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Electrochemical analysis of changes in iron oxide reducibility during abiotic ferrihydrite transformation into goethite and magnetite
Aeppli, M., Kaegi, R., Kretzschmar, R., Voegelin, A., Hofstetter, T. B., & Sander, M. (2019). Electrochemical analysis of changes in iron oxide reducibility during abiotic ferrihydrite transformation into goethite and magnetite. Environmental Science and Technology, 53(7), 3568-3578. https://doi.org/10.1021/acs.est.8b07190
Future water quality monitoring: improving the balance between exposure and toxicity assessments of real-world pollutant mixtures
Altenburger, R., Brack, W., Burgess, R. M., Busch, W., Escher, B. I., Focks, A., … Krauss, M. (2019). Future water quality monitoring: improving the balance between exposure and toxicity assessments of real-world pollutant mixtures. Environmental Sciences Europe, 31(1), 12. https://doi.org/10.1186/s12302-019-0193-1
Untargeted time-pattern analysis of LC-HRMS data to detect spills and compounds with high fluctuation in influent wastewater
Alygizakis, N. A., Gago-Ferrero, P., Hollender, J., & Thomaidis, N. S. (2019). Untargeted time-pattern analysis of LC-HRMS data to detect spills and compounds with high fluctuation in influent wastewater. Journal of Hazardous Materials, 361, 19-29. https://doi.org/10.1016/j.jhazmat.2018.08.073
Climate change and freshwater ecosystems. Impacts on water quality and ecological status
Benateau, S., Gaudard, A., Stamm, C., & Altermatt, F. (2019). Climate change and freshwater ecosystems. Impacts on water quality and ecological status. Dübendorf: Eawag.
Mineral identity, natural organic matter, and repeated contaminant exposures do not affect the carbon and nitrogen isotope fractionation of 2,4-dinitroanisole during abiotic reduction
Berens, M. J., Ulrich, B. A., Strehlau, J. H., Hofstetter, T. B., & Arnold, W. A. (2019). Mineral identity, natural organic matter, and repeated contaminant exposures do not affect the carbon and nitrogen isotope fractionation of 2,4-dinitroanisole during abiotic reduction. Environmental Science: Processes and Impacts, 21(1), 51-62. https://doi.org/10.1039/C8EM00381E
Effect-based methods are key. The European Collaborative project SOLUTIONS recommends integrating effect-based methods for diagnosis and monitoring of water quality
Brack, W., Aissa, S. A., Backhaus, T., Dulio, V., Escher, B. I., Faust, M., … Altenburger, R. (2019). Effect-based methods are key. The European Collaborative project SOLUTIONS recommends integrating effect-based methods for diagnosis and monitoring of water quality. Environmental Sciences Europe, 31(1), 10 (6 pp.). https://doi.org/10.1186/s12302-019-0192-2
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
Pesticides dans les eaux de surface. Mesures de réduction et monitoring - synthèse des apprentissages liés aux projets «Phytos 62A»
Daouk, S., Doppler, T., Wittmer, I., Junghans, M., Coster, M., & Stamm, C. (2019). Pesticides dans les eaux de surface. Mesures de réduction et monitoring - synthèse des apprentissages liés aux projets «Phytos 62A». Aqua & Gas, 99(1), 66-73.
Exposure to pesticides and health effects on farm owners and workers from conventional and organic agricultural farms in Costa Rica: protocol for a cross-sectional study
Fuhrimann, S., Winkler, M. S., Staudacher, P., Weiss, F. T., Stamm, C., Eggen, R. I., … Mora, A. M. (2019). Exposure to pesticides and health effects on farm owners and workers from conventional and organic agricultural farms in Costa Rica: protocol for a cross-sectional study. JMIR Research Protocols, 8(1), e10914 (13 pp.). https://doi.org/10.2196/10914
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
Aktivkohle - Made in Switzerland!
Hagemann, N., Bucheli, T. D., Schmidt, H. P., Kägi, R., Böhler, M., & McArdell, C. S. (2019). Aktivkohle - Made in Switzerland!. Aqua & Gas, 99(1), 32-38.
The role of analytical chemistry in exposure science: Focus on the aquatic environment
Hernández, F., Bakker, J., Bijlsma, L., de Boer, J., Botero-Coy, A. M., Bruinen de Bruin, Y., … Hogendoorn, E. A. (2019). The role of analytical chemistry in exposure science: Focus on the aquatic environment. Chemosphere, 564-583. https://doi.org/10.1016/j.chemosphere.2019.01.118
Spatial and Temporal Variability in Attenuation of Polar Organic Micropollutants in an Urban Lowland Stream
Jaeger, A., Posselt, M., Betterle, A., Schaper, J., Mechelke, J., Coll, C., & Lewandowski, J. (2019). Spatial and Temporal Variability in Attenuation of Polar Organic Micropollutants in an Urban Lowland Stream. Environmental Science and Technology, 53(5), 2383-2395. https://doi.org/10.1021/acs.est.8b05488
Cyanobacterial peptides beyond microcystins – a review on co-occurrence, toxicity, and challenges for risk assessment
Janssen, E. M. L. (2019). Cyanobacterial peptides beyond microcystins – a review on co-occurrence, toxicity, and challenges for risk assessment. Water Research, 151, 488-499. https://doi.org/10.1016/j.watres.2018.12.048
Wastewater treatment plant resistomes are shaped by bacterial composition, genetic exchange, and upregulated expression in the effluent microbiomes
Ju, F., Beck, K., Yin, X., Maccagnan, A., McArdell, C. S., Singer, H. P., … Bürgmann, H. (2019). Wastewater treatment plant resistomes are shaped by bacterial composition, genetic exchange, and upregulated expression in the effluent microbiomes. ISME Journal, 13(2), 346-360. https://doi.org/10.1038/s41396-018-0277-8
Reactions of aliphatic amines with ozone: kinetics and mechanisms
Lim, S., McArdell, C. S., & von Gunten, U. (2019). Reactions of aliphatic amines with ozone: kinetics and mechanisms. Water Research, 157, 514-528. https://doi.org/10.1016/j.watres.2019.03.089
GC–QTOFMS with a low-energy electron ionization source for advancing isotopologue analysis in 13 C-based metabolic flux analysis
Mairinger, T., Sanderson, J., & Hann, S. (2019). GC–QTOFMS with a low-energy electron ionization source for advancing isotopologue analysis in 13 C-based metabolic flux analysis. Analytical and Bioanalytical Chemistry, 411(8), 1495-1502. https://doi.org/10.1007/s00216-019-01590-y
Microbial residence time is a controlling parameter of the taxonomic composition and functional profile of microbial communities
Mansfeldt, C., Achermann, S., Men, Y., Walser, J. C., Villez, K., Joss, A., … Fenner, K. (2019). Microbial residence time is a controlling parameter of the taxonomic composition and functional profile of microbial communities. ISME Journal. https://doi.org/10.1038/s41396-019-0371-6
Vacuum-assisted evaporative concentration combined with LC-HRMS/MS for ultra-trace-level screening of organic micropollutants in environmental water samples
Mechelke, J., Longrée, P., Singer, H., & Hollender, J. (2019). Vacuum-assisted evaporative concentration combined with LC-HRMS/MS for ultra-trace-level screening of organic micropollutants in environmental water samples. Analytical and Bioanalytical Chemistry. https://doi.org/10.1007/s00216-019-01696-3
<sup>13</sup>C- and<sup>15</sup>N-isotope analysis of desphenylchloridazon by liquid chromatography–isotope-ratio mass spectrometry and derivatization gas chromatography–isotope-ratio mass spectrometry
Melsbach, A., Ponsin, V., Torrentó, C., Lihl, C., Hofstetter, T. B., Hunkeler, D., & Elsner, M. (2019). 13C- and15N-isotope analysis of desphenylchloridazon by liquid chromatography–isotope-ratio mass spectrometry and derivatization gas chromatography–isotope-ratio mass spectrometry. Analytical Chemistry, 91(5), 3412-3420. https://doi.org/10.1021/acs.analchem.8b04906
 

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