Use of Probiotic Preparations in Waste Waters Cleaning of Agricultural Enterprises


The main cause of pollution of water basins is the discharge of untreated or insufficiently treated sewage into water bodies by industrial enterprises, utilities and agriculture. There are environmental problems in many enterprises of the country engaged in the production and processing of agricultural products. The article analyzes the results of research on the use of the Microbiological Cleaning System in model experiments. According to the results of model experiments, the optimal concentration of use of the drug was determined. Based on the results of the research, we propose the use of the Microbiological Purification System for pre-treatment of wastewater, even in the case of heavy pollution. Agriculture is an industry that is a source of environmental pollution. Purification of hazardous waste in enterprises can be accomplished through the introduction of biotechnology using probiotic preparations. The use of probiotics in the field of wastewater treatment is a relatively new direction that does not have much knowledge. The prospect of probiotic preparations for wastewater treatment is now being studied by many authors. As a result of the research, it was noted that the probiotic preparation intensifies the processes of biological wastewater treatment, which allows significantly reducing the intensity of odor and color of wastewater. As a result of the research conducted, the prospect of using probiotic preparations has been established.

[1] Guo, H., Luo, S., Chen, L. et al. (2010). Bioremediation of heavy metals by growing hyperaccumulaor endophytic bacterium Bacillus sp. L14. Bioresour. Technol., vol. 101, no. 22, p. 8599.

[2] Dongarra, M.L., Rizzello, V., Muccio, L. et al. (2013). Mucosal immunology and probiotics. Curr. Allergy Asthma Rep. vol. 13(1), pp. 19–26. DOI: 10.1007/s11882- 012-0313-0.

[3] Eremin, D.I. (2016). Changes in the Content and Quality of Humus in Leached Chernozems of the Trans- Ural Forest-Steppe Zone Under the Impact of their Agricultural use. Eurasian Soil Science, vol. 49, no. 5, pp. 538–545.

[4] Eremin, D., Eremina, D. (2016). Influence of Granulometric Composition Structure of Anthropogenicreformed Soil on Ecology of Infrastructure. Procedia Engineering, vol. 165, pp. 788–793.

[5] Ilinsky, A.V., Vinogradov, D.V., Gogmachadze, G.D. (2016). On the issue of improving the efficiency of work on the rehabilitation of technologically polluted land through the introduction of a modern integrated control system. AgroEcoInfo, no. 3. Retrieved from: STATYI/2016/3/st_320.doc

[6] Iglovikov, A. (2016). The Development of Artificial Phytocenosis in Environmental construction in the Far North. Procedia Engineering, vol. 165, pp. 800–805.

[7] Kiriy, O.A., Kolesnikov, S.I., Zinchuk, A.N. (2012). The use of the bacterial preparation Destroil in the elimination of contaminations of petroleum reservoirs with oil products. Scientific Journal KubSAU, no. 83(09).

[8] Kovaleva, O.V. (2018). Biotechnological products: opportunities and prospects of application. AgroEcoInfo, no. 4 (34), p. 2.

[9] Kovaleva, O., Sannikova, N. (2018) Use of Biotechnological Preparations in Pig Breeding. International scientific and practical conference “Agro-SMART – Smart solutions for agriculture” (Agro-SMART 2018). Advances in Engineering Research, vol. 151, pp. 383–390. DOI: 10.2991/agrosmart-18.2018.72

[10] Lilly D.M., Stillwell, R.H. (1965). Probiotics: growth-promoting factors produced by microorganisms. Science, no. 147(3659). pp. 747–748. DOI: 10.1126/science.147.3659.747

[11] Nasonkina, N.G,. Markin, V.V. (2017). Production research of the impact of probiotic means “OXIDOL” on wastewater treatment processes. Young Researcher of Don, no. 4(7), pp. 69–79.

[12] Nasonkina, N.G., Markin, V.V. (2014). Preliminary sewage treatment with probiotic agents. MOTROL. Commission of motorization and energetic in agriculture, vol. 16, no. 6, pp. 125–132 (Investigations of intensification of wastewater treatment using probiotic PIP PLUS WATER). Lublin: Polish Academy of Sciences.

[13] Polunina, O.N. (2007). Pollution of reservoirs by household chemicals. Ecology of Russia: on the way to innovations, interuniversity collection of scientific works, iss. 7, pp. 97–99.

[14] Sannikova, N.V., Kovaleva, O.V., Shulepova, O.V., Gogmachadze, G.D. (2018). Probiotic preparations in wastewater treatment. AgroEcoInfo, no. 4. Retrieved from: 2018/4/st_469.doc.

[15] Sannikova, N., Kovaleva, O. (2018). Segmental Vegetation in the Wheat Agrophytocenosis of the Northern Transural Region. International scientific and practical conference “Agro-SMART - Smart solutions for agriculture” (Agro-SMART 2018). Advances in Engineering Research, vol. 151, pp. 621– 3625. DOI: 10.2991/agrosmart-18.2018.116

[16] Schur, A.V., Vinogradov, D.V., Gogmachadze, G.D. (2016). Ecological features of soil microbiota under conditions of radioactive contamination of the territory of the Republic of Belarus when using biologically active preparations. AgroEcoInfo, no. 1(23).

[17] Qiu, J., Wei, Y., Ma, Y., Wen, R., Wen, Y., Liu, W. (2014). A novel (S)-6-hydroxynicotine oxidase gene from Shinella sp. strain HZN7. Appl. Environ. Microbiol., vol. 80, no. 18, p. 5552.