The evolution of chemical risk in a Chinese river catchment exposed to untreated wastewater

Jackson, B W and Zhu, Y and Sweetman, A J (2026) The evolution of chemical risk in a Chinese river catchment exposed to untreated wastewater. Environmental Toxicology and Chemistry. ISSN 0730-7268

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Abstract

The risks posed by chemicals released with domestic wastewater can be reduced by treating wastewater prior to its release; but in developing countries such as China, many of its settlements lack the infrastructure to treat its domestic wastewater. Improving our understanding of the risk posed by these chemicals in catchments that are partially served by sewage treatment works would enable this risk to be better managed. The spatially explicit chemical risk assessment model, Geo-referenced Regional Exposure Assessment Tool for European Rivers (GREAT-ER), was used to determine how chemical risk varies across the East River catchment, South-East China, in response to the construction of new sewage treatment works and to population change between 2010 through 2020. We evaluated the risks from two naturally occurring estrogens, estrone and 17β-estradiol, as well as two personal care product ingredients, triclosan and triclocarban. Model predictions suggest that initially, chemical concentrations decrease substantially because of the rapid construction of new sewage treatment works throughout the catchment, but as the rate of construction slowed and population continued to increase, chemical risk increased, with concentrations for most chemicals increasing to levels greater than in 2010. We then explored the potential impact of treating 100% of domestic wastewater within the catchment, which we estimated would sufficiently reduce chemical risk for triclocarban and estrone. Subsequently, to try and reduce the risk posed by triclosan, we theoretically reduced the usage of triclosan until concentrations were reduced to levels below the predicted no effect concentration. The results from this analysis suggested that triclosan usage would need to be reduced by approximately 90% to reach safe concentrations in the East River catchment.