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System Dynamics Simulation and Scenario Optimization of China's Water Footprint under Different SSP-RCP Scenarios
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  • Qiuxiang Jiang,
  • Xingtao Ouyang,
  • Zilong Wang,
  • Qiang Fu,
  • Yunxing Wu,
  • Weipeng Guo
Qiuxiang Jiang
Northeast Agricultural University
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Xingtao Ouyang
Northeast Agricultural University
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Zilong Wang
Northeast Agricultural University

Corresponding Author:wangzilong2017@126.com

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Qiang Fu
Northeast Agricultural University
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Yunxing Wu
Northeast Agricultural University
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Weipeng Guo
Northeast Agricultural University
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Abstract

Under the dual influence of socioeconomic development and climate change, water resources in China are under increasing stress. It is of great significance to comprehensively explore the changing trend of China’s water footprint (WF) in the future, clarify the water resource challenges that China will face, and alleviate water shortage and water pollution problems. This paper uses System Dynamics (SD) to build a simulation model of China’s WF, calculate China’s WF from 2000 to 2019, and for the first time, simulate and optimize China’s WF from 2020 to 2050 under the SSP-RCP scenario matrix composed of Shared Socioeconomic Pathways (SSPs) and Representative Concentration Pathways (RCPs). The results are as follows. (1) From 2000 to 2019, China’s WF increased to 2009 and began to decline. The main contributors are gray WF and agricultural WF. (2) From 2020–2050, different socioeconomic development and climate change conditions under the five SSP-RCP scenarios will lead to different trends in China’s WF and its composition. (3) Based on the changes in WF and water resources supply/demand ratio under different scenarios, the SSP1-2.6 scenario is the best scenario to mitigate a future water shortage and water pollution in China. The research results can help decision-makers formulate relevant management policies and socioeconomic development models for water resource utilization and provide decision support for alleviating water shortages and water pollution in China.