Economic value of virtual water with the approach of maximizing the productivity of irrigation water

Water Science & Technology: Water Supply Pub Date : 2023-11-02 DOI:10.2166/ws.2023.292

Linyuan Du

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Abstract

Abstract The increasing use of water and the decrease in average rainfall along with climate change have caused the reduction of water resources in arid and semi-arid regions. In addition, despite the consumption of more than half of these resources in the agricultural sector, a rate between 0 and 15% of the price of the products has always been received from the farmers. Considering the concept of virtual water and the water content of products in the form of green water, blue water and gray water, the present research has calculated the economic value of virtual water of agricultural products with the approach of maximizing water use efficiency. The investigated sample includes eight cities (counties) of Sanmenxia, Jiaozuo, Nanyang, Shangqiu, Puyang, Luohe, Luoyang and Kaifeng and six agricultural products (wheat, barley, potato, rapeseed, tomato and corn). A fuzzy dynamic programming model has been used to evaluate the objective function. The results showed that the maximum and minimum economic value of water content (sum of surface and groundwater) of the products were estimated for Kaifeng and Shangqiu regions equal to 1.16 and 0.86 Yuan/m3, respectively.

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虚拟水的经济价值与灌溉用水生产率最大化的方法

随着气候变化，水资源利用的增加和平均降雨量的减少导致了干旱半干旱区水资源的减少。此外，尽管农业部门消耗了这些资源的一半以上，但始终从农民那里获得产品价格的0%至15%。本研究考虑到虚拟水的概念和产品以绿水、蓝水、灰水形式存在的含水量，以最大化水利用效率的方法计算农产品虚拟水的经济价值。调查样本包括三门峡、焦作、南阳、商丘、濮阳、漯河、洛阳、开封8个市(县)和小麦、大麦、马铃薯、油菜籽、番茄、玉米6种农产品。采用模糊动态规划模型对目标函数进行评价。结果表明:开封和商丘地区的产品含水率(地表水和地下水之和)最大经济值为1.16元/m3，最小经济值为0.86元/m3;

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Water Science & Technology: Water Supply

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