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  • (-) Organizational Unit = Environmental Chemistry UCHEM
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Wood-based activated biochar to eliminate organic micropollutants from biologically treated wastewater
Hagemann, N., Schmidt, H. P., Kägi, R., Böhler, M., Sigmund, G., Maccagnan, A., … Bucheli, T. D. (2020). Wood-based activated biochar to eliminate organic micropollutants from biologically treated wastewater. Science of the Total Environment, 730, 138417 (11 pp.). https://doi.org/10.1016/j.scitotenv.2020.138417
Microbial community shifts in streams receiving treated wastewater effluent
Mansfeldt, C., Deiner, K., Mächler, E., Fenner, K., Eggen, R. I. L., Stamm, C., … Altermatt, F. (2020). Microbial community shifts in streams receiving treated wastewater effluent. Science of the Total Environment, 709, 135727 (12 pp.). https://doi.org/10.1016/j.scitotenv.2019.135727
Best available technologies and treatment trains to address current challenges in urban wastewater reuse for irrigation of crops in EU countries
Rizzo, L., Gernjak, W., Krzeminski, P., Malato, S., McArdell, C. S., Sanchez Perez, J. A., … Fatta-Kassinos, D. (2020). Best available technologies and treatment trains to address current challenges in urban wastewater reuse for irrigation of crops in EU countries. Science of the Total Environment, 710, 136312 (17 pp.). https://doi.org/10.1016/j.scitotenv.2019.136312
Agriculture versus wastewater pollution as drivers of macroinvertebrate community structure in streams
Burdon, F. J., Munz, N. A., Reyes, M., Focks, A., Joss, A., Räsänen, K., … Stamm, C. (2019). Agriculture versus wastewater pollution as drivers of macroinvertebrate community structure in streams. Science of the Total Environment, 659, 1256-1265. https://doi.org/10.1016/j.scitotenv.2018.12.372
Wastewater alters feeding rate but not vitellogenin level of <i>Gammarus fossarum</i> (Amphipoda)
Ganser, B., Bundschuh, M., Werner, I., Homazava, N., Vermeirssen, E. L. M., Moschet, C., & Kienle, C. (2019). Wastewater alters feeding rate but not vitellogenin level of Gammarus fossarum (Amphipoda). Science of the Total Environment, 657, 1246-1252. https://doi.org/10.1016/j.scitotenv.2018.12.035
Consolidated vs new advanced treatment methods for the removal of contaminants of emerging concern from urban wastewater
Rizzo, L., Malato, S., Antakyali, D., Beretsou, V. G., Đolić, M. B., Gernjak, W., … Fatta-Kassinos, D. (2019). Consolidated vs new advanced treatment methods for the removal of contaminants of emerging concern from urban wastewater. Science of the Total Environment, 655, 986-1008. https://doi.org/10.1016/j.scitotenv.2018.11.265
Spatiotemporal scales of river-groundwater interaction – The role of local interaction processes and regional groundwater regimes
Epting, J., Huggenberger, P., Radny, D., Hammes, F., Hollender, J., Page, R. M., … Auckenthaler, A. (2018). Spatiotemporal scales of river-groundwater interaction – The role of local interaction processes and regional groundwater regimes. Science of the Total Environment, 618, 1224-1243. https://doi.org/10.1016/j.scitotenv.2017.09.219
Comparison of different types of landfill leachate treatments by employment of nontarget screening to identify residual refractory organics and principal component analysis
Pastore, C., Barca, E., Del Moro, G., Di Iaconi, C., Loos, M., Singer, H. P., & Mascolo, G. (2018). Comparison of different types of landfill leachate treatments by employment of nontarget screening to identify residual refractory organics and principal component analysis. Science of the Total Environment, 635, 984-994. https://doi.org/10.1016/j.scitotenv.2018.04.135
Towards the review of the European Union Water Framework management of chemical contamination in European surface water resources
Brack, W., Dulio, V., Ågerstrand, M., Allan, I., Altenburger, R., Brinkmann, M., … Vrana, B. (2017). Towards the review of the European Union Water Framework management of chemical contamination in European surface water resources. Science of the Total Environment, 576, 720-737. https://doi.org/10.1016/j.scitotenv.2016.10.104
Integrating chemical analysis and bioanalysis to evaluate the contribution of wastewater effluent on the micropollutant burden in small streams
Neale, P. A., Munz, N. A., Aїt-Aїssa, S., Altenburger, R., Brion, F., Busch, W., … Hollender, J. (2017). Integrating chemical analysis and bioanalysis to evaluate the contribution of wastewater effluent on the micropollutant burden in small streams. Science of the Total Environment, 576, 785-795. https://doi.org/10.1016/j.scitotenv.2016.10.141
Assessment of a novel device for onsite integrative large-volume solid phase extraction of water samples to enable a comprehensive chemical and effect-based analysis
Schulze, T., Ahel, M., Ahlheim, J., Aït-Aïssa, S., Brion, F., Di Paolo, C., … Brack, W. (2017). Assessment of a novel device for onsite integrative large-volume solid phase extraction of water samples to enable a comprehensive chemical and effect-based analysis. Science of the Total Environment, 581-582, 350-358. https://doi.org/10.1016/j.scitotenv.2016.12.140
European demonstration program on the effect-based and chemical identification and monitoring of organic pollutants in European surface waters
Tousova, Z., Oswald, P., Slobodnik, J., Blaha, L., Muz, M., Hu, M., … Schulze, T. (2017). European demonstration program on the effect-based and chemical identification and monitoring of organic pollutants in European surface waters. Science of the Total Environment, 601-602, 1849-1868. https://doi.org/10.1016/j.scitotenv.2017.06.032
Effect-directed analysis supporting monitoring of aquatic environments — an in-depth overview
Brack, W., Ait-Aissa, S., Burgess, R. M., Busch, W., Creusot, N., Di Paolo, C., … Krauss, M. (2016). Effect-directed analysis supporting monitoring of aquatic environments — an in-depth overview. Science of the Total Environment, 544, 1073-1118. https://doi.org/10.1016/j.scitotenv.2015.11.102
Future water quality monitoring - adapting tools to deal with mixtures of pollutants in water resource management
Ait-Aissa, S., Altenburger, R., Antczak, P., Backhaus, T., Barceló, D., Seiler, T. B., … Brack, W. (2015). Future water quality monitoring - adapting tools to deal with mixtures of pollutants in water resource management. Science of the Total Environment, 512-513, 540-551. https://doi.org/10.1016/j.scitotenv.2014.12.057
The SOLUTIONS project: challenges and responses for present and future emerging pollutants in land and water resources management
Brack, W., Altenburger, R., Schüürmann, G., Krauss, M., López Herráez, D., van Gils, J., … de Aragão Umbuzeiro, G. (2015). The SOLUTIONS project: challenges and responses for present and future emerging pollutants in land and water resources management. Science of the Total Environment, 503-504, 22-31. https://doi.org/10.1016/j.scitotenv.2014.05.143
Physico-chemical characteristics affect the spatial distribution of pesticide and transformation product loss to an agricultural brook
Gassmann, M., Olsson, O., Stamm, C., Weiler, M., & Kümmerer, K. (2015). Physico-chemical characteristics affect the spatial distribution of pesticide and transformation product loss to an agricultural brook. Science of the Total Environment, 532, 733-743. https://doi.org/10.1016/j.scitotenv.2015.06.068
How stressor specific are trait-based ecological indices for ecosystem management?
Schuwirth, N., Kattwinkel, M., & Stamm, C. (2015). How stressor specific are trait-based ecological indices for ecosystem management? Science of the Total Environment, 505, 565-572. https://doi.org/10.1016/j.scitotenv.2014.10.029
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
Identification of phosphorus emission hotspots in agricultural catchments
Kovacs, A., Honti, M., Zessner, M., Eder, A., Clement, A., & Blöschl, G. (2012). Identification of phosphorus emission hotspots in agricultural catchments. Science of the Total Environment, 433, 74-88. https://doi.org/10.1016/j.scitotenv.2012.06.024
Loss rates of urban biocides can exceed those of agricultural pesticides
Wittmer, I. K., Scheidegger, R., Bader, H. P., Singer, H., & Stamm, C. (2011). Loss rates of urban biocides can exceed those of agricultural pesticides. Science of the Total Environment, 409(5), 920-932. https://doi.org/10.1016/j.scitotenv.2010.11.031