Identyfikatory
Warianty tytułu
Języki publikacji
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The objective of this work is the agroecological substantiation of the use of treated wastewater for irrigation of agricultural land. As the result of the experimental research, it was established that the soil microflora plays an essential role in strengthening or weakening the biological activity of soil. Therefore, with an irrigation rate of 250 m3/ha of wastewater, a 1.5 times increase in the number of microbiota colonies is observed on average both in hog farms and cattle breeding complexes; with a rate of 350 m3/ha – a 2-fold increase; with a rate of 450 m3/ha – a 3.5–4-fold increase. An increase in nitrifying soil features has also been observed. Thus, if the value on the control in the soil layer from 0 cm to 60 cm is 27.2 mg of nitrate per 1 kg of arid soil, in the version with wastewater irrigation it reaches 46.7 mg. According to the research results, the use of defecate, the waste of sugar production, in the treatment of wastewater of livestock farms does not have a negative agroecological impact on the soil. Therefore, the method of wastewater treatment of pig-breeding complexes and farms can be recommended for use in irrigation reclamation, which includes treatment of wastewater with burnt defecate in the dose of 50–200 mg/dm3, with the pH value varying in the range of 7.5–8.5. After settling-out of the obtained mixture in settlers, it is divided into a transparent liquid fraction and the sediment, i.e. an organomineral fertilizer. Afterwards, the fluid body is fed to irrigation of agricultural land, and its excess is discharged into waterways and reservoirs. The sediment is fed to the vortex layer equipment with mobile ferromagnetic particles or thermolized, where their complete disinfection takes place.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
48--54
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
autor
- Russian Research Institute of Land Improvement Problems, 190, Baklanovskiy Ave., 346421, Novocherkassk, Russian Federation
autor
- Russian Research Institute of Land Improvement Problems, 190, Baklanovskiy Ave., 346421, Novocherkassk, Russian Federation
Bibliografia
- 1. Becerra-Castro, C., Lopes, A.R., Vaz-Moreira, I., Silva, E.F., Manaia, C.M., Nunes, O.C. 2015. Wastewater reuse in irrigation: A microbiological perspective on implications in soil fertility and human and environmental health. Environment International, 75, 117-135. https://doi.org/10.1016/j.envint.2014.11.001
- 2. da Fonseca A. F., Melfi, A.J., Monteiro, F.A., Montes, S.R., de Almeida, V.V., Herpin, U. 2007. Treated sewage effluent as a source of water and nitrogen for Tifton 85 bermudagrass. Agricultural Water Management, 87(3), 328-336. https://doi.org/10.1016/j.agwat.2006.08.004
- 3. Domashenko, Yu. E., Doroshko, V.N. 2010. Method of preparing livestock wastewater for agricultural use: pat. 2379236, Russian Federation, IPC С 02 F 1/58 /– No. 2009114816/05; appl. June 6, 2008; publ. January 20, 2010, Bul. No. 2.
- 4. Domashenko, Yu. E., Surzhko, O. A. 2009. Method of preparing liquid wastes of cattle-breeding farms for the cultivation of cattle for agricultural use: patent 2350571, Russian Federation, IPC C 02 F11/14, C 02 F1/52. No. 2007127042/15; appl. July 16, 2007; publ. March 27, 2009, Bul. No. 9.
- 5. Domashenko, Yu.E. 2009. Reduction of negative influence of water wash-out products from pigbreeding farms on natural ecosystems. Ecology and Industry of Russia, 10, 44-45.
- 6. Domashenko, Yu.E., Vasilyev, S.M. 2015. Technology for the preparation of livestock wastewater for irrigation of agricultural crops. Polythematic online scientific journal of Kuban State Agrarian University, 106(02), 568-579.
- 7. Eliseeva, D. V. 2015. Protection of the environment from the negative impact of economic activity. Novosibirsk, SibAK.
- 8. El-Nahhal, Y., Tubail, K., Safi, M., Safi, J. 2013. Effect of Treated Waste Water Irrigation on Plant Growth and Soil Properties in Gaza Strip, Palestine. American Journal of Plant Sciences, 4(9), 1736-1743. doi: 10.4236/ajps.2013.49213.
- 9. Feigin, A., Ravina, I., Shalhevet, J. 1991. Irrigation with treated sewage effluent. SpringerVerlag. Berlin.
- 10. Glotov, I.I. 1987. Use of secondary resources in the agroindustrial complex. Moscow, Rosselkhozizdat.
- 11. Gostishchev, P. 1994. Technique and technology of irrigation of wastewater with regard to environmental protection. Doctoral dissertation (in the form of a scientific report). Moscow, VNIIGiM.
- 12. Khaskhoussy, K., Kahlaoui, B., Messoudi Nefzi, B., Jozdan, O., Dakheel, A., Hachicha, M. 2015. Effect of Treated Wastewater Irrigation on Heavy Metals Distribution in a Tunisian Soil. Engineering, Technology & Applied Science Research, 5(3), 805-810. http://doi.org/10.5281/zenodo.18803.
- 13. Mineev, V.G. 2001. Practical course on agrochemistry. Moscow: Moscow State University.
- 14. Mishustin, E.M., Emtsev, V.T. 1987. Microbiology. Moscow, Agropromizdat.
- 15. Mosse, K.P.M., Patti, R. A.F., Smernik, J., Christen, E.W., Cavagnaro, T.R. 2012. Physicochemical and microbiological effects of long-and short-term winery wastewater application to soils. Journal of Hazardous Materials, 201, 219-228.
- 16. Palacios, O. A., Contreras, C.A., Munoz-Castellanos, L. N., Gonzalez-Rangel, M. O., Rubio-Arias, H., Palacios-Espinosa, A., Nevarez-Moorillon, G.V. 2017. Monitoring of indicator and multidrug resistant bacteria in agricultural soils under different irrigation patterns. Agricultural Water Management, 184, 19-27.
- 17. Perepelitsa, A.P., Ishchenko, V.N., Samchuk, A.I. 2014. Defecation of sugar production: processing areas. Sugar, 2, 41-42.
- 18. Qian, Y. L., Mecham, B. 2005. Long-term effects of recycled wastewater irrigation on soil chemical properties on golf course fairways. Agronomy Journal, 97(3), 717-721.
- 19. Shchedrin, V.N., Vasiliev, S.M. 2011. Theory and practice of alternative types of irrigation of chernozems in the south of the European territory of Russia: monograph. Novocherkassk, Lik.
- 20. State report “On the state and protection of the environment of the Russian Federation in 2015”. 2016. Moscow, Ministry of Natural Resources and Environment of the Russian Federation; NIA-Nature.
- 21. Surzhko, O.A., Domashenko, Yu. E. 2009. Method of preparing liquid wastes of pig farms for agricultural use: pat. 2424985, Russian Federation, IPC C 02 F 9/12, C 02 F 1/52 / – No. 2008122872/15; appl. April 13, 2009; publ. October 20, 2010, Bul. No. 29.
- 22. Tepper, E.Z., Shilnikova, V.K., Pereverzeva, G.I. 1979. Practical course on microbiology. Moscow, Kolos.
- 23. Zahida, M., Moore, G.A., Wrigley, R.J. 2011. Soil salinity and sodicity effects of wastewater irrigation in South East Australia. Agricultural Water Management, 99(1), 33-41.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c8eaadec-cdf0-4799-a987-5f9f7d653517