1. Cycoń, M., Piotrowska-Seget, Z., Kaczyńska, A., & Kozdrój, J. (2006). Microbiological characteristics of a sandy loam soil exposed to tebuconazole and λ-cyhalothrin under laboratory conditions. Ecotoxicology, 15, 639-646. 2. Zakharenko, V. A., & Zakharenko, V. (2007). Weed control in grain crops. Plant protection and quarantine, 2, 98-120 (in Russian). 3. Semyonova, N. N. (2007). Monitoring of pesticides in the soil of agrobiocenoses. Plant protection and quarantine, 2, 14-18 (in Russian). 4. Dvoryankin, E. A. (2003). Herbicides and the quality of agricultural products. Sugar beet, 5, 23-24 (in Russian). 5. Kulikova, N. A., & Lebedeva, G. F. (2010). Herbicides and ecological aspects of their application. LIBROKOM (in Russian). 6. Burkhan, O. P., & Krivorotov, S. B. (2009, April). Influence of herbicides on the biological activity of soils. In Fundamental and applied research in the agro-industrial complex at the present stage of development of chemistry: materials of the II Intern. internet conf (pp. 67-70) (in Russian). 7. Popov, S. Ya., Dorozhkina, L. A., & Kalinin, V. A. (2003). Fundamentals of chemical plant protection. Moscow: Art Lyon (in Russian). 8. Martinez, C. O., Silva, C. M. M. S., Fay, E. F., Abakerli, R. B., Maia, A. H. N., & Durrant, L. R. (2007). Degradation of 2, 4-D herbicide by microorganisms isolated from Brazilian contaminated. Brazilian Journal of Microbiology, 38, 522-525. 9. Bakulin, M. K., Ovsyannikov, Yu. S., Tumanov, A. S., & Bakulin, V. M. (2014). Degradation of the herbicide glyphosate by bacteria of the genera Pseudomonas and Proteus. Basic Research, 8, 1377-1382 (in Russian). 10. Rogozin, M. Yu., & Beketova, E. A. (2018). Ecological consequences of the use of pesticides in agriculture. Young Scientist, 25, 39-43 (in Russian). 11. Xu, S., Zhou, S., Ma, S., Jiang, C., Wu, S., Bai, Z., Zhuang, B. & Zhuang, X. (2017). Manipulation of nitrogen leaching from tea field soil using a Trichoderma viride biofertilizer. Environmental Science and Pollution Research, 24, 27833-27842. 12. Martynov, A. N., Belyaeva, N. V., & Grigorieva, O. I. (2008). Modern problems of forest growing. Chemical and complex forest care. St-Petersburg: LTA (in Russian). 13. Saratovskikh, E. A., Kozlova, N. B., Papin, V. G., & Strain, E. V. (2006). Decomposition of the herbicide Lontrel by biological and photochemical methods. Applied Biochemistry and Microbiology, 42, 44-51 (in Russian). 14. Vershinin, N. O., Chaikovskaya, O. N., Karetnikova, E., & Sokolova, I. V. (2013). Degradation of herbicide 2,4-D and 2,4-dichlorophenol in water under the action of ultraviolet radiation from excilamps. Water: chemistry and ecology, 4, 84-91 (in Russian). 15. Ignatovets, O. S., & Leontiev, V. N. (2008). Mechanism of degradation of prometrin by bacteria of the genus Pseudomonas. In Reports of the National Academy of Sciences of Belarus 52, 82-86 (in Russian). 16. Kononova, S. V., & Nesmeyanova, M. A. (2002). Phosphonates and their degradation by microorganisms. Biochemistry (Moscow), 67, 184-195. 17. Gorina, I. N., & Patalaha, L. M. (2013). Degradation of soil herbicides in sunflower crops. Plant protection and quarantine, 6, 21-22 (in Russian). 18. Netrusov, A. I., Egorova, M. A., & Zakharchuk, L. M. (2005). Workshop on microbiology. Moscow: Akademiya (in Russian). 19. Bergey, D. H. (1994). Bergey's manual of determinative bacteriology. Lippincott Williams & Wilkins. 20. Smybert P, K. H. (1984). book: Methods of general bacteriology. Ed. F. Gerhardt and others. Moscow: Mir (in Russian).