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Biological effect and chemical monitoring of Watch List substances in European surface waters: steroidal estrogens and diclofenac – Effect-based methods for monitoring frameworks
Simon, E., Duffek, A., Stahl, C., Frey, M., Scheurer, M., Tuerk, J., … Vermeirssen, E. L. M. (2022). Biological effect and chemical monitoring of Watch List substances in European surface waters: steroidal estrogens and diclofenac – Effect-based methods for monitoring frameworks. Environment International, 159, 107033 (12 pp.). https://doi.org/10.1016/j.envint.2021.107033
Estrogenicity of chemical mixtures revealed by a panel of bioassays
Gómez, L., Niegowska, M., Navarro, A., Amendola, L., Arukwe, A., Ait-Aissa, S., … Lettieri, T. (2021). Estrogenicity of chemical mixtures revealed by a panel of bioassays. Science of the Total Environment, 785, 147284 (16 pp.). https://doi.org/10.1016/j.scitotenv.2021.147284
<em>In vitro</em> digestion of tire particles in a fish model (<em>Oncorhynchus mykiss</em>): solubilization kinetics of heavy metals and effects of food coingestion
Masset, T., Ferrari, B. J. D., Oldham, D., Dudefoi, W., Minghetti, M., Schirmer, K., … Breider, F. (2021). In vitro digestion of tire particles in a fish model (Oncorhynchus mykiss): solubilization kinetics of heavy metals and effects of food coingestion. Environmental Science and Technology, 55(23), 15788-15796. https://doi.org/10.1021/acs.est.1c04385
Estrogene von Nutztieren. Matchentscheidend oder kaum relevant für die Gewässerbelastung?
Rechsteiner, D., Wettstein, F. E., Vermeirssen, E. L. M., Hollender, J., & Bucheli, T. D. (2021). Estrogene von Nutztieren. Matchentscheidend oder kaum relevant für die Gewässerbelastung? Aqua & Gas, 101(4), 40-46.
Estrogenic activity of food contact materials - evaluation of 20 chemicals using a yeast estrogen screen on HPTLC or 96-well plates
Bergmann, A. J., Simon, E., Schifferli, A., Schönborn, A., & Vermeirssen, E. L. M. (2020). Estrogenic activity of food contact materials - evaluation of 20 chemicals using a yeast estrogen screen on HPTLC or 96-well plates. Analytical and Bioanalytical Chemistry, 412, 4527-4536. https://doi.org/10.1007/s00216-020-02701-w
Natural estrogens in surface waters of a catchment with intensive livestock farming in Switzerland
Rechsteiner, D., Wettstein, F. E., Warren, B. P., Vermeirssen, E. L. M., Simon, E., Schneider, M. K., … Bucheli, T. D. (2020). Natural estrogens in surface waters of a catchment with intensive livestock farming in Switzerland. Environmental Science: Processes and Impacts, 22(11), 2244-2255. https://doi.org/10.1039/D0EM00317D
Sampling rates for passive samplers exposed to a field-relevant peak of 42 organic pesticides
Schreiner, V. C., Bakanov, N., Kattwinkel, M., Könemann, S., Kunz, S., Vermeirssen, E. L. M., & Schäfer, R. B. (2020). Sampling rates for passive samplers exposed to a field-relevant peak of 42 organic pesticides. Science of the Total Environment, 740, 140376 (10 pp.). https://doi.org/10.1016/j.scitotenv.2020.140376
Mechanistic model describing the uptake of chemicals by aquatic integrative samplers: comparison to data and implications for improved sampler configurations
Endo, S., Matsuura, Y., & Vermeirssen, E. L. M. (2019). Mechanistic model describing the uptake of chemicals by aquatic integrative samplers: comparison to data and implications for improved sampler configurations. Environmental Science and Technology, 53(3), 1482-1489. https://doi.org/10.1021/acs.est.8b06225
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
Ökotoxikologische Untersuchungen: Risiko von PSM bestätigt. NAWA-SPEZ-Studie 2017 zeigt Beeinträchtigung von Gewässerorganismen
Junghans, M., Langer, M., Baumgartner, C., Vermeirssen, E., & Werner, I. (2019). Ökotoxikologische Untersuchungen: Risiko von PSM bestätigt. NAWA-SPEZ-Studie 2017 zeigt Beeinträchtigung von Gewässerorganismen. Aqua & Gas, 99(4), 26-34.
Effects of treated wastewater on the ecotoxicity of small streams – unravelling the contribution of chemicals causing effects
Kienle, C., Vermeirssen, E. L. M., Schifferli, A., Singer, H., Stamm, C., & Werner, I. (2019). Effects of treated wastewater on the ecotoxicity of small streams – unravelling the contribution of chemicals causing effects. PLoS One, 14(12), e0226278 (30 pp.). https://doi.org/10.1371/journal.pone.0226278
No additive genetic variance for tolerance to ethynylestradiol exposure in natural populations of brown trout (&lt;em&gt;Salmo trutta&lt;/em&gt;)
Marques da Cunha, L., Uppal, A., Seddon, E., Nusbaumer, D., Vermeirssen, E. L. M., & Wedekind, C. (2019). No additive genetic variance for tolerance to ethynylestradiol exposure in natural populations of brown trout (Salmo trutta). Evolutionary Applications, 12, 940-950. https://doi.org/10.1111/eva.12767
Passive sampling of organic contaminants across the water-sediment interface of an urban stream
Mechelke, J., Vermeirssen, E. L. M., & Hollender, J. (2019). Passive sampling of organic contaminants across the water-sediment interface of an urban stream. Water Research, 165, 114966 (11 pp.). https://doi.org/10.1016/j.watres.2019.114966
Tracing organic contaminants across the water-sediment interface using novel analytical approaches
Mechelke, J. (2019). Tracing organic contaminants across the water-sediment interface using novel analytical approaches [Doctoral dissertation, ETH Zurich]. https://doi.org/10.3929/ethz-b-000415274
Mikroverunreinigungen aus Siedlungen. Messungen in 20 Mischabwasserentlastungen mit Passivsammler
Mutzner, L., Mangold, S., Dicht, S., Bohren, C., Vermeirssen, E. L. M., Scheidegger, A., … Ort, C. (2019). Mikroverunreinigungen aus Siedlungen. Messungen in 20 Mischabwasserentlastungen mit Passivsammler. Aqua & Gas, 99(10), 28-35.
Passive samplers in sewers and rivers with highly fluctuating micropollutant concentrations – Better than we thought
Mutzner, L., Vermeirssen, E. L. M., & Ort, C. (2019). Passive samplers in sewers and rivers with highly fluctuating micropollutant concentrations – Better than we thought. Journal of Hazardous Materials, 361, 312-320. https://doi.org/10.1016/j.jhazmat.2018.07.040
Passive samplers to quantify micropollutants in sewer overflows: accumulation behaviour and field validation for short pollution events
Mutzner, L., Vermeirssen, E. L. M., Mangold, S., Maurer, M., Scheidegger, A., Singer, H., … Ort, C. (2019). Passive samplers to quantify micropollutants in sewer overflows: accumulation behaviour and field validation for short pollution events. Water Research, 160, 350-360. https://doi.org/10.1016/j.watres.2019.04.012
Bioavailability of estrogenic compounds from sediment in the context of flood events evaluated by passive sampling
Müller, A. K., Leser, K., Kämpfer, D., Riegraf, C., Crawford, S. E., Smith, K., … Hollert, H. (2019). Bioavailability of estrogenic compounds from sediment in the context of flood events evaluated by passive sampling. Water Research, 161, 540-548. https://doi.org/10.1016/j.watres.2019.06.020
Sex-specific changes in gene expression in response to estrogen pollution around the onset of sex differentiation in grayling (Salmonidae)
Selmoni, O. M., Maitre, D., Roux, J., Wilkins, L. G. E., Marques da Cunha, L., Vermeirssen, E. L. M., … Wedekind, C. (2019). Sex-specific changes in gene expression in response to estrogen pollution around the onset of sex differentiation in grayling (Salmonidae). BMC Genomics, 20, 583 (12 pp.). https://doi.org/10.1186/s12864-019-5955-z
Solid-phase extraction of estrogens and herbicides from environmental waters for bioassay analysis—effects of sample volume on recoveries
Simon, E., Schifferli, A., Bucher, T. B., Olbrich, D., Werner, I., & Vermeirssen, E. L. M. (2019). Solid-phase extraction of estrogens and herbicides from environmental waters for bioassay analysis—effects of sample volume on recoveries. Analytical and Bioanalytical Chemistry, 411(10), 2057-2069. https://doi.org/10.1007/s00216-019-01628-1
 

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