Evaluating Beijing’s human carrying capacity from the perspective of water resource constraints

As the demands on limited water resources intensify, concerns are being raised about the human carrying capacity of these resources. However, few researchers have studied the carrying capacity of regional water resources. Beijing, the second-largest city in China, faces a critical water shortage tha...

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Published in:Journal of environmental sciences (China) 2010-08, Vol.22 (8), p.1297-1304
Main Authors: Zhang, Yingxuan, Chen, Min, Zhou, Wenhua, Zhuang, Changwei, Ouyang, Zhiyun
Format: Article
Language:English
Subjects:
China
Cities
Conservation of Natural Resources
Humans
Population Density
regional water resources
sustainable urban development
Urban Population
urban population carrying capacity
water resource management
Water Supply
人口承载能力
区域水资源承载能力
城市生活
用水结构
角度限制
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cited_by cdi_FETCH-LOGICAL-c567t-ea47db0069c0cfe1ed3d76dff615519c642e9a7b8b10d61d8c983b2f660fe0d73
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creator Zhang, Yingxuan
Chen, Min
Zhou, Wenhua
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Ouyang, Zhiyun
description As the demands on limited water resources intensify, concerns are being raised about the human carrying capacity of these resources. However, few researchers have studied the carrying capacity of regional water resources. Beijing, the second-largest city in China, faces a critical water shortage that will limit the city’s future development. We developed a method to quantify the carrying capacity of Beijing’s water resources by considering water-use structures based on the proportions of water used for agricultural, industrial, and domestic purposes. We defined a reference structure as 45:22:33 (% of total, respectively), an optimized structure as 40:20:40, and an ideal structure as 50:15:35. We also considered four domestic water quotas: 55, 75, 95, and 115 m 3 /(person·yr). The urban carrying capacity of 10–12 million was closest to Beijing’s actual 2003 population for all three water-use structures with urban domestic water use of 75 m 3 /(person·yr). However, after accounting for our underlying assumptions, the adjusted carrying capacity is closer to 5–6 million. Thus, Beijing’s population in 2003 was almost twice the adjusted carrying capacity. Based on this result, we discussed the ecological and environmental problems created by Beijing’s excessive population and propose measures to mitigate these problems.
doi_str_mv 10.1016/s1001-0742(09)60253-9
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However, few researchers have studied the carrying capacity of regional water resources. Beijing, the second-largest city in China, faces a critical water shortage that will limit the city’s future development. We developed a method to quantify the carrying capacity of Beijing’s water resources by considering water-use structures based on the proportions of water used for agricultural, industrial, and domestic purposes. We defined a reference structure as 45:22:33 (% of total, respectively), an optimized structure as 40:20:40, and an ideal structure as 50:15:35. We also considered four domestic water quotas: 55, 75, 95, and 115 m 3 /(person·yr). The urban carrying capacity of 10–12 million was closest to Beijing’s actual 2003 population for all three water-use structures with urban domestic water use of 75 m 3 /(person·yr). However, after accounting for our underlying assumptions, the adjusted carrying capacity is closer to 5–6 million. 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subjects China
Cities
Conservation of Natural Resources
Humans
Population Density
regional water resources
sustainable urban development
Urban Population
urban population carrying capacity
water resource management
Water Supply
人口承载能力
区域水资源承载能力
城市生活
用水结构
角度限制
title Evaluating Beijing’s human carrying capacity from the perspective of water resource constraints
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