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Microbial biocatalysis within us: the underexplored xenobiotic biotransformation potential of the urinary tract microbiota
Marti, T. D., Schärer, M. R., & Robinson, S. L. (2023). Microbial biocatalysis within us: the underexplored xenobiotic biotransformation potential of the urinary tract microbiota. Chimia, 77(6), 424-431. https://doi.org/10.2533/chimia.2023.424
Temperature, phytoplankton density and bacteria diversity drive the biotransformation of micropollutants in a lake ecosystem
Chalifour, A., Walser, J. C., Pomati, F., & Fenner, K. (2021). Temperature, phytoplankton density and bacteria diversity drive the biotransformation of micropollutants in a lake ecosystem. Water Research, 202, 117412 (10 pp.). https://doi.org/10.1016/j.watres.2021.117412
Heterotrophic enzymatic biotransformations of organic micropollutants in activated sludge
Kennes-Veiga, D. M., Vogler, B., Fenner, K., Carballa, M., & Lema, J. M. (2021). Heterotrophic enzymatic biotransformations of organic micropollutants in activated sludge. Science of the Total Environment, 780, 146564 (10 pp.). https://doi.org/10.1016/j.scitotenv.2021.146564
Qualitative risk analysis for contents of dry toilets used to produce novel recycling fertilizers
Krause, A., Häfner, F., Augustin, F., & Udert, K. M. (2021). Qualitative risk analysis for contents of dry toilets used to produce novel recycling fertilizers. Circular Economy and Sustainability, 1, 1107-1146. https://doi.org/10.1007/s43615-021-00068-3
Prioritization of active pharmaceutical ingredients in hospital wastewater
Daouk, S., Chèvre, N., Vernaz, N., Daali, Y., & Fleury-Souverain, S. (2018). Prioritization of active pharmaceutical ingredients in hospital wastewater. In P. Verlicchi (Ed.), Handbook of environmental chemistry: Vol. 60. Hospital wastewaters (pp. 49-69). https://doi.org/10.1007/698_2017_14
Clobetasol propionate causes immunosuppression in zebrafish (Danio rerio) at environmentally relevant concentrations
Hidasi, A. O., Groh, K. J., Suter, M. J. F., & Schirmer, K. (2017). Clobetasol propionate causes immunosuppression in zebrafish (Danio rerio) at environmentally relevant concentrations. Ecotoxicology and Environmental Safety, 138, 16-24. https://doi.org/10.1016/j.ecoenv.2016.11.024
Modeling in-sewer transformations at catchment scale – implications on drug consumption estimates in wastewater-based epidemiology
McCall, A. K., Palmitessa, R., Blumensaat, F., Morgenroth, E., & Ort, C. (2017). Modeling in-sewer transformations at catchment scale – implications on drug consumption estimates in wastewater-based epidemiology. Water Research, 122, 655-668. https://doi.org/10.1016/j.watres.2017.05.034
Pesticides drive risk of micropollutants in wastewater-impacted streams during low flow conditions
Munz, N. A., Burdon, F. J., de Zwart, D., Junghans, M., Melo, L., Reyes, M., … Stamm, C. (2017). Pesticides drive risk of micropollutants in wastewater-impacted streams during low flow conditions. Water Research, 110, 366-377. https://doi.org/10.1016/j.watres.2016.11.001
Extended anaerobic conditions in the biological wastewater treatment: higher reduction of toxicity compared to target organic micropollutants
Völker, J., Vogt, T., Castronovo, S., Wick, A., Ternes, T. A., Joss, A., … Wagner, M. (2017). Extended anaerobic conditions in the biological wastewater treatment: higher reduction of toxicity compared to target organic micropollutants. Water Research, 116, 220-230. https://doi.org/10.1016/j.watres.2017.03.030
Tracing the limits of organic micropollutant removal in biological wastewater treatment
Falås, P., Wick, A., Castronovo, S., Habermacher, J., Ternes, T. A., & Joss, A. (2016). Tracing the limits of organic micropollutant removal in biological wastewater treatment. Water Research, 95, 240-249. https://doi.org/10.1016/j.watres.2016.03.009
Evaluation of in-situ calibration of Chemcatcher passive samplers for 322 micropollutants in agricultural and urban affected rivers
Moschet, C., Vermeirssen, E. L. M., Singer, H., Stamm, C., & Hollender, J. (2015). Evaluation of in-situ calibration of Chemcatcher passive samplers for 322 micropollutants in agricultural and urban affected rivers. Water Research, 71, 306-317. https://doi.org/10.1016/j.watres.2014.12.043
LC-MS/MS determination of potential endocrine disruptors of cortico signalling in rivers and wastewaters
Ammann, A. A., Macikova, P., Groh, K. J., Schirmer, K., & Suter, M. J. F. (2014). LC-MS/MS determination of potential endocrine disruptors of cortico signalling in rivers and wastewaters. Analytical and Bioanalytical Chemistry, 406(29), 7653-7665. https://doi.org/10.1007/s00216-014-8206-9
Spatial extent and ecotoxicological risk assessment of a micropollutant-contaminated wastewater plume in Lake Geneva
Hoerger, C. C., Akhtman, Y., Martelletti, L., Rutler, R., Bonvin, F., Grange, A., … Kohn, T. (2014). Spatial extent and ecotoxicological risk assessment of a micropollutant-contaminated wastewater plume in Lake Geneva. Aquatic Sciences, 76(Suppl. 1), S7-S19. https://doi.org/10.1007/s00027-013-0315-6
Organic micropollutants in the Yangtze River: seasonal occurrence and annual loads
Qi, W., Müller, B., Pernet-Coudrier, B., Singer, H., Liu, H., Qu, J., & Berg, M. (2014). Organic micropollutants in the Yangtze River: seasonal occurrence and annual loads. Science of the Total Environment, 472, 789-799. https://doi.org/10.1016/j.scitotenv.2013.11.019
Is biological treatment a viable alternative for micropollutant removal in drinking water treatment processes?
Benner, J., Helbling, D. E., Kohler, H. P. E., Wittebol, J., Kaiser, E., Prasse, C., … Boon, N. (2013). Is biological treatment a viable alternative for micropollutant removal in drinking water treatment processes? Water Research, 47(16), 5955-5976. https://doi.org/10.1016/j.watres.2013.07.015
Substance flow analysis as a tool for mitigating the impact of pharmaceuticals on the aquatic system
Chèvre, N., Coutu, S., Margot, J., Wynn, H. K., Bader, H. P., Scheidegger, R., & Rossi, L. (2013). Substance flow analysis as a tool for mitigating the impact of pharmaceuticals on the aquatic system. Water Research, 47(9), 2995-3005. https://doi.org/10.1016/j.watres.2013.03.004
Micropollutant removal by attached and suspended growth in a hybrid biofilm-activated sludge process
Falås, P., Longrée, P., La Cour Jansen, J., Siegrist, H., Hollender, J., & Joss, A. (2013). Micropollutant removal by attached and suspended growth in a hybrid biofilm-activated sludge process. Water Research, 47(13), 4498-4506. https://doi.org/10.1016/j.watres.2013.05.010
Micropollutant point sources in the built environment: identification and monitoring of priority pharmaceutical substances in hospital effluents
Helwig, K., Hunter, C., MacLachlan, J., McNaughtan, M., Roberts, J., Cornelissen, A., … Pahl, O. (2013). Micropollutant point sources in the built environment: identification and monitoring of priority pharmaceutical substances in hospital effluents. Journal of Environmental and Analytical Toxicology, 3(4), 1-10. https://doi.org/10.4172/2161-0525.1000177
Removal of highly polar micropollutants from wastewater by powdered activated carbon
Kovalova, L., Knappe, D. R. U., Lehnberg, K., Kazner, C., & Hollender, J. (2013). Removal of highly polar micropollutants from wastewater by powdered activated carbon. Environmental Science and Pollution Research, 20(6), 3607-3615. https://doi.org/10.1007/s11356-012-1432-9
Urban wastewater treatment plants as hotspots for the release of antibiotics in the environment: a review
Michael, I., Rizzo, L., McArdell, C. S., Manaia, C. M., Merlin, C., Schwartz, T., … Fatta-Kassinos, D. (2013). Urban wastewater treatment plants as hotspots for the release of antibiotics in the environment: a review. Water Research, 47(3), 957-995. https://doi.org/10.1016/j.watres.2012.11.027