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Abstract
Current water demand management of megacity-dominated areas in arid-zones should be revised to optimize water allocation for sustainable development. A novel hierarchical optimization model is proposed and examined for such an area in the arid zone of Iran. The model can significantly increase water economic efficiency, reduce unsatisfied demand, and maintain necessary agricultural production. Model sub-optimization provides the cropping pattern and transient four-phenological-stage deficit-irrigation strategy that maximizes economic benefit per unit agricultural allocation. The model employs a nonlinear benefit function for industry, a linear benefit function for service, and a cubic benefit function for deficit-irrigated agriculture. If available water is unchanged, optimal economic benefit increases 283 percent from the current situation. This requires decreasing agricultural water allocation, changing cropping patterns, using deficit irrigation, and increasing development of industrial and service sectors. If annual available water decreases by 25%, or by 40%, net economic benefit can increase 101% and 19%, respectively.
Acknowledgements
Authors express their appreciation to the Ministry of Agriculture, Water resources management organization of Iran and Mr. Mahmood Olad and Dr. Sedigheh Torabi for supplying necessary data and LINDO Systems Inc. for supplying Lingo software. We also acknowledge the insightful comments from the anonymous reviewers and the editor concerning the previous version of the manuscript. We appreciate the support of Utah State University. This paper is approved as paper number UAES #8628 of the Utah Agricultural Experiment Station.
Disclosure statement
No potential conflict of interest was reported by the authors.