基于时空平衡和水转化的水-农业-生态关系协同管理:中国阿克苏河流域案例研究

IF 5.9 1区 农林科学 Q1 AGRONOMY Agricultural Water Management Pub Date : 2024-09-16 DOI:10.1016/j.agwat.2024.109061
Taishan Wang , Xiaoling Su , Haijiang Wu
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引用次数: 0

摘要

水-农业-生态(WAE)关系系统在时间上的多变性和空间上的异质性加剧了协同管理的难度。此外,在内陆河流域,由于渠灌和井灌相结合,地表水和地下水紧密相连。针对这些问题,结合时空鲁棒优化方法和线性水转换模型,提出了基于时空平衡-水转换的水-农业-生态关系协同管理(SEWT-WAE)模型。然后将 SEWT-WAE 模型应用于中国新疆内陆河流域阿克苏河流域。结果表明,SEWT-WAE 模型在实现地下水时空平衡和生态用水以及上下游地表水和地下水综合治理方面非常有效。在协调发展程度的基础上,得到了最优的协同管理方案。与现状相比:(i) 塔北(塔南)灌区地表水(地下水)灌溉量增加(减少)了 21.4%(70.2%);(ii) 粮食作物和园林灌溉面积分别增加了 30.4%和 20.1%,棉花灌溉面积减少了 19.4%;(iii) 胡杨林生态用水量增加了 17.81%。总之,本研究为实现地表水和地下水的时空平衡和联合利用提出了一个新的优化模型,为内陆河流域的 WAE 关系协同管理提供了决策支持。
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Water-agriculture-ecology nexus synergetic management based on spatiotemporal equilibrium and water transformation: A case study in Aksu River Basin, China

The temporal variability and spatial heterogeneity characteristics of the water-agriculture-ecology (WAE) nexus system have aggravated the difficulties in its synergetic management. Besides, in the inland river basin, the surface water and groundwater are tightly linked by the combination of canal and well irrigation. To address these issues, a spatiotemporal equilibrium-water transformation based water-agriculture-ecology nexus synergetic management (SEWT-WAE) model was proposed by incorporating a spatio-temporal robust optimization method and linear water transformation model. The SEWT-WAE model was then applied to the Aksu River Basin, an inland river basin of Xinjiang, China. The results indicated that the SEWT-WAE model was highly effective in achieving spatiotemporal equilibrium in groundwater balance and ecological water utilization, as well as in the integrated management of surface water and groundwater across upstream and downstream regions. The optimal synergetic management scheme was obtained based on the coordinated development degree. Compared to the current situation: (i) the irrigation amount provided by the surface water (groundwater) in the Tabei (Tanan) irrigation district was increased (decreased) by 21.4 % (70.2 %); (ii) the irrigated areas of grain crops and gardens were increased by 30.4 % and 20.1 %, respectively, while the irrigated area of cotton was decreased by 19.4 %; (iii) the ecological water utilization of the Populus euphratica forest was increased by 17.81 %. Overall, this study presents a new optimization model for achieving spatiotemporal equilibrium and conjunctive use of surface water and groundwater and provides decision support for WAE nexus synergetic management in the inland river basin.

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来源期刊
Agricultural Water Management
Agricultural Water Management 农林科学-农艺学
CiteScore
12.10
自引率
14.90%
发文量
648
审稿时长
4.9 months
期刊介绍: Agricultural Water Management publishes papers of international significance relating to the science, economics, and policy of agricultural water management. In all cases, manuscripts must address implications and provide insight regarding agricultural water management.
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