DEVELOPMENT OF A SCIENTIFICALLY BASED IRRIGATION REGIMEDEVELOPMENT OF A SCIENTIFICALLY BASED IRRIGATION REGIME
Downloads
At the time of year-to-year global climate change, and taking into account the water demand of cotton grown in the Bukhara region in order to prevent the decrease in productivity and quality of agricultural crops due to the lack of irrigation water compared to the crop demand, the method of seasonal irrigation using the data of the weather station. using CropWat 8.0. Based on the program, the coefficient values for the development stages of cotton were adopted based on the mechanical composition of the soil, the depth and mineralization of seepage waters. The results of scientific research carried out by scientists in cotton fields were analyzed in Kham
. Decree of the President of the Republic of Uzbekistan No. PF-4947 of February 7, 2017, “Strategy of Actions on Five Priority Directions of Development of the Republic of Uzbekistan for 2017-2021.”
. M. Khamidov, B. Matyakubov, N. Gadaev, K. Isabaev, and I. Urazbaev, "Development of Scientific-Based Irrigation Systems on Hydromodule Districts of Ghoza in Irrigated Areas of Bukhara Region Based on Computer Technologies," E3S Web of Conferences, vol. 365, no. 01009, 4th International Scientific Conference on Construction Mechanics, Hydraulics, and Water Resources Engineering, CONMECHYDRO 2022, Tashkent, 2023, doi: 10.1051/e3sconf/202336501009.
. M. K. Khamidov and B. U. Suvanov, "Application of Drip Irrigation Technology in Cotton Irrigation," Irrigation and Land Reclamation, no. 4, pp. 14, 2018.
. B. S. Komilov and M. M. Khasanov, "Influence of Drip Irrigation on Cotton Yield," in Actual Problems of Cotton Production, Tashkent, 2009, pp. 22–29.
. V. A. Dukhovny, "Drip Irrigation: Perspectives and Obstacles," Collection of Scientific Papers on Drip Irrigation, NPO SANIIRI, vol., pp. 3–13, 1995.
. M. Avlakulov, B. Matyakubov, and I. Kodirov, "Methods for Solving the Problem of Filter Flow with Furrow Irrigation," AIP Conference Proceedings, vol. 2612, no. 050032, 2023, doi: 10.1063/5.0124231.
. B. Matyakubov, D. Nurov, U. Teshaev, and K. Kobulov, "Drip Irrigation Advantages for the Cotton Field in Conditions of Salty Earth in Bukhara Province Region," IOP Conference Series: Earth and Environmental Science, vol. 1138, no. 1, 012016, 2023.
. B. Matyakubov, D. Nurov, M. Radjabova, and S. Fozilov, "Application of Drip Irrigation Technology for Growing Cotton in Bukhara Region," AIP Conference Proceedings, vol. 2432, no. 040014, 2022, doi: 10.1063/5.0091186.
. S. Imomov, K. Olimov, and I. Khasanov, "Mathematical Modeling of the Technological Process of Operation and Parameters of the Device for Formation of Longitudinal Rollers (Pawls) Between Cotton Rows," E3S Web of Conferences, vol. 264, no. 04070, 2021.
. S. J. Imomov, Kh. K. Olimov, A. N. Juraev, S. S. Orziev, and T. O. Amrulloev, "Application of Energy and Resource Engineering Software in Cotton Fields," IOP Conference Series: Earth and Environmental Science, vol. 868, no. 1, 012067, 2021.
. D. E. Nurov, "Water Productivity in Cotton Irrigation," Irrigation and Land Reclamation, special issue, pp. 9–13, 2022.
. B. Sh. Matyakubov and D. E. Nurov, "Application of Water-Saving Irrigation Technology in Cotton Cultivation," International Journal of Advanced Research in Science, Engineering and Technology, vol. 9, no. 11, pp. 20026–20031, 2022.
. B. Sh. Matyakubov, D. E. Nurov, and Yu. Khamroev, "Mathematical Model of Moistening of Active Layer of Soils Under Drip Irrigation of Cotton," Uzbek Agriculture and Water Management, vol. 2, no. 89, pp. 58–60, 2023.
. B. Sh. Matyakubov and D. E. Nurov, "Methods for Determining Evapotranspiration in Growing Crops," Scientific Journal of Informatization of the Academy of Khorezm Sense, vol. 7, no. 4, pp. 34–42, 2022.
. S. M. Gapparov, "Improvement of Technology of Drip Irrigation of Cotton Planted Under the Film," Author Abstracts of Dissertation of Doctor of Technical Sciences, pp. 12–20, 2020.
. Sh. Ruzmetov, "Reference Evapotranspiration (ETE) in Uzbekistan," FAO 56-Irrigation and Drainage, Bahadir & Sons, f/x. Karmish, Khorezm, pp. 28–37, 2020.
. B. U. Suvanov and A. M. Gamidov, "Efficiency of Order and Technology of Economical Irrigation of Cotton Under Conditions of Global Climate Change and Water Deficit," Agro Processing Journal, vol. 3, no. 4, pp. 34–42, 2021.
. S. B. Gulomov, "Water Infiltration Under Drip Irrigation," Bulletin of Science and Practice, vol. 1, pp. 100–108, 2018.
. Ministry of Agriculture of the Russian Federation, Federal State Scientific Institution "Russian Research Institute of Land Reclamation Problems" (FGNU "RusRILRP"), "Safe Systems and Technologies of Drip Irrigation," Scientific Review, Novocherkassk, pp. 39–43, 2010.
. Crop Water and Irrigation Requirements Program of FAO (CROPWAT), FAO Land Governance and Resources, 2018. [Online]. Available: http://www.fao.org/land-water/land/land-governance/land-resources-planning-toolbox/category/details/en/c/1026559/.
. UN-FAO, "Crop Evapotranspiration - Guidelines for Computing Crop Water Requirements," Irrigation and Drainage, Rome: FAO, paper 56, pp. 27–53, 1998.
. Drip Irrigation. [Online]. Available: http://www.drip.agrodepartament.ru.
. Food and Agriculture Organization of the United Nations (FAO). [Online]. Available: http://www.fao.org, accessed Aug. 16, 2018.
. Netafim. [Online]. Available: http://www.netafimltd.ru, accessed Sept. 20, 2018.
Copyright (c) 2024 Matyakubov, B.Sh, Nurov, D. E, Mukhammadov, M.F
This work is licensed under a Creative Commons Attribution 4.0 International License.
