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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
Effect of arsenic risk assessment in Pakistan on mitigation action
Podgorski, J. E., Eqani, S. A. M. A. S., & Berg, M. (2019). Effect of arsenic risk assessment in Pakistan on mitigation action. 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. 541-542). https://doi.org/10.1201/9781351046633
Isotope mapping of groundwater pollution and renewal
Podgorski, J., Berg, M., & Kipfer, R. (2019). Isotope mapping of groundwater pollution and renewal. IAEA Bulletin, 60(1), 31-32.
AdvectAs challenge: multidisciplinary research on groundwater arsenic dissolution, transport, and retardation under advective flow conditions
Stopelli, E., Lightfoot, A., Kipfer, R., Berg, M., Winkel, L. H. E., Glodowska, M., … Viet, P. H. (2019). AdvectAs challenge: multidisciplinary research on groundwater arsenic dissolution, transport, and retardation under advective flow conditions. 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. 29-31). https://doi.org/10.1201/9781351046633
Exploring arsenic and other geogenic groundwater contaminants in the vast and scarcely studied Amazon Basin
de Meyer, C. M. C., Berg, M., Rodriguez, J., Carpio, E., Garcia, P., & Wahnfried, I. (2019). Exploring arsenic and other geogenic groundwater contaminants in the vast and scarcely studied Amazon Basin. 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. 50-51). https://doi.org/10.1201/9781351046633
Verteilung anthropogen eingetragener Stoffe im Grundwasser: ein Fallbeispiel aus der Nordschweiz
Moeck, C., Radny, D., Huggenberger, P., Affolter, A., Auckenthaler, A., Hollender, J., … Schirmer, M. (2018). Verteilung anthropogen eingetragener Stoffe im Grundwasser: ein Fallbeispiel aus der Nordschweiz. Grundwasser, 23(4), 297-309. https://doi.org/10.1007/s00767-018-0403-6
Insights into arsenic retention dynamics of Pleistocene aquifer sediments by <i>in situ</i> sorption experiments
Neidhardt, H., Winkel, L. H. E., Kaegi, R., Stengel, C., Trang, P. T. K., Lan, V. M., … Berg, M. (2018). Insights into arsenic retention dynamics of Pleistocene aquifer sediments by in situ sorption experiments. Water Research, 129, 123-132. https://doi.org/10.1016/j.watres.2017.11.018
Prediction modeling and mapping of groundwater fluoride contamination throughout India
Podgorski, J. E., Labhasetwar, P., Saha, D., & Berg, M. (2018). Prediction modeling and mapping of groundwater fluoride contamination throughout India. Environmental Science and Technology, 52(17), 9889-9898. https://doi.org/10.1021/acs.est.8b01679
Redox buffering and de-coupling of arsenic and iron in reducing aquifers across the Red River Delta, Vietnam, and conceptual model of de-coupling processes
Sracek, O., Berg, M., & Müller, B. (2018). Redox buffering and de-coupling of arsenic and iron in reducing aquifers across the Red River Delta, Vietnam, and conceptual model of de-coupling processes. Environmental Science and Pollution Research, 25(16), 15954-15961. https://doi.org/10.1007/s11356-018-1801-0
Spurenelemente in Schweizer Abwasser. Aktuelle Konzentrationen und Frachten
Vriens, B., Voegelin, A., Hug, S., Kaegi, R., Berg, M., & Winkel, L. (2018). Spurenelemente in Schweizer Abwasser. Aktuelle Konzentrationen und Frachten. Aqua & Gas, 98(1), 40-46.
Geostatistical modelling of arsenic hazard in groundwater
Bretzler, A., Berg, M., Winkel, L., Amini, M., Rodriguez-Lado, L., Sovann, C., … Johnson, A. (2017). Geostatistical modelling of arsenic hazard in groundwater. In P. Bhattacharya, D. A. Polya, & D. Jovanovic (Eds.), Metals and related substances in drinking water: Vol. 6. Best practice guide on the control of arsenic in drinking water (pp. 153-160). London: IWA Publishing.
Arsenic removal from drinking water: experiences with technologies and constraints in practice
Hering, J. G., Katsoyiannis, I. A., Ahumada Theoduloz, G., Berg, M., & Hug, S. J. (2017). Arsenic removal from drinking water: experiences with technologies and constraints in practice. Journal of Environmental Engineering, 143(5), 03117002 (9 pp.). https://doi.org/10.1061/(ASCE)EE.1943-7870.0001225
Multivariate Statistik. Zur Optimierung des Wasserressourcen-Managements im Hardwald
Möck, C., Radny, D., Stoll, S., Borer, P., Rothardt, J., Affolter, A., … Schirmer, M. (2017). Multivariate Statistik. Zur Optimierung des Wasserressourcen-Managements im Hardwald. Aqua & Gas, 97(2), 14-20.
Extensive arsenic contamination in high-pH unconfined aquifers in the Indus Valley
Podgorski, J. E., Eqani, S. A. M. A. S., Khanam, T., Ullah, R., Shen, H., & Berg, M. (2017). Extensive arsenic contamination in high-pH unconfined aquifers in the Indus Valley. Science Advances, 3(8), e1700935 (10 pp.). https://doi.org/10.1126/sciadv.1700935
Multiscale characterization and quantification of arsenic mobilization and attenuation during injection of treated coal seam gas coproduced water into deep aquifers
Rathi, B., Siade, A. J., Donn, M. J., Helm, L., Morris, R., Davis, J. A., … Prommer, H. (2017). Multiscale characterization and quantification of arsenic mobilization and attenuation during injection of treated coal seam gas coproduced water into deep aquifers. Water Resources Research, 53(12), 10779-10801. https://doi.org/10.1002/2017WR021240
Processes governing arsenic retardation on Pleistocene sediments: adsorption experiments and model-based analysis
Rathi, B., Neidhardt, H., Berg, M., Siade, A., & Prommer, H. (2017). Processes governing arsenic retardation on Pleistocene sediments: adsorption experiments and model-based analysis. Water Resources Research, 53(5), 4344-4360. https://doi.org/10.1002/2017WR020551
Nitrogen loss by anaerobic ammonium oxidation in unconfined aquifer soils
Wang, S., Radny, D., Huang, S., Zhuang, L., Zhao, S., Berg, M., … Zhu, G. (2017). Nitrogen loss by anaerobic ammonium oxidation in unconfined aquifer soils. Scientific Reports, 7, 1-10. https://doi.org/10.1038/srep40173
An integrated spatial snap-shot monitoring method for identifying seasonal changes and spatial changes in surface water quality
Chittoor Viswanathan, V., Jiang, Y., Berg, M., Hunkeler, D., & Schirmer, M. (2016). An integrated spatial snap-shot monitoring method for identifying seasonal changes and spatial changes in surface water quality. Journal of Hydrology, 539, 567-576. https://doi.org/10.1016/j.jhydrol.2016.05.017
Numerical modeling of arsenic mobility during reductive iron-mineral transformations
Rawson, J., Prommer, H., Siade, A., Carr, J., Berg, M., Davis, J. A., & Fendorf, S. (2016). Numerical modeling of arsenic mobility during reductive iron-mineral transformations. Environmental Science and Technology, 50(5), 2459-2467. https://doi.org/10.1021/acs.est.5b05956
Geogenic contamination handbook. Addressing arsenic and fluoride in drinking water
Bader, H. P., Berg, M., Bretzler, A., Gebauer, H., Huber, A. C., Hug, S. J., … Yang, H. (2015). Geogenic contamination handbook. Addressing arsenic and fluoride in drinking water. (C. A. Johnson & A. Bretzler, Eds.). Retrieved from https://www.eawag.ch/en/research/humanwelfare/drinkingwater/wrq/geogenic-contamination-handbook/