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Wastewater microorganisms impact microbial diversity and important ecological functions of stream periphyton
Carles, L., Wullschleger, S., Joss, A., Eggen, R. I. L., Schirmer, K., Schuwirth, N., … Tlili, A. (2022). Wastewater microorganisms impact microbial diversity and important ecological functions of stream periphyton. Water Research, 225, 119119 (13 pp.). https://doi.org/10.1016/j.watres.2022.119119
Anthropogenic chemicals as underestimated drivers of biodiversity loss: scientific and societal implications
Groh, K., vom Berg, C., Schirmer, K., & Tlili, A. (2022). Anthropogenic chemicals as underestimated drivers of biodiversity loss: scientific and societal implications. Environmental Science and Technology, 56(2), 707-710. https://doi.org/10.1021/acs.est.1c08399
Interactions between microplastics and benthic biofilms in fluvial ecosystems: knowledge gaps and future trends
Guasch, H., Bernal, S., Bruno, D., Almroth, B. C., Cochero, J., Corcoll, N., … Martí, E. (2022). Interactions between microplastics and benthic biofilms in fluvial ecosystems: knowledge gaps and future trends. Freshwater Science, 41(3), 442-458. https://doi.org/10.1086/721472
Important ecological processes are affected by the accumulation and trophic transfer of nanoplastics in a freshwater periphyton-grazer food chain
Holzer, M., Mitrano, D. M., Carles, L., Wagner, B., & Tlili, A. (2022). Important ecological processes are affected by the accumulation and trophic transfer of nanoplastics in a freshwater periphyton-grazer food chain. Environmental Science: Nano, 9, 2990-3003. https://doi.org/10.1039/D2EN00101B
Synthetic periphyton as a model system to understand species dynamics in complex microbial freshwater communities
Lamprecht, O., Wagner, B., Derlon, N., & Tlili, A. (2022). Synthetic periphyton as a model system to understand species dynamics in complex microbial freshwater communities. npj Biofilms and Microbiomes, 8, 61 (14 pp.). https://doi.org/10.1038/s41522-022-00322-y
Influence of microplastics on microbial structure, function, and mechanical properties of stream periphyton
Merbt, S. N., Kroll, A., Tamminen, M., Rühs, P. A., Wagner, B., Sgier, L., … Behra, R. (2022). Influence of microplastics on microbial structure, function, and mechanical properties of stream periphyton. Frontiers in Environmental Science, 10, 928247 (17 pp.). https://doi.org/10.3389/fenvs.2022.928247
Wastewater constituents impact biofilm microbial community in receiving streams
Tamminen, M., Spaak, J., Tlili, A., Eggen, R., Stamm, C., & Räsänen, K. (2022). Wastewater constituents impact biofilm microbial community in receiving streams. Science of the Total Environment, 807(3), 151080 (8 pp.). https://doi.org/10.1016/j.scitotenv.2021.151080
Impact of wastewater on the microbial diversity of periphyton and its tolerance to micropollutants in an engineered flow-through channel system
Carles, L., Wullschleger, S., Joss, A., Eggen, R. I. L., Schirmer, K., Schuwirth, N., … Tlili, A. (2021). Impact of wastewater on the microbial diversity of periphyton and its tolerance to micropollutants in an engineered flow-through channel system. Water Research, 203, 117486 (14 pp.). https://doi.org/10.1016/j.watres.2021.117486
Diversity, functions and antibiotic resistance of sediment microbial communities from Lake Geneva are driven by the spatial distribution of anthropogenic contamination
Lyautey, E., Bonnineau, C., Billard, P., Loizeau, J. L., Naffrechoux, E., Tlili, A., … Pesce, S. (2021). Diversity, functions and antibiotic resistance of sediment microbial communities from Lake Geneva are driven by the spatial distribution of anthropogenic contamination. Frontiers in Microbiology, 12, 738629 (15 pp.). https://doi.org/10.3389/fmicb.2021.738629
Nanosilver impacts on aquatic microbial decomposers and litter decomposition assessed as pollution-induced community tolerance (PICT)
Batista, D., Tlili, A., Gessner, M. O., Pascoal, C., & Cássio, F. (2020). Nanosilver impacts on aquatic microbial decomposers and litter decomposition assessed as pollution-induced community tolerance (PICT). Environmental Science: Nano, 7(7), 2130-2139. https://doi.org/10.1039/D0EN00375A
Retrospective screening of high-resolution mass spectrometry archived digital samples can improve environmental risk assessment of emerging contaminants: a case study on antifungal azoles
Creusot, N., Casado-Martinez, C., Chiaia-Hernandez, A., Kiefer, K., Ferrari, B. J. D., Fu, Q., … Hollender, J. (2020). Retrospective screening of high-resolution mass spectrometry archived digital samples can improve environmental risk assessment of emerging contaminants: a case study on antifungal azoles. Environment International, 139, 105708 (10 pp.). https://doi.org/10.1016/j.envint.2020.105708
Tolerance patterns in stream biofilms link complex chemical pollution to ecological impacts
Tlili, A., Corcoll, N., Arrhenius, Å., Backhaus, T., Hollender, J., Creusot, N., … Behra, R. (2020). Tolerance patterns in stream biofilms link complex chemical pollution to ecological impacts. Environmental Science and Technology, 54(17), 10745-10753. https://doi.org/10.1021/acs.est.0c02975
Long-term exposure to silver nanoparticles affects periphyton community structure and function
Gil-Allué, C., Tlili, A., Schirmer, K., Gessner, M. O., & Behra, R. (2018). Long-term exposure to silver nanoparticles affects periphyton community structure and function. Environmental Science: Nano, 5(6), 1397-1407. https://doi.org/10.1039/C8EN00132D
Interactive effects of dissolved nitrogen, phosphorus and litter chemistry on stream fungal decomposers
Jabiol, J., Cornut, J., Tlili, A., & Gessner, M. O. (2018). Interactive effects of dissolved nitrogen, phosphorus and litter chemistry on stream fungal decomposers. FEMS Microbiology Ecology, 94(10), fiy151 (11 pp.). https://doi.org/10.1093/femsec/fiy151
Challenges in characterizing the environmental fate and effects of carbon nanotubes and inorganic nanomaterials in aquatic systems
Laux, P., Riebeling, C., Booth, A. M., Brain, J. D., Brunner, J., Cerrillo, C., … Luch, A. (2018). Challenges in characterizing the environmental fate and effects of carbon nanotubes and inorganic nanomaterials in aquatic systems. Environmental Science: Nano, 5(1), 48-63. https://doi.org/10.1039/c7en00594f
Characterization of aquatic biofilms with flow cytometry
Sgier, L., Merbt, S. N., Tlili, A., Kroll, A., & Zupanic, A. (2018). Characterization of aquatic biofilms with flow cytometry. Journal of Visualized Experiments (136), e57655 (9 pp.). https://doi.org/10.3791/57655
Biokinetics of nanomaterials: the role of biopersistence
Laux, P., Riebeling, C., Booth, A. M., Brain, J. D., Brunner, J., Cerrillo, C., … Luch, A. (2017). Biokinetics of nanomaterials: the role of biopersistence. NanoImpact, 6, 69-80. https://doi.org/10.1016/j.impact.2017.03.003
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.
Chronic exposure effects of silver nanoparticles on stream microbial decomposer communities and ecosystem functions
Tlili, A., Jabiol, J., Behra, R., Gil-Allue, C., & Gessner, M. O. (2017). Chronic exposure effects of silver nanoparticles on stream microbial decomposer communities and ecosystem functions. Environmental Science and Technology, 51(4), 2447-2455. https://doi.org/10.1021/acs.est.6b05508
Micropollutant-induced tolerance of <I>in situ</I> periphyton: establishing causality in wastewater-impacted streams
Tlili, A., Hollender, J., Kienle, C., & Behra, R. (2017). Micropollutant-induced tolerance of in situ periphyton: establishing causality in wastewater-impacted streams. Water Research, 111, 185-194. https://doi.org/10.1016/j.watres.2017.01.016