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Groundwater recharge is sensitive to changing long-term aridity
Berghuijs, W. R., Collenteur, R. A., Jasechko, S., Jaramillo, F., Luijendijk, E., Moeck, C., … Allen, S. T. (2024). Groundwater recharge is sensitive to changing long-term aridity. Nature Climate Change. https://doi.org/10.1038/s41558-024-01953-z
Arsenic and other geogenic contaminants in global groundwater
Mukherjee, A., Coomar, P., Sarkar, S., Johannesson, K. H., Fryar, A. E., Schreiber, M. E., … Vengosh, A. (2024). Arsenic and other geogenic contaminants in global groundwater. Nature Reviews Earth & Environment. https://doi.org/10.1038/s43017-024-00519-z
Multiscale porosity microfluidics to study bacterial transport in heterogeneous chemical landscapes
Salek, M. M., Carrara, F., Zhou, J., Stocker, R., & Jimenez-Martinez, J. (2024). Multiscale porosity microfluidics to study bacterial transport in heterogeneous chemical landscapes. Advanced Science. https://doi.org/10.1002/advs.202310121
Performance of a polymerization-based electrochemically assisted persulfate process on a real coking wastewater treatment
Yang, S., Cui, Y., Liu, Z., Peng, C., Sun, S., Yang, J., & Wang, M. (2024). Performance of a polymerization-based electrochemically assisted persulfate process on a real coking wastewater treatment. Journal of Environmental Sciences. https://doi.org/10.1016/j.jes.2023.06.034
Biofilms in porous media: a pore-scale investigation of the interplay between biofilm development and local hydrodynamics
Kurz, D. L. (2023). Biofilms in porous media: a pore-scale investigation of the interplay between biofilm development and local hydrodynamics [Doctoral dissertation, ETH Zurich]. https://doi.org/10.3929/ethz-b-000606793
Noble gases to analyse the physical mechanisms influencing arsenic dynamics in groundwater
Lightfoot, A. K. (2023). Noble gases to analyse the physical mechanisms influencing arsenic dynamics in groundwater [Doctoral dissertation, ETH Zürich]. https://doi.org/10.3929/ethz-b-000602341
Second-generation global risk map of groundwater arsenic contamination
Podgorski, J., & Berg, M. (2023). Second-generation global risk map of groundwater arsenic contamination. In A. van der Wal, A. Ahmad, B. Petrusevski, J. Weijma, D. Savic, P. van der Wens, … R. Naidu (Eds.), Arsenic in the environment. Proceedings. Proceedings of the 8th international congress and exhibition on arsenic in the environment (As2021) (pp. 3-4). https://doi.org/10.1201/9781003317395-1
Interplay of As (im)mobilisation processes in groundwater: learning from hydrochemical investigations
Stopelli, E., Duyen, V. T., Mai, T. T., Trang, P. T. K., Viet, P. H., Lightfoot, A., … Berg, M. (2023). Interplay of As (im)mobilisation processes in groundwater: learning from hydrochemical investigations. In A. van der Wal, A. Ahmad, B. Petrusevski, J. Weijma, D. Savic, P. van der Wens, … R. Naidu (Eds.), Arsenic in the environment. Proceedings. Proceedings of the 8th international congress and exhibition on arsenic in the environment (As2021) (pp. 21-22). https://doi.org/10.1201/9781003317395-9
Pseudo contour maps from logistic regression modelling: case study of groundwater arsenic distribution in Gujarat state, India
Wu, R., Podgorski, J., Berg, M., & Polya, D. A. (2023). Pseudo contour maps from logistic regression modelling: case study of groundwater arsenic distribution in Gujarat state, India. In A. van der Wal, A. Ahmad, B. Petrusevski, J. Weijma, D. Savic, P. van der Wens, … R. Naidu (Eds.), Arsenic in the environment. Proceedings. Proceedings of the 8th international congress and exhibition on arsenic in the environment (As2021) (pp. 95-96). https://doi.org/10.1201/9781003317395-40
Managing Lake Kivu: moving from a steady-state to a dynamic modelling approach
Bärenbold, F. (2021). Managing Lake Kivu: moving from a steady-state to a dynamic modelling approach [Doctoral dissertation, ETH Zurich]. https://doi.org/10.3929/ethz-b-000470628
Polar micropollutants and their transformation products in groundwater: identification with LC-HRMS and their abatement in water treatment
Kiefer, K. (2021). Polar micropollutants and their transformation products in groundwater: identification with LC-HRMS and their abatement in water treatment [Doctoral dissertation, ETH Zurich]. https://doi.org/10.3929/ethz-b-000481187
Modelling atmospheric selenium transport and deposition on a global scale
Feinberg, A., Stenke, A., Peter, T., & Winkel, L. H. E. (2020). Modelling atmospheric selenium transport and deposition on a global scale. In G. Bañuelos, Z. Q. Lin, D. Liang, & Xbin Yin (Eds.), Selenium research for environment and human health: perspectives, technologies and advancements. Proceedings of the 6th international conference on selenium in the environment and human health (ICSEHH 2019), October 27-30, 2019, Yangling, Xi'an, China (pp. 17-18). https://doi.org/10.1201/9780429423482-8
The effect of drinking water ozonation on different types of submicron plastic particles
Pulido-Reyes, G., Mitrano, D. M., Kägi, R., & von Gunten, U. (2020). The effect of drinking water ozonation on different types of submicron plastic particles. In M. Cocca, E. Di Pace, M. E. Errico, G. Gentile, A. Montarsolo, R. Mossotti, & M. Avella (Eds.), Springer Water. Proceedings of the 2nd international conference on microplastic pollution in the Mediterranean Sea (pp. 152-157). https://doi.org/10.1007/978-3-030-45909-3_24
Monitoring real time, in-line variations of noble gas concentrations during CO<sub>2</sub> capture operations by means of a portable mass spectrometer
Sundal, A., Weber, U. W., Brennwald, M. S., Ringrose, P., Enaasen Flø, N., Johnsen, K., … Kipfer, R. (2020). Monitoring real time, in-line variations of noble gas concentrations during CO2 capture operations by means of a portable mass spectrometer. In GHGT-14 proceedings. https://doi.org/10.2139/ssrn.3366166
Selenium accumulation and speciation in soils along a climate gradient
Tolu, J., Bouchet, S., Chékifi, S. D., Hausheer, O., Chadwick, O. A., Helfenstein, J., … Winkel, L. H. E. (2020). Selenium accumulation and speciation in soils along a climate gradient. In G. Bañuelos, Z. Q. Lin, D. Liang, & Xbin Yin (Eds.), Selenium research for environment and human health: perspectives, technologies and advancements. Proceedings of the 6th international conference on selenium in the environment and human health (ICSEHH 2019), October 27-30, 2019, Yangling, Xi'an, China (pp. 67-68). https://doi.org/10.1201/9780429423482-32
Groundwater contamination, recharge, and flow dynamics in the anthropogenic environment
Weatherl, R. K. (2020). Groundwater contamination, recharge, and flow dynamics in the anthropogenic environment [Doctoral dissertation]. Université de Neuchâtel.
Thallium sorption onto illite and birnessite and its relevance in soils
Wick, S. (2020). Thallium sorption onto illite and birnessite and its relevance in soils [Doctoral dissertation, ETH Zurich]. https://doi.org/10.3929/ethz-b-000420144
Investigations into the fate of engineered transition metal nano particles during sewage sludge incineration
Wielinski, J. J. (2020). Investigations into the fate of engineered transition metal nano particles during sewage sludge incineration [Doctoral dissertation, ETH Zurich]. https://doi.org/10.3929/ethz-b-000473625
The role of atmospheric deposition in biogeochemical selenium cycling
Winkel, L. H. E. (2020). The role of atmospheric deposition in biogeochemical selenium cycling. In G. Bañuelos, Z. Q. Lin, D. Liang, & Xbin Yin (Eds.), Selenium research for environment and human health: perspectives, technologies and advancements. Proceedings of the 6th international conference on selenium in the environment and human health (ICSEHH 2019), October 27-30, 2019, Yangling, Xi'an, China (pp. 23-24). https://doi.org/10.1201/9780429423482-11
Groundwater Assessment Platform (GAP): a new GIS tool for risk forecasting and mitigation of geogenic groundwater contamination
Berg, M., & Podgorski, J. E. (2019). Groundwater Assessment Platform (GAP): a new GIS tool for risk forecasting and mitigation of geogenic groundwater contamination. In Y. G. Zhu, H. Guo, P. Bhattacharya, J. Bundschuh, A. Ahmad, & R. Naidu (Eds.), Arsenic in the environment - proceedings. Environmental arsenic in a changing world (pp. 5-6). https://doi.org/10.1201/9781351046633-2
 

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