STEMM Institute Press
Science, Technology, Engineering, Management and Medicine
Current Situation and Countermeasures of Agricultural Water-saving Irrigation in China under the Restriction of Ecological Environment
DOI: https://doi.org/10.62517/jlsa.202407302
Author(s)
Jiaying Pan*, Yucheng Guo, Zhenjie Dai, Zhaoxian Su
Affiliation(s)
School of Public Administration, North China University of Water Resources and Electric Power, Zhengzhou, China *Corresponding Author.
Abstract
Water resources are the premise for all life and production activities. At present, there is a phenomenon of water shortage in many areas within the country, and the distribution of domestic water resources is relatively uneven. Compared with traditional irrigation methods, Water-saving irrigation can improve the utilization rate of agricultural water and the income per unit of crops, and help improve agricultural facilities, protect water resources, reduce the impact of pollution and climate change, and is an effective way to achieve a balance of economic, social and ecological environment benefits in rural areas. Based on the current application of farmland water conservancy and water-saving irrigation technology, this paper expounds the application status and problems, and puts forward the optimization measures of agricultural water-saving irrigation from the perspectives of technology, publicity and policy support, in order to further improve the effect of water-saving irrigation and promote the sustainable development of agriculture.
Keywords
Farmland Irrigation; Water-saving Irrigation; Popularization and Application; Benefits; Crops
References
[1]Heng Xianjun, Xu Di, Zhang Hao. A review of the development and application status of underground drip irrigation technology. Water Saving Irrigation, 1999(4):13–15,42 [2]Cheng Weihua. Application of efficient water-saving irrigation technology in farmland water conservancy. Henan Water Conservancy and South-to-North water transfer, 2018, 47(03):21-22. [3]Zhang Julin. Design analysis of farmland water conservancy and water-saving irrigation scheme based on rolling sprinkler irrigation. Smart Agriculture Guide, 2022, 2(19):64-65. [4]Huang Zhen, Niu Zirong, Xue Yuan, Zhao Xia, Zhang Rui. Analysis of influencing factors of farmers' adoption of high-efficiency water-saving irrigation technology——A case study of Zhangye City, Gansu Province. China Water Resources, 2019(01):59-61. [5]Xu Yiting, Mu Yueying, Hou Lingling. Water resource scarcity, irrigation technology adoption and water-saving effect. Agricultural Technology and Economics, 2022(02):47-61. [6]Qin Jianping. Application of high-efficiency water-saving irrigation technology in farmland water conservancy irrigation. New Agriculture, 2022(18):86-87. [7]Shen Yu, Li Lelei. Research on the application status and progress of new water-saving irrigation technology. China Agricultural Information, 2017(18):77-78. [8]Zhao Wenjie, Ding Fanlin. A review of the current situation and countermeasures of the promotion of water-saving irrigation technology in China. Water-saving Irrigation, 2015(04):95-98. [9]Li Xiuqin. Analysis of the application of water-saving technical measures in dryland agriculture. Agricultural Products Processing, 2019(16):73-75. [10]Lu Hongna, Kang Shaozhong, et al. Research status and future development trend of agricultural green, efficient and water-saving. Journal of Agriculture, 2018, 8(01):155-162. [11]Zheng Jie, Zhou Shifeng, Wu Difei. Economic benefit analysis of crops under water-saving irrigation conditions. Drainage and Irrigation Machinery. 2005, 23(3):39-42.
Copyright @ 2020-2035 STEMM Institute Press All Rights Reserved