Scientific Retrospective of the Farm Irrigation Systems Efficient Use
This article presents the results of a scientific-practical research on Russian agribusiness ameliorative department efficiency. There are the results of the analysis and retrospective of domestic and foreign views on the agriculture effectiveness and, in particular, the irrigated agriculture efficiency, Organization for Economic Co-operation and Development (OECD) countries’ experience. The methodological approaches to understanding the economic development effectiveness are clarified and an extended classification of efficiency types is proposed. The author’s approach to the farm irrigation systems efficient use concept is presented. The agricultural economic efficiency structure has been determined. The factors that can contribute to increasing the investment attractiveness and efficiency of irrigated agriculture are identified. Theoretical and methodological approaches to assess the irrigated agriculture effectiveness, considering the problems identified in the process of this study, are proposed.
 Aidarov, I.P. Ways of development and environmental-economic efficiency of agricultural land reclamation. Retrieved from: https://docplayer.ru/ 32474836-Puti-razvitiya-i-ekologo-ekonomicheskaya-effektivnost-melioraciyselskohozyaystvennyh- ugodiy.html
 Vikulova, O. (2001). Economic efficiency of irrigated agriculture in the new economic conditions. Thesis for the competition. degree ken. Novocherkassk. Retrieved from: http://economy-lib.com/ekonomicheskaya-effektivnost-oroshaemogo-zemledeliyav- novyh-usloviyah-hozyaystvovaniya
 Dolan, E.D., Lindsei, D.E. (1996). Market: a microeconomic model. Moscow, 496 p.
 Drucker, P. (2012). Effective leader. Mann, Ivanov and Ferber. Moscow, 127 p.
 Kapustina, T.A., Ugryumova, A.A. (2017). ``Development of irrigated agriculture as a factor in improving the competitiveness of agriculture. Collection of scientific articles on the results of the All-Russian Scientific and Practical Conference with international participation ``Innovations in Commodity Research and Economics: Theory, Practice, Expertise, Security, pp. 73–78. Kolomna: GOU VO MO GSU.
 Krasnoshchekov, V.N., Kundius, V.V. (2010). Methods for assessing the economic efficiency of agricultural land amelioration need to be improved. Economics of Environmental Engineering and Natural Resources Management, no. 1, pp. 106–111.
 Krasnoshchekov, V.N., Olgarenko, D.G. (2016). Development of a system of indicators for assessing the effectiveness of agricultural land use. Environmental Engineering, no. 1, pp. 63–67.
 Olgarenko, G.V. (2011). Efficient use of natural resources. Melioration: yesterday, today, tomorrow, no. 1, pp. 15–17.
 Olgarenko, D.G. (2008). Ecological and economic assessment of the effectiveness of irrigation equipment in reclamation investment projects. Abstract for the competition. degree ken. Moscow. Retrieved from: https://new-disser.ru/__avtoreferats/ 01004160415.pdf
 Organization and Principles of Efficiency X. Emerson. Retrieved from: https://cyberpedia.su/10xaeca.html
 Konoplev, E.A. (1984). Improving the efficiency of reclaimed land. Economics of Agriculture, no. 1, pp. 40–43.
 Frascati Manual. Retrieved from: http://en.knowledgr.com/00219886/%D0%A0% D1%83%D0%BA%D0%BE%D0%B2%D0%BE%D0%B4%D1%81%D1%82%D0%B2% D0%BE%D0%A4%D1%80%D0%B0%D1%81%D0%BA%D0%B0%D1%82%D0%B8
 Guidelines for assessing the environmental and economic efficiency of agricultural land reclamation investment projects. (2015). Kolomna: FGNU VNII ``Rainbow''.
 Ugriumova, A.A., Zamakhovsky, M.P., Kapustina, T.A. (2018). Technological safety of agriculture in regions with meliorative agriculture. National interests: priorities and safety, vol. 14, no. 2, p. 221–235.
 Ward, F.A. (2012). Financial arrangements in irrigated agriculture, no. 1. Financing water management and infrastructure in agriculture in OECD countries. Tashkent. Retrieved from: http://www.cawater-info.net/library/rus/carewib/ financial_mechanisms_1.pdf
 Shchedrin, V.N. (2015). Problems of rational use of natural resources of arid territories. Collection of scientific papers of the international scientific-practical conference, pp. 340–352.
 Ugryiumova, A.A., Olgarenko, D.G., Zamakhovsky, M.P. (2018). the analysis of the main factors of the irrigated agriculture in the federal districts of the Russian Federation. International Multidisciplinary Scientific GeoConference SGEM, vol. 18, no. 5.3, pp. 831–838.
 Gibson, K.E.B., Yang, HS., Eisenhauer, D., Gates, J.B., Nasta, P., Farmaha, B.S., Grassini, P. (2018). Assessing irrigation systems for US maize-soybean systems. agricultural Water Management, vol. 197, pp. 34–40.
 Bennett, D.R., Riewe, R.V., Entz, T., Woods, S.A. (2015). Water conveyance and irrigation irrigation system from the Alberta irrigation system from 1999 to 2012. canadian Water Resources Journal, vol. 40, pp. 173–186.
 Reca, J., Trillo, C., Sanchez, J.A., Martinez, J., Valera, D. (2018). Greenhouse crops optimization for greenhouse crops using desalinated water from different sources. Agricultural Systems, vol. 166, pp. 173–183.