School of Geography, Earth and Atmospheric Sciences - Research Publications
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ItemFreshwater Supply to Metropolitan Shanghai: Issues of Quality from Source to Consumers(MDPI, 2019-10)Shanghai is experiencing drinking water supply problems that are caused by heavy pollution of its raw water supply, deficiencies in its treatment processes, and water quality deterioration in the distribution system. However, little attention has been paid these problems of water quality in raw water, water treatment, and household drinking water. Based on water quality data from 1979 to 2016, we show that microbes (TBC), eutrophication (TP, TN, and NH3–N), heavy metals (Fe, Mn, and Hg), and organic contamination (chemical oxygen demand (COD), detergent (Linear Alklybenzene Sulfonate, LAS), and volatile phenols (VP)) pollute the raw water sources of the Huangpu River and the Changjiang (Yangtze River) estuary. The average concentrations of these contaminants in the Huangpu River are almost double that of the Changjiang estuary, forcing a rapid shift to the Changjiang estuary for raw water. In spite of filtering and treatment, TN, NH3–N, Fe, COD, and chlorine maxima of the treated water and drinking water still exceed the Chinese National Standard. We determine that the relevant threats from the water source to household water in Shanghai are: (1) eutrophication arising from highly concentrated TN, TP, COD, and algal density in the raw water; (2) increasing salinity in the river estuary, especially at the Qingcaosha Reservoir (currently the major freshwater source for Shanghai); (3) more than 50% of organic constituents and by-products remain in treated water; and, (4) bacteria and turbidity increase in the course of water delivery to users. The analysis presents a holistic assessment of the water quality threats to metropolitan Shanghai in relation to the city’s rapid development.
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ItemInside-out: Chinese academic assessments of large-scale water infrastructure(WILEY, 2021-11)Abstract Little is known in the international academic community about Chinese‐language research on water management. To remedy this deficit, this paper reviews current mainland Chinese understandings of the role of large‐scale water infrastructures as tools of water resources management. We reviewed 461 papers published in mainland Chinese journals by Chinese scholars. This review suggests that the dominant approach to water management reflects the confines of government priorities—large‐scale, concrete‐heavy, infrastructure‐based means of moving water around the country so as to meet demands and stimulate economic growth. Suppression of critical voices means that infrastructure is generally rendered apolitical: the critiques are about practical issues, such as technological, managerial, or administrative problems. There are exceptions to this characterization that adopt more critical frames; however, they reflect on water management elsewhere or in the past rather than on contemporary China. While these more critical papers are interesting and important contributions to our understanding of the politics of hydraulic infrastructures, the literature as a whole says little about the politics of infrastructure in China now. In effect, much of the literature in Chinese on water management in China simply acts as an arm of a machine—a network of corporations, universities, international institutions, and arms of the government, together tasked with identifying and framing what are water management issues, formulating standardized procedures for tackling those issues, and then constructing solutions to them. This article is categorized under: Engineering Water > Planning Water Human Water > Water Governance