«IZVESTIYA IRKUTSKOGO GOSUDARSTVENNOGO UNIVERSITETA». SERIYA «BIOLOGIYA. ECOLOGIYA»
«THE BULLETIN OF IRKUTSK STATE UNIVERSITY». SERIES «BIOLOGY. ECOLOGY»
ISSN 2073-3372 (Print)

List of issues > Series «Biology. Ecology». 2020. Vol. 31

New Biological Means for the Remediation of Oil-Contaminated Soil

Author(s)
N. V. Fomicheva, G.Yu. Rabinovich, Yu. D. Smirnova, A. E. Filonov
Abstract

The All-Russian Scientific Research Institute of Reclaimed Lands has developed organic solid-phase biologic means for crop production and agriculture – multi-purpose compost (KMN) and fermentation product (PF). A characteristics of KMN and PF allows them to be use for bioremediation of oil-contaminated soil as activators of the native microflora and as sorbents of strains of oil destructive microorganisms. As source of oil destructing microorganisms the MikroBak preparation was used. Suspensed MikroBak was added to the PF and KMN in the process of their production – at the stage of ripening, based on the final content of oil destructors in the soil 105 CFU / 1 g of soil. It was established that three days after the MikroBak introduction, samples of solid-phase biological means had the highest microbiological activity, in particular, the number of microorganisms utilizing oil increased 2.5–7.5 times. To study the effectiveness of new biological means for remediation of oil-contaminated soils, a model experiment lasting 4 months was laid. Sod-podzolic light loamy soil was artificially contaminated with oil at the rate of 5 % of oil pollution, taking into account the mass of applied biological means. New biological means, prepared both on the basis of PF and MikroBak, and on the basis of KMN and MikroBak, combine two methods of bioremediation – stimulation of native microorganisms and the introduction of active microorganisms-destructors. After 2 weeks from the start of the experiment, the greatest destruction of oil was revealed in the variants using new biological means based on KMN and MikroBak, as well as PF and MikroBak – 29.8 and 24.3 %, respectively. In a month, the maximum destruction was observed in the variant with the use of the MikroBak – 36 %. At the end of the experiment, the degree of oil destruction and the number of microorganisms utilizing crude oil were in a linear relationship, the correlation coefficient r = 0.76. It was established that the use of the MikroBak biopreparation at the stage of maturation of the PF contributed to obtaining the most optimal, effective biological mean, which in 4 months provided a degree of oil destruction of 60.6 %.

About the Authors

Fomicheva Natalia Viktorovna, Candidate of Sciences (Biology), Senior Research Scientist, V.V. Dokuchaev Soil Science Institute, p. 2, 7, Pyzhevsky Ln., Moscow, 119017, Russian Federation, e-mail: nvfomi@mail.ru 

Rabinovich Galina Yurievna, Doctor of Sciences (Biology), Professor, Branch Manager, V.V. Dokuchaev Soil Science Institute, p. 2, 7, Pyzhevsky Ln., Moscow, 119017, Russian Federation, e-mail: 2016vniimz-noo@list.ru 

Smirnova Yulia Dmitrievna, Candidate of Sciences (Biology), Senior Researcher, V.V. Dokuchaev Soil Science Institute, p. 2, 7, Pyzhevsky Ln., Moscow, 119017, Russian Federation, e-mail: ulayad@yandex.ru 

Filonov Andrei Evgen'evich, Doctor of Sciences (Biology), Associate Professor, Leading Research Scientist, G. K. Skryabin Institute of Biochemistry and Physiology of Microorganisms, Pushchino Scientific Center for Biological Research RAS, 5, Science Av., Pushchino, 142290, Russian Federation, e-mail: filonov.andrey@rambler.ru

For citation

Fomicheva N.V., Rabinovich G.Yu., Smirnova Yu.D., Filonov A.E. New Biological Means for the Remediation of Oil-Contaminated Soil. The Bulletin of Irkutsk State University. Series Biology. Ecology, 2020, vol. 31, pp. 19-29. https://doi.org/10.26516/2073-3372.2020.31.19 (in Russian)

Keywords
bioremediation, oil, multi-purpose compost (KMN), fermentation product (PF), MikroBak preparation, soil, degree of destruction, microorganisms
UDC
602.4:631.427:579.6
DOI
https://doi.org/10.26516/2073-3372.2020.31.19
References

Akhmedov V.A. Issledovanie ekologicheskoi obstanovki neftedobyvayushchikh i tekhnogennorazrushennykh territorii yugo-zapadnoi chasti Apsheronskogo poluostrova Azerbaidzhana [Study of Environmental State of Oil Production and Technogenic Disturbed Areas in the South-Western Absheron Peninsula in Azerbaijan]. Nauch. zhurn. RosNIIPM [Scientific Journal of RosNIIPM], 2016, no. 4 (24), pp. 86-99. (in Russian)

Balandin D.A., Pytkin A.N., Tarasov N.M. Kompleksnoe primenenie biotekhnologii v dostizhenii ustoichivogo razvitiya selskikh territorii regiona [Integrated Application of Biotechnology in Achieving Sustainable Development of Rural Areas of the Region]. Yekaterinburg, Inst. Econ. UB RAS Publ., 2014. 116 p. (in Russian)

Granina N.I., Vasil'ev M.V. Problema otsenki neftezagryazneniya pochv v Irkutskom regione [Problem of Assessing of Soil Petropollution in Irkutsk Region]. Bull. Irkutsk St. Univ. Series Biology. Ecology, 2014, vol. 8, pp. 67-71. (in Russian)

Drugov Yu.S., Rodin A.A. Analiz zagryaznennoi pochvy i opasnykh otkhodov [Analysis of Contaminated Soil and Hazardous Waste]. Moscow, BINOM. Lab. znanij Publ., 2007, 424 p. (in Russian)

Kruglov Yu.V., Kandybin N.V., Laptev G.Yu. Biopreparaty v sel'skom khozyaistve. (Metodologiya i praktika primeneniya mikroorganizmov v rastenievodstve i kormoproizvodstve) [Biological Products in Agriculture. (Methodology and Practice of Using Microorganisms in Crop Production and Feed Production)]. Moscow, Rosselkhozakademiya Publ., 2005, 153 p. (in Russian)

Kurochkina G.N., Shkidchenko A.N., Amelin A.A. Vliyanie novogo biopreparata na remediatsiyu neftezagryaznennoi seroi lesnoi pochvy [The Effect of a New Biopreparation on the Remediation of Oil-Contaminated Gray Forest Soil]. Eurasian Soil Sci., 2004, no. 10, pp. 1241-1249. (in Russian)

Kuznetsov A.E., Gradova N.B., Lushnikov S.V., Engelhardt M. Prikladnaya ekobiotekhnologiya [Applied Ecobiotechnology: Textbook, vol. 1]. BINOM. Lab. znanii Publ., 2012. 629 p. (in Russian)

Rabinovich G.Yu. Nauchnye osnovy, opyt prodvizheniya i perspektivy biotekhnologicheskikh razrabotok [Scientific Base, Experience of Promotion and Prospects of Biotechnological Developments]. Tver, Tver St. Univ. Publ., 2016, 196 p. (in Russian)

Balandina A.V., Eremchenko O.Z., Odegova T.F., Kuznetsov D.B. Rezultaty issledovanii po remediatsii dernovo-kaobonatnykh pochv [Results of Investigation for Remediations of Sod-Calcareous Soils]. Fundam. issled. [Fundamental Research], 2013, no. 10, pp. 95-99. (in Russian)

Sokolov S.N., Khadaev I.R. Vliyanie biopreparatov na snizhenie ostatochnoi kontsentratsii uglevodorodov nefti v pochve [Influence of Biological Products on the Reduction of the Residual Concentration of Oil Hydrocarbons in Soils]. Mezhdunar. nauch.-issled. zhurn. [Int. Res. J.], 2017, no. 06 (60), pp. 130-136. https://doi.org/10.23670/IRJ.2017.60.012 (in Russian)

Tihonova T.V. Vliyanie tekhnogennoi nagruzki na ekologicheskuyu emkost' priarkticheskikh territorii respubliki Komi [Effect of Anthropogenic Impact on Ecological Capacity of the Arctic Territories of the Republic of Komi]. Arktika: ekologiya i ekonomika [Arctic: Ecology and Economy], 2016, no. 3 (23), pp. 108-115. (in Russian)

Fedorova O.S., Ryazanova T.V. Dinamika mikrobiotsenoza geterotrofov v model'nykh opytakh s primeneniem biosorbenta na osnove smeshannoi bakterial'noi kul'tury [Dynamics of Heterotrophs Microbiocenosis in Model Experiments With Application of Biosorbent on Basis of Mixed Bacterial Culture]. Sistemy. Metody. Tekhnologii. [Systems. Methods. Technologies.], 2017, no. 1 (33), pp. 157-164. (in Russian)

Sayara T., Borras E., Caminal G., Sarra M., Sanchez A. Bioremediation of PAHs-Contaminated Soil Through Composting: Influence of Bioaugmentation and Biostimulation on Contaminant Biodegradation. Int. Biodeterioration & Biodegradation, 2011, vol. 65, pp. 859-865. https://doi.org/10.1016/j.ibiod.2011.05.006 

Lebkowska M., Zborowska E., Karwowska E., Miaskiewicz-Pęska E., Muszynski A., Tabernacka A., Naumczyk J., Jęczalik M. Bioremediation of soil polluted with fuels by sequential multiple injection of native microorganisms: Field-scale processes in Poland. Ecol. Engin., 2011, vol. 37 (11), pp. 1895-1900. https://doi.org/10.1016/j.ecoleng.2011.06.047

Dar M.R. Oil Spills and their Effect on the Properties of Soil. Int. J. Res. Appl. Sci. Engin. Technol., 2019, vol. 7(11), pp. 780-784. https://doi.org/10.22214/ijraset.2019.11130

Introduction to Enhanced Oil Recovery (EOR) Processes and Bioremediation of Oil-Contaminated Sites. Romero-Zeron L. (ed.). Shanghai, InTech, 2012, 318 p. 


Full text (russian)