Waste Management Strategy of Agricultural Enterprises to Improve the Efficiency of Rural Development
Abstract
In the context of modern trends in the greening of the economy, sustainable development, changes in the structure of agricultural production, and the situation that has developed in Kazakhstan with the accumulation, utilization, and disposal of waste, the issues of agricultural waste management remain relevant and require further scientific research and sound practical solutions. The purpose of the article is to form strategic directions for waste management of agricultural enterprises, where the main place is occupied by effective waste management in the context of crop production, animal husbandry, animal tissue, and agrochemical waste. The article presents the principles of a Waste Management Strategy of agricultural enterprises, and a tree of objectives of the Strategy of agricultural enterprises is formed. The features of effective management of agricultural waste, including plant and animal waste, and directions for effective management of agrochemical waste are determined. Reduction of soil and groundwater pollution in the implementation of effective waste management of agricultural enterprises, as well as measures to minimize the formation of agricultural waste, are summarized. The main measures in state incentives for the effective management of agricultural waste are identified.
References
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[30] Sammoudi, R., et al. 2023. Bacteriological quality status of spring waters from the Taanzoult plain (Aguelmam Sidi Ali Wetland, Morocco). Journal of Ecological Engineering, 24(4): 184-91. DOI:https://doi.org/10.12911/22998993/159634
[31] Seidakhmetova, A., et al. 2022. Development of ecosystem stability as a tool for managing agricultural areas in the Republic of Kazakhstan: Problems and opportunities for their resolution. Journal of Environmental Management and Tourism, 13(7): 1993-2001. DOI: https://doi.org/10.14505/jemt.v13.7(63).19
[32] Shamtsyan, M.M., Kolesnikov, B.A., Klepikov, A.A. and Kasyan, O.V. 2011. Biotechnological processing of agricultural and food industry waste. Rossiiskii khimicheskii zhurnal, 55(1): 17-25. (in Russian)
[33] Shevchenko, T.I., Solyanik, O.N. and Vishnitskaya, E.I. 2013. Waste management practices in developed countries. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta, 2(47): 17-24. (in Russian)
[34] Siben, A.N., and Nikonov, A.A.2022. Reindeer infestation with Cysticercus Tarandi in the tundra of Yamalia, Russia. American Journal of Animal and Veterinary Sciences, 17(4): 307-13. DOI:https://doi.org/10.3844/ajavsp.2022.307.313
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[37] Zhang, Z., Gonzalez A.M., Davies, E.G.R. and Liu, Y. 2012. Agricultural wastes. Water Environment Research, 84(10): 1386-406.
[38] Pesticide Action Network International. 2009. PAN International List of Highly Hazardous Pesticides (PAN HHP List). Hamburg. Available at: http://www.pan-germany.org/download/PAN_HHP-list_russ_100301.pdf
[2] Asim, N., et al. 2015. Agricultural solid wastes for green desiccant applications: an overview of research achievements, opportunities and perspectives. Journal of Cleaner Production, 91: 26-35.
[3] Bayazitova, Z.E., Kurmanbayeva, A.S., Tleuova, Z.O. and Temirbekova, N.G. 2023. Application of the thermophilic fermentation method to obtain environmentally friendly organic fertilizer. Journal of Ecological Engineering, 24(4): 202-16. DOI: https://doi.org/10.12911/22998993/159647
[4] Bezpalov, V.V., et al. 2023. Relationship between complex integration indices and inflation indicators and their impact on the development of regional cooperation between countries to reduce the level of inflationary risks: Case of the SCO member countries. Risks 11(1): 5. DOI: https://doi.org/10.3390/risks11010005
[5] Bruun, S., et al. 2006. Application of processed organic municipal solid waste on agricultural land - A scenario analysis. Environmental Modelling and Assessment, 3: 251-65.
[6] Foo, K.Y., and Hameed, B.H. 2009. Utilization of rice husk ash as novel adsorbent: A judicious recycling of the colloidal agricultural waste. Advances in Colloid and Interface Science, 1-2: 39-47.
[7] Ghisellini, P., Cialani, C. and Ulgiati, S. 2014. Review on circular economy: The expected transition to a balanced interplay of environmental and economic systems. Journal of Cleaner Production, 114: 11-32.
[8] Grigoruk, V.V. 2019. Trends in organic diversification of agriculture in the world, developed countries and Kazakhstan. Problemy agrorynka, 3: 18-26. (in Russian)
[9] Ibatullin, U.G., Shatokhin, V.I. and Panchenko, I.P. 2014. A systematic approach to solving the problems of agro-industrial waste. Ekologicheskii vestnik Rossii, 6: 38-42. (in Russian)
[10] Isrun, U. 2021. Reduction in the emission rate of greenhouse gases and the increase in crop production by using compost on marginal land. International Journal of Design & Nature and Ecodynamics, 16(5): 583-91. DOI: https://doi.org/10.18280/ijdne.160513
[11] Ivanova, N.N., Ivanov, D.I., Zamotaeva, N.A. and Nedayborshch, J.N. 2022. Influence of the after effect of the main tillage methods on the water properties of the alluvial soil. Research on Crops, 23(1): 119-25. DOI:https://doi.org/10.31830/2348-7542.2022.017
[12] Jędrczak, A. 2018. Composting and fermentation of biowaste - Advantages, and disadvantages of processes. Civil and Environmental Engineering Reports, 28(4): 72-87.
[13] Kamenik, L.L. 2013. General directions of the Waste Management Strategy. Ekonomika i upravlenie, 12(98): 62-5. (in Russian)
[14] Kashina, E., et al. 2022. Impact of digital farming on sustainable development and planning in agriculture and increasing the competitiveness of the agricultural business. International Journal of Sustainable Development and Planning, 17(8): 2413-20. DOI: https://doi.org/10.18280/ijsdp.170808
[15] Khoruzhy, L.I., et al. 2022. Adaptive management reporting system in inter-organizational relations of agricultural enterprises according to ESG principles. Journal of Infrastructure, Policy and Development, 6(2): 1649. DOI: http://dx.doi.org/10.24294/jipd.v6i2.1649
[16] Khoruzhy, L.I., et al. 2023. Opportunities for the application of a model of cost management and reduction of risks in financial and economic activity based on the OLAP technology: The case of the agro-industrial sector of Russia. Risks, 11(1): 8. DOI: https://doi.org/10.3390/risks11010008
[17] Kolga, D.F., and Kazarovets, N.V. 2014. New Technologies and Technical Means of Manure Disposal at Livestock Farms and Complexes]. Minsk: BGATU, 144 p. (in Russian)
[18] Kuldybayev, N., et al. 2021. Effects of root rot in soybean cultivars with diverse susceptibility to the disease on plant physiology, yield, amino acids and mycotoxins profile in climatic conditions of Kazakhstan. OnLine Journal of Biological Sciences, 21(4): 312-21. DOI: https://doi.org/10.3844/ojbsci.2021.312.321
[19] Kulshikova, E., Zhayliev, A., Yerekeshova, A. and Kalieva, S. 2023. Evaluation of solar radiation and atmospheric air during hay harvesting in Kazakhstan. OnLine Journal of Biological Sciences, 23(1): 65-70. DOI: https://doi.org/10.3844/ojbsci.2023.65.70
[20] Kuznetsova, N.A., and Zinich, L.V. 2021a. Recycling of crop waste as a factor in improving the efficiency of agricultural enterprises. Biznes. Obrazovanie. Pravo, 1(54): 210-4. (in Russian)
[21] Kuznetsova, N.A., and Zinich, L.V. 2021b. Recycling of waste as a factor in the sustainable development of agricultural enterprises. Fundamentalnye issledovaniya, 11: 120-4. (in Russian)
[22] Lansing, S., Martin, J.F. and Botero, R.B. 2006. Waste treatment and biogas quality in small-scale agricultural digesters. Bioresource Technology, 13: 5881-90.
[23] Mamin, R.G., Vetrova, T.P. and Shilova, L.A. 2013. Innovative Waste Management Mechanisms. Moscow: MSUCE, 136 p. (in Russian)
[24] Martirosyan, A.V., Ilyushin, Y.V. and Afanaseva, O.V. 2022. Development of a distributed mathematical model and control system for reducing pollution risk in mineral water aquifer systems. Water, 14: 151. DOI:https://doi.org/10.3390/w14020151
[25] Mustafayeva, B., et al. 2019. The impact of agricultural environmental pollutions on the population’s quality of life. The experience of Kazakhstan. Journal of Environmental Management and Tourism, 10(1): 161-70. DOI:https://doi.org/10.14505//jemt.10.1(33).16
[26] Mustafina, V.V., Dushkina, Yu.N., Argynbaeva, E.M. and Gor., N.V. 2020. Highly hazardous pesticides in Kazakhstan: Current situation and recommendations for minimizing negative impacts. Khimicheskaya bezopasnost, 4(1): 236-47. (in Russian)
[27] Omodero, C.O. 2021. Fiscal decentralization and environmental pollution control. International Journal of Sustainable Development and Planning, 16(7): 1379-84. DOI: https://doi.org/10.18280/ijsdp.160718
[28] Polushkina, T., et al. 2020. Development of organic agriculture in the European Union member states: The role of public-private partnership. Journal of Environmental Management and Tourism, 11(5): 1081-94.
[29] Salkhozhayeva, G.M., Abdiyeva, K.M., Arystanova, Sh.Y. and Ultanbekova, G.D. 2022. Technological process of anaerobic digestion of cattle manure in a bioenergy plant. Journal of Ecological Engineering, 23(7): 131-42. DOI: https://doi.org/10.12911/22998993/149516
[30] Sammoudi, R., et al. 2023. Bacteriological quality status of spring waters from the Taanzoult plain (Aguelmam Sidi Ali Wetland, Morocco). Journal of Ecological Engineering, 24(4): 184-91. DOI:https://doi.org/10.12911/22998993/159634
[31] Seidakhmetova, A., et al. 2022. Development of ecosystem stability as a tool for managing agricultural areas in the Republic of Kazakhstan: Problems and opportunities for their resolution. Journal of Environmental Management and Tourism, 13(7): 1993-2001. DOI: https://doi.org/10.14505/jemt.v13.7(63).19
[32] Shamtsyan, M.M., Kolesnikov, B.A., Klepikov, A.A. and Kasyan, O.V. 2011. Biotechnological processing of agricultural and food industry waste. Rossiiskii khimicheskii zhurnal, 55(1): 17-25. (in Russian)
[33] Shevchenko, T.I., Solyanik, O.N. and Vishnitskaya, E.I. 2013. Waste management practices in developed countries. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta, 2(47): 17-24. (in Russian)
[34] Siben, A.N., and Nikonov, A.A.2022. Reindeer infestation with Cysticercus Tarandi in the tundra of Yamalia, Russia. American Journal of Animal and Veterinary Sciences, 17(4): 307-13. DOI:https://doi.org/10.3844/ajavsp.2022.307.313
[35] Sidorenko, O.D., and Kutrovskii, V.N. 2016. Bioconversion of Agro-Industrial Waste: A Tutorial. Moscow: INFRA-M, 160 p. (in Russian)
[36] Yesil, H., Tugtas, A.E., Bayrakdar, A. and Calli, B. 2014. Anaerobic fermentation of organic solid wastes: Volatile fatty acid production and separation. Water Science & Technology, 69(10): 2132-8.
[37] Zhang, Z., Gonzalez A.M., Davies, E.G.R. and Liu, Y. 2012. Agricultural wastes. Water Environment Research, 84(10): 1386-406.
[38] Pesticide Action Network International. 2009. PAN International List of Highly Hazardous Pesticides (PAN HHP List). Hamburg. Available at: http://www.pan-germany.org/download/PAN_HHP-list_russ_100301.pdf
Published
2023-06-02
How to Cite
MAKHMETOVA, Dana et al.
Waste Management Strategy of Agricultural Enterprises to Improve the Efficiency of Rural Development.
Journal of Environmental Management and Tourism, [S.l.], v. 14, n. 3, p. 623 - 631, june 2023.
ISSN 2068-7729.
Available at: <https://journals.aserspublishing.eu/jemt/article/view/7788>. Date accessed: 26 apr. 2024.
doi: https://doi.org/10.14505/jemt.v14.3(67).02.
Section
Article
Copyright© 2023 The Author(s). Published by ASERS Publishing 2023. This is an open access article distributed under the terms of CC-BY 4.0 license.