Purpose: to study trends of improving irrigation technologies and develop proposals on development of priority innovative solutions in the irrigated agriculture.
Materials and methods: the object of research was the reclaimed agriculture irrigation technology, that meet the requirements of the modernization strategy for the domestic agro-industrial complex – “Agriculture 4”. The research question was to update the solution of the problems of the advanced technologies for innovative irrigation. The normative-legal and methodological documents of the Russian Federation, publications of specialists in the field of land reclamation and irrigation, information about the achievements and negative experience of agricultural producers in the practical implementation of irrigated agricultural production, the results of the author's own work, etc. served as the research material. The methods of system analysis, comparison and generalization of data, expert assessments were used in the work.
Results. An analysis of the efficiency of the applied irrigation technologies which revealed the basic directions for the rational evolution of irrigation was carried out. The expediency of quick application of advanced proposals of the digital technologies irrigation techniques is shown. The necessity of increasing the level of irrigation automation based on artificial intelligence technologies is substantiated. The advantages of optimizing the management of agricultural technologies for irrigated crop production are characterized. The possibilities of interaction and cooperation of developers (suppliers) of specialized areas of a specific digital irrigation solution are determined. The prospects for creating new and improving existing irrigation technologies are considered. The basic provisions of the platform approach to the implementation of the irrigation digitalization process are presented.
Conclusions: the conducted studies confirmed the existence of a high potential in the field of improvement and transformation of irrigation technologies, the implementation of which will contribute both to the efficiency of production of enterprises and the entire field of melioration.
doi: 10.31774/2712-9357-2022-12-4-233-245
perspective, priority, technology, innovations, irrigation, watering, digitalization, optimization, automation, artificial intelligence
Yurchenko I. F. Advanced technologies for innovative irrigation. Land Reclamation and Hydraulic Engineering. 2022;12(4):233–245. (In Russ.). https://doi.org/10.31774/2712-9357-2022-12-4-233-245.
1. Alexandrovskaya L.A., 2020. Razvitie protsessov tsifrovizatsii v meliorativnoy sfere: tendentsii i perspektivy [Development of digitalization processes in the land reclamation sector: trends and prospects]. Vestnik Rostovskogo gosudarstvennogo ekonomicheskogo universiteta (RINKH) [Bulletin of Rostov State University of Economics (RINKH)], no. 4(72), pp. 103-110. (In Russian).
2. Tsifrovaya transformatsiya sel'skogo khozyaystva Rossii: ofits. izd. [Digital Transformation of Russian Agriculture: offic. ed.]. Moscow, Rosinformagrotekh Publ., 2019, 80 p. (In Russian).
3. Kozubenko I.S., Balabanov I.V., 2017. “Internet veshchey” v upravlenii agropromyshlennym kompleksom [“Internet of things” in agribusiness management]. Tekhnika i oborudovanie dlya sela [Technique and Equipment for the Village], no. 8, pp. 46-48. (In Russian).
4. Klerkx L., Jakku E., Labarthe P., 2019. A review of social science on digital agriculture, smart farming and agriculture 4.0: New contributions and a future research agenda. NJAS – Wageningen Journal of Life Sciences, vol. 90, 100315, DOI: 10.1016/j.njas.2019.100315.
5. Wolfert S., Ge L., Verdouw C., Bogaardt M.-J., 2017. Big Data in Smart Farming – A review. Agricultural Systems, vol. 153, pp. 69-80, https:doi.org/10.1016/j.agsy.2017.01.023.
6. Smith M.J., 2020. Getting value from artificial intelligence in agriculture. Animal Production Science, vol. 60, no. 1, pp. 46-54, https:doi.org/10.1071/AN18522.
7. Polyakov V.V., Aleksandrovskaya L.A., Lukyanchenko E.P., Cheshev A.S., 2018. Ispol'zovanie i okhrana prirodnykh resursov v ramkakh agromeliorativnykh sistem [Use and Protection of Natural Resources within the Framework of Agro-reclamation Systems]. Rostov-on-Don, Moscow, 223 p. (In Russian).
8. Truflyak E.V., 2018. Ispol'zovanie elementov tochnogo sel'skogo khozyaystva v Rossii [Using Elements of Precision Agriculture in Russia]. Krasnodar, KubGAU, 26 p. (In Russian).
9. Shepherd M., Turner J., Small B.D., 2018. Wheeler Priorities for science to overcome hurdles thwarting the full promise of the “digital agriculture” revolution. Journal of the Science of Food and Agriculture, vol. 100, iss. 14, pp. 5083-5092, https:doi.org/10.1002/jsfa.9346.
10. Rotz S., Duncan E., Small M., Botschner J., Dara R., Mosby I., Reed M., Fraser E.D.G., 2019. The politics of digital agricultural technologies: A preliminary review. Sociologia Ruralis, vol. 59, no. 2, pp. 203-229, DOI: 10.1111/soru.12233.
11. Yurchenko I.F., 2008. Komp'yuternaya tekhnologiya podderzhki resheniya kak faktor reformirovaniya sistemy ekspluatatsii v melioratsii Rossii [Computer technology for decision support as a factor of reforming the system of operation in land reclamation of Russia]. Prirodoobustroystvo [Environmental Engineering], no. 1, pp. 34-39. (In Russian).
12. Yurchenko I.F., Nosov A.K., 2015. Optimizatsionnaya model' formirovaniya variantov razvitiya melioratsiy v sostave skhemy kompleksnogo ispol'zovaniya i okhrany vodnykh ob"ektov [Reclamation development option optimization model within the water bodies integrated development and protection scheme]. Vodnoe khozyaystvo Rossii: problemy, tekhnologii, upravlenie [Water Management of Russia: Problems, Technologies, Management], no. 2, pp. 53-66. (In Russian).
13. Kireycheva L.V., Yurchenko I.F., 2015. Rol' melioratsii zemel' v reshenii problemy prodovol'stvennoy bezopasnosti Rossii [Role of land reclamation in solving the food security problem of Russia]. Vestnik rossiyskoy sel'skokhozyaystvennoy nauki [Bulletin of Russian Agricultural Science], no. 2, pp. 13-15. (In Russian).
14. Solodunov A.A., Bandurin M.A., 2019. Voprosy bezopasnoy ekspluatatsii vnutrikhozyaystvennoy seti risovykh orositel'nykh sistem [Issues of safe operation of the on-farm network of rice irrigation systems]. Nauchnoe obespechenie agropromyshlennogo kompleksa: sbornik tezisov po materialam Vserossiyskoy (natsionalnoy) konferentsii [Scientific Support of the Agro-Industrial Complex: Proc. of the All-Russian (National) Conference]. Krasnodar, KubGAU named after I. T. Trubilin, pp. 492-493. (In Russian).
15. Bandurin M.A., Bandurina I.P., Yurchenko I.F., 2021. Improvement of metrological measurements of bridge crossings at waterworks when studying non-destructive testing methods. Journal of Physics: Conference Series, 1728, 012001, DOI: 10.1088/1742-6596/1728/1/012001.
16. Luo Y., 2022. A general framework of digitization risks in international business. Journal of International Business Studies, 53, pp. 344-361, https:doi.org/10.1057/s41267-021-00448-9.
17. Olgarenko V.I., Yurchenko I.F., Olgarenko I.V., Kostyunin G.G., Efendiev M.S., Olgarenko V.Ig., 2018. [Planning effectiveness substantiation of technological processes of water use and operating control of water distribution using the Monte Carlo method]. Nauchnyy zhurnal Rossiyskogo NII problem melioratsii, no. 1(29), pp. 49-65, available: http:www.rosniipm-sm.ru/article?n=913 [accessed 15.07.2022]. (In Russian).
18. Yurchenko I.F., Trunin V.V., 2013. Metodologiya sozdaniya informatsionnoy tekhnologii operativnogo upravleniya vodoraspredeleniem na mezhkhozyaystvennykh orositel'nykh sistemakh [Methodology of creation of information technology of operational management of water allocation at inter-enterprise irrigation systems]. Prirodoobustroystvo [Environmental Engineering], no. 4, pp. 10-14. (In Russian).
19. Borodychev V.V., Lytov M.N., 2016. Geopozitsionnyy sintez monitoringovykh dannykh i vozmozhnosti ikh ispol'zovaniya v rezhime real'nogo vremeni [Geopositional synthesis of monitoring data and the possibility of their use in real time]. Izvestiya Nizhnevolzhskogo agrouniversitetskogo kompleksa: nauka i vysshee professional'noe obrazovanie [Bull. of Nizhnevolzhsky Agro-University Complex: Science and Higher Professional Education], no. 1(41), pp. 168-177. (In Russian).
20. Shchedrin V.N., Vasiliev S.M., Slabunov V.V., Slabunova A.V., Zavalin A.A., 2020. Podkhody k formirovaniyu informatsionnoy sistemy “Tsifrovaya melioratsiya” [Approaches to the formation of the information system “Digital land reclamation”]. Informatsionnye tekhnologii i vychislitel'nye sistemy [Information Technologies and Computer Systems], no. 1, pp. 53-64, DOI: 10.14357/20718632200106. (In Russian).
