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  • (-) Eawag Departments = Environmental Toxicology UTOX
  • (-) Publication Year = 2006 - 2019
  • (-) Keywords = ecotoxicology
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Evaluation of phototrophic stream biofilms under stress: comparing traditional and novel ecotoxicological endpoints after exposure to diuron
Sgier, L., Behra, R., Schönenberger, R., Kroll, A., & Zupanic, A. (2018). Evaluation of phototrophic stream biofilms under stress: comparing traditional and novel ecotoxicological endpoints after exposure to diuron. Frontiers in Microbiology, 9, 2974 (11 pp.). https://doi.org/10.3389/fmicb.2018.02974
Criteria for Reporting and Evaluating ecotoxicity Data (CRED): comparison and perception of the Klimisch and CRED methods for evaluating reliability and relevance of ecotoxicity studies
Kase, R., Korkaric, M., Werner, I., & Ågerstrand, M. (2016). Criteria for Reporting and Evaluating ecotoxicity Data (CRED): comparison and perception of the Klimisch and CRED methods for evaluating reliability and relevance of ecotoxicity studies. Environmental Sciences Europe, 28(1), 7 (14 pp.). https://doi.org/10.1186/s12302-016-0073-x
Pollution-induced community tolerance (PICT): towards an ecologically relevant risk assessment of chemicals in aquatic systems
Tlili, A., Berard, A., Blanck, H., Bouchez, A., Cássio, F., Eriksson, K. M., … Behra, R. (2016). Pollution-induced community tolerance (PICT): towards an ecologically relevant risk assessment of chemicals in aquatic systems. Freshwater Biology, 61(12), 2141-2151. https://doi.org/10.1111/fwb.12558
Stressor-induced proteome alterations in zebrafish: a meta-analysis of response patterns
Groh, K. J., & Suter, M. J. F. (2015). Stressor-induced proteome alterations in zebrafish: a meta-analysis of response patterns. Aquatic Toxicology, 159, 1-12. https://doi.org/10.1016/j.aquatox.2014.11.013
Mixtures of chemical pollutants at European legislation safety concentrations: how safe are they?
Carvalho, R. N., Arukwe, A., Ait-Aissa, S., Bado-Nilles, A., Balzamo, S., Baun, A., … Lettieri, T. (2014). Mixtures of chemical pollutants at European legislation safety concentrations: how safe are they? Toxicological Sciences, 141(1), 218-233. https://doi.org/10.1093/toxsci/kfu118
Mass spectrometric target analysis and proteomics in environmental toxicology
Groh, K. J., & Suter, M. J. F. (2014). Mass spectrometric target analysis and proteomics in environmental toxicology. In J. Banoub (Ed.), NATO science for peace and security series A: chemistry and biology. Detection of chemical, biological, radiological and nuclear agents for the prevention of terrorism (pp. 149-167). https://doi.org/10.1007/978-94-017-9238-7_10
Mass spectrometry in environmental toxicology
Groh, K. J., & Suter, M. J. F. (2014). Mass spectrometry in environmental toxicology. Chimia, 68(3), 140-145. https://doi.org/10.2533/chimia.2014.140
Testing nanomaterial toxicity in unicellular eukaryotic algae and fish cell lines
Kroll, A., Kühnel, D., & Schirmer, K. (2013). Testing nanomaterial toxicity in unicellular eukaryotic algae and fish cell lines. In D. Armstrong & D. J. Bharali (Eds.), Methods in molecular biology: Vol. 1028. Oxidative stress and nanotechnology. Methods and protocols (pp. 165-195). https://doi.org/10.1007/978-1-62703-475-3_11
Toxicokinetic-toxicodynamic modelling in an individual based context–consequences of parameter variability
Ashauer, R. (2010). Toxicokinetic-toxicodynamic modelling in an individual based context–consequences of parameter variability. Ecological Modelling, 221(9), 1325-1328. https://doi.org/10.1016/j.ecolmodel.2010.01.015
Transcriptomics in ecotoxicology
Schirmer, K., Fischer, B. B., Madureira, D. J., & Pillai, S. (2010). Transcriptomics in ecotoxicology. Analytical and Bioanalytical Chemistry, 397(3), 917-923. https://doi.org/10.1007/s00216-010-3662-3
Predicting the ecotoxicological effects of transformation products
Escher, B. I., Baumgartner, R., Lienert, J., & Fenner, K. (2009). Predicting the ecotoxicological effects of transformation products. In A. B. A. Boxall (Ed.), The handbook of environmental chemistry: Vol. 2. Transformation products of synthetic chemicals in the environment (pp. 205-244). https://doi.org/10.1007/698_2_015
Development of an <em>in vitro</em> system for modeling bioaccumulation of neutral, ionizable, and metabolically active organic pollutants in fish.
Escher, B., & Kwon, J. H. (2007). Development of an in vitro system for modeling bioaccumulation of neutral, ionizable, and metabolically active organic pollutants in fish. ALTEX: Alternatives to Animal Experimentation, 24(Suppl.), 81-82.
Testing estrogenicity of known and novel (xeno-)estrogens in the MolDarT using developing zebrafish (<I>Danio rerio</I>)
Muncke, J., Junghans, M., & Eggen, R. I. L. (2007). Testing estrogenicity of known and novel (xeno-)estrogens in the MolDarT using developing zebrafish (Danio rerio). Environmental Toxicology, 22(2), 185-193. https://doi.org/10.1002/tox.20255