农业
环境科学
中国
农场用水
灌溉
水资源管理
水资源
用水
可再生能源
生产(经济)
业务
节约用水
农业经济学
自然资源经济学
地理
工程类
经济
农学
生态学
电气工程
宏观经济学
生物
考古
作者
Guorui Huang,Arjen Y. Hoekstra,Maarten S. Krol,Jonas Jägermeyr,A. Galindo,Chaoqing Yu,Ranran Wang
标识
DOI:10.1016/j.resconrec.2019.104578
摘要
China is working hard to reconcile growing demands for freshwater with already oversubscribed renewable water resources. However, the knowledge essential for setting and achieving the intended water consumption cuts remains limited. Here we show that on-farm water management interventions such as improved irrigation and soil management practices for maize cultivation can lead to substantial water consumption reductions, by a simulated total of 28–46 % (7–14 billion m3/year) nationally, with or without the impacts of climate change. The water consumption cut is equivalent to 16–31 % of the ultimate capacity of the South-North Water Transfer Project. Much of the reduction is achievable at the populous and water-stressed North China Plain and Northeast China. Meanwhile, the interventions can increase maize production by an estimated 7–15 %, meeting 22–28 % of demand increase projected for 2050. The water management and food production improvements obtained are crucial for achieving multiple Sustainable Development Goals (SDGs) related to water, land, and food in China and far beyond.
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