RATIONAL USE OF WATER RESOURCES, EFFECTIVENESS OF IRRIGATION TECHNOLOGIES ADAPTED TO CLIMATE CHANGE CONDITIONS

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Молодые ученые
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Выпуск: Том 217 : Молодые ученые
Раздел: Статьи
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3rd-year student of the National Research University "Tashkent Institute of Irrigation and Agricultural Mechanization Engineers", "Water Supply Engineering Systems".
info@in-academy.uz
3rd-year student of the National Research University "Tashkent Institute of Irrigation and Agricultural Mechanization Engineers", "Water Supply Engineering Systems".
info@in-academy.uz
Scientific supervisor: phd student, National Research University "Tashkent Institute of Irrigation and Agricultural Mechanization Engineers"
info@in-academy.uz

Аннотация:

This article explores the critical need for innovative irrigation technologies in the face of climate change impacts on agriculture and water resources. With changing precipitation patterns and increasing water scarcity, the rational use of water resources becomes imperative. The review focuses on the effectiveness of various irrigation technologies, particularly precision irrigation, in adapting to evolving climatic conditions. Findings reveal that precision irrigation methods, including drip and micro-sprinkler systems, offer significant benefits by conserving water and enhancing system resilience. These technologies deliver water directly to plant roots, reducing evaporation and runoff. Additionally, integrating soil moisture sensors and weather data optimizes irrigation scheduling, further enhancing efficiency. Moreover, the article underscores the importance of sustainable water management practices to combat water scarcity, such as drip irrigation, rainwater harvesting, and smart irrigation systems. These approaches not only conserve water but also reduce energy consumption and greenhouse gas emissions associated with agriculture.

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Как цитировать:

Tolibova , M. ., Asadov , B. ., & Nasibov , B. . (2024). RATIONAL USE OF WATER RESOURCES, EFFECTIVENESS OF IRRIGATION TECHNOLOGIES ADAPTED TO CLIMATE CHANGE CONDITIONS. Молодые ученые, 2(17), 54–59. извлечено от https://in-academy.uz/index.php/yo/article/view/33124

Библиографические ссылки:

Raximovich, S. S., & Raxatovich, D. R. (2023, June). EKOLOGIK HOLATI YOMONLASHGAN HUDUDLARDA ALMASHLAB EKISHNI TASHKIL ETISH. In " CANADA" INTERNATİONAL CONFERENCE ON DEVELOPMENTS İN EDUCATİON, SCİENCESAND HUMANİTİES (Vol. 9, No. 1).

Sadriddin o‘g‘li, A. M., Abduvali o‘g‘li, A. S., & Akmalovich, T. S. (2023). QISHLOQ XO‘JALIGI EKINLARIDA TOMCHILATIB SUG ‘ORISH TIZIMLARINING TEXNIKA VA TEXNOLOGIYASI SAMARADORLIGINI OSHIRISH. THEORY AND ANALYTICAL ASPECTS OF RECENT RESEARCH, 2(13), 121-128.

Fischer, G., Tubiello, F. N., Van Velthuizen, H., & Wiberg, D. A. (2007). Climate change impacts on irrigation water requirements: Effects of mitigation, 1990–2080. Technological Forecasting and Social Change, 74(7), 1083-1107.

Sowers, J., Vengosh, A., & Weinthal, E. (2011). Climate change, water resources, and the politics of adaptation in the Middle East and North Africa. Climatic Change, 104(3), 599-627.

Misra, A. K. (2014). Climate change and challenges of water and food security. International Journal of Sustainable Built Environment, 3(1), 153-165.

Pereira, L. S., Oweis, T., & Zairi, A. (2002). Irrigation management under water scarcity. Agricultural water management, 57(3), 175-206.

Wallace, J. S., & Gregory, P. J. (2002). Water resources and their use in food production systems. Aquatic Sciences, 64, 363-375.

Chartzoulakis, K., & Bertaki, M. (2015). Sustainable water management in agriculture under climate change. Agriculture and Agricultural Science Procedia, 4, 88-98.

Laraus, J. (2004). The problems of sustainable water use in the Mediterranean and research requirements for agriculture. Annals of Applied Biology, 144(3), 259-272.

Hussain, M. I., Lyra, D. A., Farooq, M., Nikoloudakis, N., & Khalid, N. (2016). Salt and drought stresses in safflower: a review. Agronomy for sustainable development, 36, 1-31.

Rakhmatullaev, S., Huneau, F., Kazbekov, J., Le Coustumer, P., Jumanov, J., El Oifi, B., ... & Hrkal, Z. (2010). Groundwater resources use and management in the Amu Darya river basin (Central Asia). Environmental Earth Sciences, 59, 1183-1193.

Abdullaev, B. D., Razzakov, R. I., Okhunov, F. A., & Nasibov, B. R. (2023). Modeling of hydrogeological processes in irrigation areas based on modern programs. In E3S Web of Conferences (Vol. 401, p. 02006). EDP Sciences.

Salokhiddiov, A., Khakimova, P., Ismailov, M., Razzakov, R., & Mirzaqobulov, J. (2020, July). Impact of Climate Change on Irrigated Agriculture in steppe Zones of Uzbekistan. In IOP Conference Series: Materials Science and Engineering (Vol. 883, No. 1, p. 012073). IOP Publishing.

Salokhiddinov, A., Boirov, R., Ismailov, M., Mamatov, S., Khakimova, P., & Rakhmatullaeva, M.(2020, December). Climate change effects on irrigated agriculture: perspectives from agricultural producers in eastern Uzbekistan. In IOP Conference Series: Earth and Environmental Science (Vol. 612, No. 1, p. 012058). IOP Publishing.

Strickman, R., & Porkka, M. (2008). Water and social changes in Central Asia: Problems related to cotton production in Uzbekistan. Central Asian Waters, 105.

Rakhmatullaev, S., Huneau, F., Kazbekov, J., Le Coustumer, P., Jumanov, J., El Oifi, B., ... & Hrkal, Z. (2010). Groundwater resources use and management in the Amu Darya river basin (Central Asia). Environmental Earth Sciences, 59, 1183-1193.

Khatri, N., & Tyagi, S. (2015). Influences of natural and anthropogenic factors on surface and groundwater quality in rural and urban areas. Frontiers in life science, 8(1), 23-39.

Gofurov, A. S., Juraev, Z., & Ahn, Y. J. (2023). Regional Water Crisis: A Case Study of Uzbekistan and its Neighboring Countries.

Nasibov, B. R., Abdukodirova, M. N., & Toirjonov, A. S. (2023). PROCESSING OF INDUSTRIAL WASTE WATER AND ITS USE FOR THE NECESSARY PURPOSES. International Multidisciplinary Journal for Research & Development, 10(09), 75-80.

Nasibov, B. R., Mavlyanova, D. A., & Turdaliyeva, S. R. (2023). Improving the methods of increasing the efficiency of biological treatment of industrial wastewater. Ethiopian International Journal of Multidisciplinary Research, 10(09), 303-308.

Jaloliddin o’g’li, S. J., & Rustamjon o’g’li, N. B. (2023). Investigation of tolerance of sorghum crop to water deficit conditions during drip irrigation. Texas Journal of Agriculture and Biological Sciences, 15, 109-115.

Shoturaev, B. S., & Nasibov, B. R. (2022). Study Of Efficiency Of Water And Energy Resources In Growing Agricultural Crops Through Drop Irrigation. In The Example Of Amarant Crop. Texas Journal of Agriculture and Biological Sciences, 5, 54-58.

Назаров, Х. (2023). ЭКОЛОГИК ТАЪЛИМНИ РИВОЖЛАНТИРИШ: МУАММО ВА ЕЧИМЛАРИ. JOURNAL OF INNOVATIONS IN SCIENTIFIC AND EDUCATIONAL RESEARCH, 6(5), 235-247.

Nazarov, K., SHarofiddinov, R. S., Bolliyeva, I. A., & To’xtayeva, M. X. (2023). SUV RESURSLARIDAN FOYDALANISHNING HUQUQIY ASOSLARI. Молодые ученые, 1(19), 25-29.

Nazarov, K. (2023). O ‘ZBEKISTONDA CHIQINDILAR BOSHQARISH IQTISODIYOTI MUAMMOLAR VA YECHIMLAR. World of Science, 6(5), 155-161.

Nazarov, K. (2024). PROBLEMS OF THE ECOLOGICAL SECURITY SYSTEM. Spectrum Journal of Innovation, Reforms and Development, 24, 76-83.

Назаров, Х. (2023). ЭКОЛОГИК ТАЪЛИМНИ РИВОЖЛАНТИРИШ: МУАММО ВА ЕЧИМЛАРИ. JOURNAL OF INNOVATIONS IN SCIENTIFIC AND EDUCATIONAL RESEARCH, 6(5), 235-247.

Abdullaev, B. D., Razzakov, R. I., Okhunov, F. A., & Nasibov, B. R. (2023). Modeling of hydrogeological processes in irrigation areas based on modern programs. In E3S Web of Conferences (Vol. 401, p. 02006). EDP Sciences.