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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
Proteome evolution under non-substitutable resource limitation
Tamminen, M., Betz, A., Pereira, A. L., Thali, M., Matthews, B., Suter, M. J. F., & Narwani, A. (2018). Proteome evolution under non-substitutable resource limitation. Nature Communications, 9(1), 4650 (10 pp.). https://doi.org/10.1038/s41467-018-07106-z
Einfluss von Mikroverunreinigungen
Stamm, C., Burdon, F., Fischer, S., Kienle, C., Munz, N., Tlili, A., … Eggen, R. (2017). Einfluss von Mikroverunreinigungen. Aqua & Gas, 97(6), 90-95.
Environmental context and magnitude of disturbance influence trait-mediated community responses to wastewater in streams
Burdon, F. J., Reyes, M., Alder, A. C., Joss, A., Ort, C., Räsänen, K., … Stamm, C. (2016). Environmental context and magnitude of disturbance influence trait-mediated community responses to wastewater in streams. Ecology and Evolution, 6(12), 3923-3939. https://doi.org/10.1002/ece3.2165
Molecular phenotyping of maternally mediated parallel adaptive divergence within <I>Rana arvalis</I> and <I>Rana temporaria</I>
Shu, L., Laurila, A., Suter, M. J. F., & Räsänen, K. (2016). Molecular phenotyping of maternally mediated parallel adaptive divergence within Rana arvalis and Rana temporaria. Molecular Ecology, 25(18), 4564-4579. https://doi.org/10.1111/mec.13786
Unravelling the impacts of micropollutants in aquatic ecosystems: interdisciplinary studies at the interface of large-scale ecology
Stamm, C., Räsänen, K., Burdon, F. J., Altermatt, F., Jokela, J., Joss, A., … Eggen, R. I. L. (2016). Unravelling the impacts of micropollutants in aquatic ecosystems: interdisciplinary studies at the interface of large-scale ecology. In A. J. Dumbrell, R. L. Kordas, & G. Woodward (Eds.), Advances in Ecological Research: Vol. 55. Large-Scale Ecology: Model Systems to Global Perspectives (pp. 183-223). https://doi.org/10.1016/bs.aecr.2016.07.002
Rapid evolutionary loss of metal resistance revealed by hatching decades-old eggs
Turko, P., Sigg, L., Hollender, J., & Spaak, P. (2016). Rapid evolutionary loss of metal resistance revealed by hatching decades-old eggs. Evolution, International Journal of Organic Evolution, 70(2), 398-407. https://doi.org/10.1111/evo.12859
Evolution of egg coats: linking molecular biology and ecology
Shu, L., Suter, M. J. F., & Räsänen, K. (2015). Evolution of egg coats: linking molecular biology and ecology. Molecular Ecology, 24(16), 4052-4073. https://doi.org/10.1111/mec.13283
Mechanistic basis of adaptive maternal effects: egg jelly water balance mediates embryonic adaptation to acidity in <I>Rana arvalis</I>
Shu, L., Suter, M. J. F., Laurila, A., & Räsänen, K. (2015). Mechanistic basis of adaptive maternal effects: egg jelly water balance mediates embryonic adaptation to acidity in Rana arvalis. Oecologia, 179(3), 617-628. https://doi.org/10.1007/s00442-015-3332-4
Phenotypic plasticity influences the eco-evolutionary dynamics of a predator-prey system
Fischer, B. B., Kwiatkowski, M., Ackermann, M., Krismer, J., Roffler, S., Suter, M. J. F., … Matthews, B. (2014). Phenotypic plasticity influences the eco-evolutionary dynamics of a predator-prey system. Ecology, 95(11), 3080-3092. https://doi.org/10.1890/14-0116.1
Bioconcentration of organic contaminants in <I>Daphnia</I> resting eggs
Chiaia-Hernandez, A. C., Ashauer, R., Moest, M., Hollingshaus, T., Jeon, J., Spaak, P., & Hollender, J. (2013). Bioconcentration of organic contaminants in Daphnia resting eggs. Environmental Science and Technology, 47(18), 10667-10675. https://doi.org/10.1021/es401763d
The toxicity of chemical pollutants in dynamic natural systems: the challenge of integrating environmental factors and biological complexity
Fischer, B. B., Pomati, F., & Eggen, R. I. L. (2013). The toxicity of chemical pollutants in dynamic natural systems: the challenge of integrating environmental factors and biological complexity. Science of the Total Environment, 449, 253-259. https://doi.org/10.1016/j.scitotenv.2013.01.066
Moving targets, long-lived infrastructure, and increasing needs for integration and adaptation in water management: an illustration from Switzerland
Hering, J. G., Hoehn, E., Klinke, A., Maurer, M., Peter, A., Reichert, P., … Wehrli, B. (2012). Moving targets, long-lived infrastructure, and increasing needs for integration and adaptation in water management: an illustration from Switzerland. Environmental Science and Technology, 46(1), 112-118. https://doi.org/10.1021/es202189s
Illicit Drugs in the Environment: Implication for Ecotoxicology
Domingo, G., Schirmer, K., Bracale, M., & Pomati, F. (2011). Illicit Drugs in the Environment: Implication for Ecotoxicology. In S. Castiglioni, E. Zuccato, & R. Fanelli (Eds.), Illicit Drugs in the Environment: Occurrence, Analysis, and Fate Using Mass Spectrometry (pp. 253-274). https://doi.org/10.1002/9781118000816.ch14
Mechanistic toxicodynamic model for receptor-mediated toxicity of diazoxon, the active metabolite of diazinon, in <I>Daphnia magna</I>
Kretschmann, A., Ashauer, R., Hitzfeld, K., Spaak, P., Hollender, J., & Escher, B. I. (2011). Mechanistic toxicodynamic model for receptor-mediated toxicity of diazoxon, the active metabolite of diazinon, in Daphnia magna. Environmental Science and Technology, 45(11), 4980-4987. https://doi.org/10.1021/es1042386
Toxicokinetic model describing bioconcentration and biotransformation of diazinon in <I>Daphnia magna</I>
Kretschmann, A., Ashauer, R., Preuss, T. G., Spaak, P., Escher, B. I., & Hollender, J. (2011). Toxicokinetic model describing bioconcentration and biotransformation of diazinon in Daphnia magna. Environmental Science and Technology, 45(11), 4995-5002. https://doi.org/10.1021/es104324v
Increased tolerance to ultraviolet radiation (UVR) and cotolerance to cadmium in UVR-acclimatized freshwater periphyton
Navarro, E., Robinson, C. T., & Behra, R. (2008). Increased tolerance to ultraviolet radiation (UVR) and cotolerance to cadmium in UVR-acclimatized freshwater periphyton. Limnology and Oceanography, 53(3), 1149-1158. https://doi.org/10.4319/lo.2008.53.3.1149
Influence of ultraviolet radiation on UVR-absorbing compounds in freshwater algal biofilms and <I>Scenedesmus vacuolatus</I> cultures
Navarro, E., Robinson, C. T., Wagner, B., & Behra, R. (2007). Influence of ultraviolet radiation on UVR-absorbing compounds in freshwater algal biofilms and Scenedesmus vacuolatus cultures. Journal of Toxicology and Environmental Health Part A: Current Issues, 70(9), 760-767. https://doi.org/10.1080/15287390701236454