi diyi faktoriv riznoyi pryrody. Fitosotsiotsentr, Kiev. (in Ukrainian)
  • 6. Liu B., Liu J., Ju M., Li X., Yu Q. 2016. Purification and characterization of biosurfactant produced by Bacillus licheniformis Y-1 and its application in remediation of petroleum contaminated soil. Mar. Pollut. Bull., 107. 46–51. https://doi.org/10.1016/j.marpolbul.2016.04.025
  • 7. Moebius B.N., Van E.H.M., Idowu O.J., Clune D.J., Thies J.E. 2007. Evaluation of laboratory– mesured soil properties as indicator of soil physical quality. Soil Sciences, 172(11), 895–912.
  • 8. Nayak N.N., Purohit M.S., Tipre D.R., Dave S.R. 2020. Biosurfactant production and engine oil degradation by marine halotolerant Bacillus licheniformis LRK1. Biocatal. Agric. Biotechnol., 29. https://doi.org/10.1016/j.bcab.2020.101808
  • 9. Ossai I.C., Ahmed A., Hassan A., et al. 2019. Remediation of soil and water contaminated with petroleum hydrocarbon: A review. Environmental Technology & Innovation, 17. https://doi.org/10.1016/j.eti.2019.100526
  • 10. Poi G., Aburto-Medina A., Mok P.C., Ball A.S., Shahsavari E. 2017. Large-scale bioaugmentation of soil contaminated with petroleum hydrocarbons using a mixed microbial consortium. Ecological Engineering, 102, 64–71.
  • 11. Purnomo A.S., Rizqi H.D., Harmelia L. 2020. Culture of Bacterium Bacillus subtilis as Degradation Agent in Attempt of Sea Water Remediation Contaminated By Petroleum. Journal of the Indonesian Chemical Society, 3(53). https://doi.org/10.34311/jics.2020.03.1.53
  • 12. Rahman K.S.M., Rahman T.J., Kourkoutas Y., Petsas I., Marchant R., Banat I.M. 2003. Enhanced bioremediation of n-alkane in petroleum sludge using bacterial consortium amended with rhamnolipid and micronutrients. Bioresour. Technol. https://doi.org/10.1016/s0960–8524(03)00114
  • 13. Rusin M., Gospodarek J., Nadgórska-Socha A. 2015. The Effect of Petroleum Derived Substances on the Growth and Chemical Composition of Vicia faba L. Pol. J. Environ. Stud., 24(5), 2157–2166.
  • 14. Sakthipriya N., Doble M., Sangwai J.S. 2015. Bioremediation of Coastal and Marine Pollution due to Crude Oil Using a Microorganism Bacillus subtilis. Procedia Engineering, 116, 213–220. https://doi.org/10.1016/j.proeng.2015.08.284
  • 15. Salvatore D., Carafa M., Carratu, G. 2008. Assessment of heavy metals phytotoxicity using seed germination and root elongation tests: A comparison of two growth substrates. Chemosphere, 73(9), 1461–1464.
  • 16. Sharma S. 2012. Bioremediation: features, strategies and applications. Asian Journal of Pharmacy and Life Science, 2(2), 202–213.
  • 17. Shestopalov O.V., et al. 2015. Okhorona navkolyshnʹoho seredovyshcha vid zabrudnennya naftoproduktamy. NTU “KHPI”, Kharkiv. (in Ukrainian)
  • 18. Shevchyk L., Romaniuk O. 2016. The optimal way of biological cleaning of oil-contaminated soils. Mediterranean Journal of Biosciences, 1(3), 109–113.
  • 19. Varjani S.J., Upasani V.N. 2017. A new look on factors affecting microbial degradation of petroleum hydrocarbon pollutants. International Biodeterioration & Biodegradation, 120, 71–78. https://doi.org/10.1016/j.ibiod.2017.02.006
  • 20. Vasilyev A.V., Zabolotskikh V.V. 2012. Ekologicheskiy monitoring toksichesogo zagryazneniya pochvy nefteproduktami s ispolzovaniyem metodov biotestirovania. Oil and Gas Business, 4, 242–249. (in Russian)
  • 21. Zhang B., Guo Y., Huo J., Xie H., Xu C., Liang S. 2020. Combining chemical oxidation and bioremediation for petroleum polluted soil remediation by BC-nZVI activated persulfate. Chemical Engineering, 382. https://doi.org/10.1016/j.cej.2019.123055
  • 22. Ziółkowska A., Wyszkowski M. 2010. Toxicity of petroleum substances to microorganisms and plants. Ecological Chemistry and Engineerings, 17(1), 73–82
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c87e28db-abf6-4396-9056-ad10efd62bb9
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