Urban wet-weather discharges from combined sewer overflows (CSO) and stormwater outlets (SWO) are a potential pathway for micropollutants (trace contaminants) to surface waters, posing a threat to the environment and possible water reuse applications. Despite large efforts to monitor micropollutants in the last decade, the gained information is still limited and scattered. In a metastudy we performed a data-driven analysis of measurements collected at 77 sites (683 events, 297 detected micropollutants) over the last decade to investigate which micropollutants are most relevant in terms of 1) occurrence and 2) potential risk for the aquatic environment, 3) estimate the minimum number of data to be collected in monitoring studies to reliably obtain concentration estimates, and 4) provide recommendations for future monitoring campaigns. We highlight micropollutants to be prioritized due to their high occurrence and critical concentration levels compared to environmental quality standards. These top-listed micropollutants include contaminants from all chemical classes (pesticides, heavy metals, polycyclic aromatic hydrocarbons, personal care products, pharmaceuticals, and industrial and household chemicals). Analysis of over 30,000 event mean concentrations shows a large fraction of measurements (> 50%) were below the limit of quantification, stressing the need for reliable, standard monitoring procedures. High variability was observed among events and sites, with differences between micropollutant classes. The number of events required for a reliable estimate of site mean concentrations (error bandwidth of 1 around the “true" value) depends on the individual micropollutant. The median minimum number of events is 7 for CSO (2 to 31, 80%-interquantile) and 6 for SWO (1 to 25 events, 80%-interquantile). Our analysis indicates the minimum number of sites needed to assess global pollution levels and our data collection and analysis can be used to estimate the required number of sites for an urban catchment. Our data-driven analysis demonstrates how future wet-weather monitoring programs will be more effective if the consequences of high variability inherent in urban wet-weather discharges are considered.

Mutzner, L. , Furrer, V. , Castebrunet, H. , Gernjak, W. , Gromaire, M.-C. , Matzinger, A. , Mikkelsen, P. S. , Selbig, W. , Vezzaro, L. (2021): A data-driven analysis of trace contaminants in wet-weather discharges.

15th International Conference on Urban Drainage - ICUD Melbourne. Online Conference. 25.-28.10.2021


The results highlight 35 contaminants that should be prioritized in regulatory and research monitoring campaigns, thus ensuring that efforts and resources are optimized. The proposed contaminants need to be carefully assessed as country-specific regulations and habits might lead to changes in prioritization. Efforts need to go towards an analysis of different compound classes as one class might not cover much of the toxicity spectrum. The observed high variability and censoring in the collected data leads to high uncertainty for decision making and stresses the importance to redesign future wet-weather monitoring programs.

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