Anthropogenic reactive nitrogen releases and gray water footprints in urban water pollution evaluation: the case of Shenzhen City, China

• Published in: Environment, development and sustainability Vol. 22; no. 7; pp. 6343 - 6361
• Main Authors: Wang, Yaqing, Xian, Chaofan, Jiang, Yaqiong, Pan, Xuelian, Ouyang, Zhiyun
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer Netherlands 01.10.2020; Springer Nature B.V
• Subjects: Anthropogenic factors; Assimilation; Cities; Depletion; Deterioration; Earth and Environmental Science; Ecology; Economic Geology; Economic Growth; Environment; Environmental Economics; Environmental Management; Footprint analysis; Greywater; Human influences; Infrastructure; Nitrogen; Pollution levels; Quality assessment; Reduction; Resource depletion; Rivers; Sustainable Development; Urban areas; Urban environments; Urban growth; Urbanization; Water consumption; Water pollution; Water quality; Water resources; China; Sustainable management; Water pollution; Gray water footprint; Anthropogenic reactive nitrogen; Shenzhen
• ISSN: 1387-585X; 1573-2975
• DOI: 10.1007/s10668-019-00482-6

With rapid urbanization in China, anthropogenic reactive nitrogen (Nr) releases to urban environment contribute to water resource depletion and serious water quality deterioration. This study assessed nitrogen-related water pollution in an urbanized city (Shenzhen, China) by using the indicators of gray water footprint (GWF) and water pollution level (WPL), concerning potential impacts of aquatic Nr releases on administrate districts and affiliated urban rivers within city. The results showed that urban aquatic Nr releases decreased dynamically with average 15.98 thousand t N during 2001–2016, accompanied with the reduction in gray water footprint from 23.06 × 10 8 to 15.56 × 10 8  m 3 , mainly from residential activities. Administrative districts of Baoan and Longgang were the main regional GWF producers during 2012–2016. Areas containing urban rivers with especially high potential WPLs were mainly located in northern Baoan, and northeast Longgang district, and the risks for water pollution development still spread over urban water networks in Shenzhen City. Several strategies (encourage sustainable lifestyle, target infrastructure improvements and develop district-level GWF reduction targets) are needed to mitigate urban water pollution. This study provides insights into the status of assimilation capacity within a city to mitigate aquatic N pollution, meeting current water challenge.