STUDY OF THE IMPACT OF PETROLEUM PRODUCTS ON SOIL MICROBIAL FLORA
DOI:
https://doi.org/10.26577/eb.2024.v98.i1.08Keywords:
rocket fuel, hydrocarbon, soil, fungi, microorganisms, bacteriaAbstract
The study is devoted to assessing the influence of various concentrations of hydrocarbon rocket fuels in the soil, expressed in the quantitative and qualitative composition of the main representatives of the soil biocenosis and enzyme activity. For this purpose, microbiological studies of the qualitative and quantitative composition of soil microflora were carried out in 11 soil samples treated with rocket hydrocarbon fuel grades T-1 and RG-1, with codes K1, T-1-1, T-1-2, T-1 -3, T-1-4, T-1-5, RG-1-1, RG-1-2, RG-1-3, RG-1-4, RG-1-5. As a result of scientific research, in most experimental groups there was a decrease in the number of the main soil representatives of microorganisms, which may be a consequence of exposure to hydrocarbons.
References
H. Ben Ayed, N. Jemil, H. Maalej, A. Bayoudh, N. Hmidet, and M. Nasri. Enhancement of solubilization and biodegradation of diesel oil by biosurfactant from Bacillus amyloliquefaciens An6 // International Biodeterioration and Biodegradation. – 2015. - Vol. 99. - Р. 8-14.
A. M. A. Essabri, N. P. Aydinlik, and N. E. Willia. Bioaugmentation and biostimulation of total petroleum hydrocarbon degradation in a petroleum-contaminated soil with fungi isolated from olive oil effluent // Water, Air, and Soil Pollution. – 2019. - Vol. 230, No. 76. - Р. 1–16.
S. K. Singh and A. K. Haritash. Polycyclic aromatic hydrocarbons: soil pollution and remediation // International journal of Environmental Science and Technology. – 2019. - Vol. 16, No. 10. - Р. 6489-6512.
S. Varjani and V. N. Upasani. Influence of abiotic factors, natural attenuation, bioaugmentation and nutrient supplementation on bioremediation of petroleum crude contaminated agricultural soil // Journal of Environmental Management. – 2019. - Vol. 245. - Р. 358-366.
K. Prathyusha, Y. S. Y. V. Jagan Mohan, S. Sridevi, and B. V. Sandeep. Isolation and characterization of petroleum hydrocarbon degrading indigenous bacteria from contaminated sites of Visakhapatnam // International Journal of Advanced Research. – 2016. - Vol. 4. - No. 3. - Р. 357-362.
X. Xu, W. Liu, S. Tian et al. Petroleum hydrocarbon-degrading bacteria for the remediation of oil pollution under aerobic conditions: a perspective analysis // Frontiers in Microbiology. – 2018. - Vol. 9. – Р. 1-11.
H. Rhbal, S. Souabi, M. Safi et al. Soils bioremediation of hydrocarbons and green waste elimination through composting process // International Journal of Environmental Monitoring and Analysis. – 2014. - Vol. 2. - No. 6. - Р. 13–22.
M. Chen, P. Xu, G. Zeng, C. Yang, D. Huang, and J. Zhang. Bioremediation of soils contaminated with polycyclic aromatic hydrocarbons, petroleum, pesticides, chlorophenols and heavy metals by composting: applications, microbes and future research needs // Biotechnology Advances. – 2015. - Vol. 33. - No. 6. - Р. 745–755.
D. K. Chaudhary and J. Kim. New insights into bioremediation strategies for oil-contaminated soil in cold environments // International Biodeterioration and Biodegradation. – 2019. - Vol. 142. - Р. 58–72.
S. Sihag, H. Pathak, and D. P. Jaroli. Factors affecting the rate of biodegradation of polyaromatic hydrocarbons // International Journal of Pure and Applied Bioscience. – 2014. - Vol. 2. - No. 3. - Р. 185–202.
G. Zafra, R. Regino, B. Agualimpia, and F. Aguilar. Molecular characterization and evaluation of oil degrading native bacteria isolated from automotive service station oil contaminated soils // Chemical Engineering Transactions. – 2016. - Vol. 49. - P. 511–516.
Labud, C. Garcia, T. Hernandez. Effect of hydrocarbon pollution on the microbial properties of a sandy and a clay soil // Chemosphere. – 2007. - Vol. 66. - Р. 1863-1871.
Киреева Н.А., Галимзянова А.М., Мифтахова А.М. Микромицеты почв, загрязненных нефтью, и их фитотоксичность // Микология и фитопатология. – 2000. – Т. 34. – №. 1. – С. 36–41.
B. M. Macaulay. Understanding the behavior of oil degrading microorganisms to enhance the microbial remediation of spilled Petroleum // Applied Ecology and Environmental Research. – 2014. - Vol. 13. - No. 1. - Р. 247–262.
S. J. Varjani. Microbial degradation of petroleum hydrocarbons // Bioresource Technology. – 2017. - Vol. 223. - Р. 277–286.
Alamri S.A. Development and application of a microbiologically based tool kit to predict and monitor petroleum hydrocarbon bioremediation (Ph.D. thesis) // University of Aberdeen. - 2006.
M.T. Balba, N. Al-Awadhi, R. Al-Daher. Bioremediation of oil-contaminated soil: microbiological methods for feasibility assessment and field evaluation // J. Microbiol. Methods. – 1998. - Vol. 32. - Р. 155-164.
O.C. Turgay, E.E. Erdogan, A. Karaca. Effect of humic deposit (leonardite) on degradation of semi-volatile and heavy hydrocarbon and soil quality in crude-oil contaminated soil // Environ. Monit. Assess. – 2010. Vol. 170. - Р. 45-58.
A. Serrano, M. Tejada, M. Gallego, J.L. Gonzalez. Evaluation of soil biological activity after a diesel fuel spill // Sci. Total Environ. – 2009. - Vol. 407. - Р. 4056-4061.
J.J.C. Dawson, E.J. Godsiffe, I.P. Thompson, T.K. Ralebitso-Senior, K.S. Killham, G.I. Paton. Application of biological indicators to assess recovery of hydrocarbon impacted soils // Soil Biol. Biochem. – 2007. - Vol. 39. - Р. 164-177.
F. Camiña, C. Trasar-Cepeda, F. Gil-Sotres, C. Leirós. Measurement of dehydrogenase activity in acid soils rich in organic matter // Soil Biol. Biochem. – 1998. - Vol. 30. - Р. 1005-1011.
L.J. Shaw, R. Burns. Enzyme activity profiles and soil quality // Microbiological Methods for Assessing Soil Quality, CABI Publishing, Cambridge, MA. – 2006. - Vol. 21. Р. 158-182.
Хазиев Ф.Х. Функциональная роль ферментов в почвенных процессах // Вестник Академии наук Республики Башкортостан. 2015. №2 (78). – С. 14-24.
Безуглова О.С., Наими О.И., Полиенко Е.А., Лыхман В.А., Дубинина М.Н., Поволоцкая Ю.С., Патрикеев Е.С. Ферментативная активность чернозема обыкновенного при разложении соломы в почве // Успехи современного естествознания. – 2019. – № 12-2. – С. 199-204.
Куликова А.Х., Антонова С.А., Козлов А.В. Ферментативная активность почвы в зависимости от системы удобрения // Вестник Ульяновской государственной сельскохозяйственной академии. 2017. № 4 (40). С. 36–43.
