Ecological risk assessment from the viewpoint of surface water pollution in Xiamen City, China

• Published in: International journal of sustainable development and world ecology Vol. 25; no. 5; pp. 403 - 410
• Main Authors: Yan, Yan, Qian, Yao, Wang, Ziyan, Yang, Xinyi, Wang, Haowei
• Format: Journal Article
• Language: English
• Published: Abingdon Taylor & Francis Ltd 04.07.2018
• Subjects: Accumulation; Ammonium; ammonium nitrogen; Aquatic ecosystems; Chemical oxygen demand; China; Contaminants; Ecological effects; Ecological risk assessment; Economic development; Ecosystem services; endpoint indicator; environmental assessment; environmental impact; Environmental security; equations; Nitrogen; Organic chemistry; Pollutants; Pollution effects; Pollution sources; Population growth; Purification; Quotients; Regression analysis; risk; Risk assessment; Risk levels; Socioeconomic factors; Surface water; Urban areas; Urbanization; Water pollution; Water purification; Water quality; China
• ISSN: 1350-4509; 1745-2627; 1745-2627
• DOI: 10.1080/13504509.2017.1422567

The ecological security of urban surface water is subject to significant risk due to rapid urbanization. Pollutant discharge and accumulation are among the most critical stressors endangering urban surface water and affecting the normal operation of urban aquatic ecosystem services. In this study, we assessed how pollutant accumulation stresses water purification systems, which perform important urban ecosystem services. First, we applied a water environmental capacity model to calculate thresholds of urban surface water environmental capacity under a given water quality target. Second, based on a stepwise regression method, an equation was used to describe the relationship between stressor factors (pollutant accumulation) and measurable socioeconomic indicators. Third, an ecological risk index was used as an assessment endpoint indicator to assess the negative ecological effect of pollutant accumulation. Finally, risk level was classified according to the risk quotient method. Taking Xiamen City as an example, we analyzed the contribution of different sources of pollutants and evaluated the urban ecological risk posed by two major contaminants present in the environment by measuring chemical oxygen demand (COD) and ammonium nitrogen (NH4+-N). The results show that the ecological risk indexes of both COD and NH4+-N are expected to decrease from 2020 to 2030; that of COD is expected to fall from medium to low, whereas that of NH4+-N is expected to fall from high to medium. These findings demonstrate that the ecological risk posed to the surface water in Xiamen City can be reduced by controlling population growth, optimizing industrial structure, and promoting economic development.