Details zur Publikation

Kategorie Textpublikation
Referenztyp Zeitschriften
DOI 10.1029/2021EF002601
Lizenz creative commons licence
Titel (primär) An analytical framework for determining the ecological risks of wastewater discharges in river networks under climate change
Autor Yang, S.; Büttner, O.; Kumar, R. ORCID logo ; Basso, S.; Borchardt, D.
Quelle Earth's Future
Erscheinungsjahr 2022
Department ASAM; CHS; CATHYD
Band/Volume 10
Heft 10
Seite von e2021EF002601
Sprache englisch
Topic T5 Future Landscapes
Keywords Analytical assessment framework; Wastewater treatment plants emissions; River stream-order; Dilution; Local-scale nutrients concentrations
Abstract Over the last decades, treatment of domestic wastewater promoted by environmental regulations have reduced human health risks and improved water quality. However, ecological risks caused by effluents of wastewater treatment plants (WWTPs) discharged into rivers still persist. Moreover, the evolution of these ecological risks in the future is intimately related to effects of changing climate, especially regarding streamflow in receiving rivers. Here, we present an analytical and transferable framework for assessing the ecological risks posed by WWTP-effluents at the catchment-scale. The framework combines the size-class k of WWTPs, which is a load-proxy, with their outflows’ location in river networks, represented by stream-order ω. We identify ecological risks by using three proxy indicators: the urban discharge fraction and the local-scale concentrations of each total phosphorous and ammonium-nitrogen discharged from WWTPs. About 3,200 WWTPs over three large catchments (Rhine, Elbe, and Weser) in Central Europe were analyzed by incorporating simulated streamflow for the most extreme projected climate change scenario. We found that WWTPs causing ecological risks in future prevail in lower ω, across almost all k. Distinct patterns of ecological risks are identified in the k-ω framework for different indicators and catchments. We show, as climate changes, intensified risks are especially expected in lower ω receiving effluents of intermediate-k WWTPs. We discuss implications of our findings for prioritizing WWTPs upgrading and urging updates on environmental regulations. Further discussions underline the feasibility of applying the framework to any geographical regions, and highlight its potentials to help achieving global long-term commitments on freshwater security.
dauerhafte UFZ-Verlinkung
Yang, S., Büttner, O., Kumar, R., Basso, S., Borchardt, D. (2022):
An analytical framework for determining the ecological risks of wastewater discharges in river networks under climate change
Earth Future 10 (10), e2021EF002601 10.1029/2021EF002601