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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
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
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
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
Auswirkungen des Klimawandels auf Schweizer Lockergesteins-grundwasservorkommen. Eine quantitative Prognose mit Fokus auf natürliche und künstliche Grundwasserneubildung durch Oberflächenwasserinfiltration
Epting, J., Vinnå Råman, L., Affolter, A., Scheidler, S., & Schilling, O. (2023). Auswirkungen des Klimawandels auf Schweizer Lockergesteins-grundwasservorkommen. Eine quantitative Prognose mit Fokus auf natürliche und künstliche Grundwasserneubildung durch Oberflächenwasserinfiltration. Wasser, Energie, Luft, 115(1), 37-44.
Grundwasser und Klimawandel
Moeck, C., Jimenez-Martinez, J., Jeannin, P. Y., Schilling, O. S., & Schirmer, M. (2023). Grundwasser und Klimawandel. Aqua Viva, 65(2), 28-31.
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
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
Freshwater ecosystem responses to climate change: the Euro-limpacs project
Battarbee, R. W., Kernan, M., Livingstone, D. M., Nickus, U., Verdonschot, P., Hering, D., … Skeffington, R. A. (2008). Freshwater ecosystem responses to climate change: the Euro-limpacs project. In P. Quevauviller, U. Borchers, C. Thompson, & T. Simonart (Eds.), Water quality measurements series. The water framework directive. Ecological and chemical status monitoring (pp. 313-354). https://doi.org/10.1002/9780470716090.ch20
Recent studies on sources and sinks of methane in the Black Sea
Schubert, C. J., Durisch-Kaiser, E., Klauser, L., Vazquez, F., Wehrli, B., Holzner, C. P., … Kuypers, M. M. M. (2006). Recent studies on sources and sinks of methane in the Black Sea. In L. N. Neretin (Ed.), NATO science series IV: Earth and environmental sciences: Vol. 64. Past and present water column anoxia. https://doi.org/10.1007/1-4020-4297-3_16
Currents in stratified water bodies 1: density-driven flows
Peeters, F., & Kipfer, R. (2022). Currents in stratified water bodies 1: density-driven flows. In T. Mehner, K. Tockner, D. Bouffard, M. E. Perga, & L. R. Poff (Eds.), Vol. 1. Encyclopedia of inland waters (pp. 525-533). https://doi.org/10.1016/B978-0-12-819166-8.02010-7
Temperature as a driving factor in aquatic ecosystems
De Stasio, B. T., Golemgeski, T., Li, X., Larosiliere, M. J., & Livingstone, D. M. (2022). Temperature as a driving factor in aquatic ecosystems. In T. Mehner, K. Tockner, L. Rudstam, D. Bouffard, & M. E. Perga (Eds.), Vol. 1. Encyclopedia of inland waters (pp. 257-269). https://doi.org/10.1016/B978-0-12-819166-8.00062-1
How widespread is fluoride contamination of Ghana's groundwater?
Araya, D., Podgorski, J., & Berg, M. (2022). How widespread is fluoride contamination of Ghana's groundwater? Water Science Policy (4 pp.). https://doi.org/10.53014/OGJS9699
Reaction and transformation of antibacterial agents with aqueous chlorine under relevant water treatment conditions
Huang, C. H., Dodd, M. C., & Shah, A. D. (2007). Reaction and transformation of antibacterial agents with aqueous chlorine under relevant water treatment conditions. In D. S. Aga (Ed.), Fate of pharmaceuticals in the environment and in water treatment systems (pp. 261-289). https://doi.org/10.1201/9781420052336
Do downwelling streams have a natural attenuation potential for perfluorinated chemicals?
Hoehn, E., Plumlee, M. H., & Reinhard, M. (2008). Do downwelling streams have a natural attenuation potential for perfluorinated chemicals? In C. Abesser, T. Wagener, & G. Nuetzmann (Eds.), IAHS-AISH Publication: Vol. 321. Groundwater-surface water interaction: process understanding, conceptualization and modelling. Proceedings of symposium HS1002 at IUGG2007 (pp. 141-147). IAHS Press.
Oxidation processes in water treatment: options and limitations for micropollutant elimination
Von Gunten, U. (2008). Oxidation processes in water treatment: options and limitations for micropollutant elimination. In Preprints of extended abstracts: Vol. 48. American Chemical Society. Division of Environmental Chemistry. Preprints of extended abstracts (pp. 496-500). American Chemical Society.
Assessing abiotic reduction of nitroaromatic groundwater contaminants in using compound-specific stable isotope analysis
Hofstetter, T. B., Hartenbach, A. E., Neumann, A., Sander, M., Berg, M., Arnold, W. A., … Schwarzenbach, R. P. (2008). Assessing abiotic reduction of nitroaromatic groundwater contaminants in using compound-specific stable isotope analysis. In Preprints of extended abstracts: Vol. 48. American Chemical Society. Division of Environmental Chemistry. Preprints of extended abstracts (pp. 501-505). American Chemical Society.
Removal of low molecular weight organics from natural surface water by nanofiltration
Meylan, S., Hammes, F., Traber, J., Salhi, E., Von Gunten, U., & Pronk, W. (2006). Removal of low molecular weight organics from natural surface water by nanofiltration. In Water quality technology conference and exposition 2006: taking water quality to new heights (pp. 963-967).
As(III) oxidation by chlorine and ozone: using kinetics measurements to model reactions during treatment of natural waters
Dodd, M., Duy Vu, N., Chieu Le, V., Berg, M., & Von Gunten, U. (2006). As(III) oxidation by chlorine and ozone: using kinetics measurements to model reactions during treatment of natural waters. In Water quality technology conference and exposition 2006: taking water quality to new heights (pp. 464-471). American Water Works Association WQTC.
Oxidative treatment of steroid estrogens in water: formation of oxidation products and change of estrogenic activity
Lee, Y., & Von Gunten, U. (2006). Oxidative treatment of steroid estrogens in water: formation of oxidation products and change of estrogenic activity. In Water quality technology conference and exposition 2006: taking water quality to new heights (pp. 519-526). American Water Works Association WQTC.
 

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