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Linking isotope exchange with Fe(II)-catalyzed dissolution of iron(hydr)oxides in the presence of the bacterial siderophore desferrioxamine-B
Biswakarma, J., Kang, K., Schenkeveld, W. D. C., Kraemer, S. M., Hering, J. G., & Hug, S. J. (2020). Linking isotope exchange with Fe(II)-catalyzed dissolution of iron(hydr)oxides in the presence of the bacterial siderophore desferrioxamine-B. Environmental Science and Technology, 54, 768-777. https://doi.org/10.1021/acs.est.9b04235
Arsenic removal with zero-valent iron filters in Burkina Faso: field and laboratory insights
Bretzler, A., Nikiema, J., Lalanne, F., Hoffmann, L., Biswakarma, J., Siebenaller, L., … Hug, S. J. (2020). Arsenic removal with zero-valent iron filters in Burkina Faso: field and laboratory insights. Science of the Total Environment. https://doi.org/10.1016/j.scitotenv.2020.139466
Missing atmospheric noble gases in a large, tropical lake: the case of Lake Kivu, East-Africa
Bärenbold, F., Schmid, M., Brennwald, M. S., & Kipfer, R. (2020). Missing atmospheric noble gases in a large, tropical lake: the case of Lake Kivu, East-Africa. Chemical Geology, 532, 119374 (9 pp.). https://doi.org/10.1016/j.chemgeo.2019.119374
Understanding dominant controls on streamflow spatial variability to set up a semi-distributed hydrological model: the case study of the Thur catchment
Dal Molin, M., Schirmer, M., Zappa, M., & Fenicia, F. (2020). Understanding dominant controls on streamflow spatial variability to set up a semi-distributed hydrological model: the case study of the Thur catchment. Hydrology and Earth System Sciences, 24(3), 1319-1345. https://doi.org/10.5194/hess-24-1319-2020
Mapping the drivers of uncertainty in atmospheric selenium deposition with global sensitivity analysis
Feinberg, A., Maliki, M., Stenke, A., Sudret, B., Peter, T., & Winkel, L. H. E. (2020). Mapping the drivers of uncertainty in atmospheric selenium deposition with global sensitivity analysis. Atmospheric Chemistry and Physics, 20(3), 1363-1390. https://doi.org/10.5194/acp-20-1363-2020
Use of iron oxide nanoparticles for immobilizing phosphorus <em>in-situ</em>: increase in soil reactive surface area and effect on soluble phosphorus
Koopmans, G. F., Hiemstra, T., Vaseur, C., Chardon, W. J., Voegelin, A., & Groenenberg, J. E. (2020). Use of iron oxide nanoparticles for immobilizing phosphorus in-situ: increase in soil reactive surface area and effect on soluble phosphorus. Science of the Total Environment, 711, 135220 (13 pp.). https://doi.org/10.1016/j.scitotenv.2019.135220
Time resolved <em>in situ</em> X-Ray tomographic microscopy unraveling dynamic processes in geologic systems
Marone, F., Schlepütz, C. M., Marti, S., Fusseis, F., Velásquez-Parra, A., Griffa, M., … Stampanoni, M. (2020). Time resolved in situ X-Ray tomographic microscopy unraveling dynamic processes in geologic systems. Frontiers in Earth Science, 7, 346 (20 pp.). https://doi.org/10.3389/feart.2019.00346
Generation of hydroxyl radical during chlorination of hydroxyphenols and natural organic matter extracts
Rodríguez, E. M., & von Gunten, U. (2020). Generation of hydroxyl radical during chlorination of hydroxyphenols and natural organic matter extracts. Water Research, 177, 115691 (15 pp.). https://doi.org/10.1016/j.watres.2020.115691
Kinetics of the reaction between hydrogen peroxide and aqueous iodine: implications for technical and natural aquatic systems
Shin, J., Lee, Y., & von Gunten, U. (2020). Kinetics of the reaction between hydrogen peroxide and aqueous iodine: implications for technical and natural aquatic systems. Water Research, 179, 115852 (9 pp.). https://doi.org/10.1016/j.watres.2020.115852
Spatial and temporal evolution of groundwater arsenic contamination in the Red River delta, Vietnam: interplay of mobilisation and retardation processes
Stopelli, E., Duyen, V. T., Mai, T. T., Trang, P. T. K., Viet, P. H., Lightfoot, A., … Berg, M. (2020). Spatial and temporal evolution of groundwater arsenic contamination in the Red River delta, Vietnam: interplay of mobilisation and retardation processes. Science of the Total Environment, 717, 137143 (13 pp.). https://doi.org/10.1016/j.scitotenv.2020.137143
Mercury loads and fluxes from wastewater: a nationwide survey in Switzerland
Suess, E., Berg, M., Bouchet, S., Cayo, L., Hug, S. J., Kaegi, R., … Buser, A. M. (2020). Mercury loads and fluxes from wastewater: a nationwide survey in Switzerland. Water Research, 175, 115708 (10 pp.). https://doi.org/10.1016/j.watres.2020.115708
Reactions of pyrrole, imidazole, and pyrazole with ozone: kinetics and mechanisms
Tekle-Röttering, A., Lim, S., Reisz, E., Lutze, H. V., Abdighahroudi, M. S., Willach, S., … von Gunten, U. (2020). Reactions of pyrrole, imidazole, and pyrazole with ozone: kinetics and mechanisms. Environmental Science: Water Research and Technology, 6, 976-992. https://doi.org/10.1039/C9EW01078E
Synchrotron hard X-ray chemical imaging of trace element speciation in heterogeneous samples: development of criteria for uncertainty analysis
Wielinski, J., Marafatto, F. F., Gogos, A., Scheidegger, A., Voegelin, A., Müller, C. R., … Kaegi, R. (2020). Synchrotron hard X-ray chemical imaging of trace element speciation in heterogeneous samples: development of criteria for uncertainty analysis. Journal of Analytical Atomic Spectrometry, 35, 567-579. https://doi.org/10.1039/C9JA00394K
Electrochemical analysis of changes in iron oxide reducibility during abiotic ferrihydrite transformation into goethite and magnetite
Aeppli, M., Kaegi, R., Kretzschmar, R., Voegelin, A., Hofstetter, T. B., & Sander, M. (2019). Electrochemical analysis of changes in iron oxide reducibility during abiotic ferrihydrite transformation into goethite and magnetite. Environmental Science and Technology, 53(7), 3568-3578. https://doi.org/10.1021/acs.est.8b07190
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
Flow dynamics at the continental scale: streamflow correlation and hydrological similarity
Betterle, A., Schirmer, M., & Botter, G. (2019). Flow dynamics at the continental scale: streamflow correlation and hydrological similarity. Hydrological Processes, 33(4), 627-646. https://doi.org/10.1002/hyp.13350
Fe(II)-catalyzed ligand-controlled dissolution of iron(hydr)oxides
Biswakarma, J., Kang, K., Borowski, S. C., Schenkeveld, W. D. C., Kraemer, S. M., Hering, J. G., & Hug, S. J. (2019). Fe(II)-catalyzed ligand-controlled dissolution of iron(hydr)oxides. Environmental Science and Technology, 53(1), 88-97. https://doi.org/10.1021/acs.est.8b03910
How does environmental inter-annual variability shape aquatic microbial communities? A 40-year annual record of sedimentary DNA from a boreal Lake (Nylandssjön, Sweden)
Capo, E., Rydberg, J., Tolu, J., Domaizon, I., Debroas, D., Bindler, R., & Bigler, C. (2019). How does environmental inter-annual variability shape aquatic microbial communities? A 40-year annual record of sedimentary DNA from a boreal Lake (Nylandssjön, Sweden). Frontiers in Ecology and Evolution, 7, 245 (13 pp.). https://doi.org/10.3389/fevo.2019.00245
Determination of the effective viscosity of non-newtonian fluids flowing through porous media
Eberhard, U., Seybold, H. J., Floriancic, M., Jiménez-Martínez, J., Bertsch, P., Andrade, J. S., & Holzner, M. (2019). Determination of the effective viscosity of non-newtonian fluids flowing through porous media. Frontiers in Physics, 7, 71 (9 pp.). https://doi.org/10.3389/fphy.2019.00071
Improved tropospheric and stratospheric sulfur cycle in the aerosol-chemistry-climate model SOCOL-AERv2
Feinberg, A., Sukhodolov, T., Luo, B. P., Rozanov, E., Winkel, L. H. E., Peter, T., & Stenke, A. (2019). Improved tropospheric and stratospheric sulfur cycle in the aerosol-chemistry-climate model SOCOL-AERv2. Geoscientific Model Development, 12(9), 3863-3887. https://doi.org/10.5194/gmd-12-3863-2019
 

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