The use of water allocation efficiency in optimizing crop production in drylands using a fuzzy trading model

Water Science & Technology: Water Supply Pub Date : 2023-09-26 DOI:10.2166/ws.2023.246

Yuan Liang, Wentai Bi

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Abstract

Abstract Considering the importance of agriculture in food security in arid and semiarid areas, it is absolutely necessary to apply the planning model based on different objectives. This study has been conducted to simulate the trading and non-trading policies in the Particle Swarm Optimization framework for estimating the optimal economic values of agricultural water in Jilin province, northeastern China. Fuzzy solutions have been also calculated by definition of the feasible domain for water availability and permits. A generalized extreme value function was incorporated into the problem to predict the rainfall amounts with a 25-year return period. The results showed that determining the agricultural pattern using a trading policy with the aim of benefiting from the water will reduce the water demand in the study area. The trading policy can lead to a more efficient allocation of released water and reduce water scarcity, but it can eliminate some plants from the cropping pattern by reducing the water level. As a result, trading policy can be effective in the short term, especially in drought conditions due to insufficient water supply.

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利用模糊交易模型优化旱地作物生产中的水分分配效率

摘要考虑到农业在干旱半干旱区粮食安全中的重要性，应用基于不同目标的规划模型是绝对必要的。在粒子群优化框架下，采用交易和非交易政策对吉林省农业用水最优经济价值进行了模拟。通过定义水可利用性和许可的可行域，计算了模糊解。将广义极值函数引入到问题中，用于预测25年回归期的降雨量。研究结果表明，采用以水资源受益为目标的贸易政策来确定农业模式将会减少研究区对水资源的需求。交易政策可以更有效地分配释放的水，减少水资源短缺，但它可以通过降低水位来消除一些作物的种植模式。因此，贸易政策在短期内是有效的，特别是在供水不足造成干旱的情况下。

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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