Prof. Dr. Oliver Schilling

Råman Vinnå, L., Bigler, V., Schilling, O. S., & Epting, J. (2025). Multi-fidelity model assessment of climate change impacts on river water temperatures, thermal extremes and potential effects on cold water fish in Switzerland [Posted-content]. Copernicus GmbH. https://doi.org/10.5194/egusphere-2024-3957

Currle, Friederike, Therrien, René, & Schilling, Oliver S. (2025). Explicit simulation of reactive microbial transport with a dual-permeability, two-site kinetic deposition formulation using the integrated surface-subsurface hydrological model HydroGeoSphere [Posted-content]. Copernicus GmbH. https://doi.org/10.5194/egusphere-2025-372

Epting, Jannis, Scheidler, Stefan, Schilling, Oliver S., & Christe, Pierre Guillaume. (2024). Wärmetransport im Tiefengrundwasser - Erschliessung geothermischer Potenziale im Kanton Wallis. Pilotstudie Brig – Schlussbericht (Nos. BGA–Wallis–25; p. 126). Kantons Wallis & energieschweiz. https://doi.org/10.5451/unibas-ep96838

Currle, Friederike, Therrien, René, & Schilling, Oliver S. (2024). Explicit simulation of reactive microbial transport with a dual-permeability, two-site kinetic deposition formulation using the integrated surface-subsurface hydrological model HydroGeoSphere (rev. 2699) [Posted-content]. Copernicus GmbH. https://doi.org/10.5194/egusphere-2024-3787

Steiner, Brian, Dresmann, Horst, Epting, Jannis, & Schilling, Oliver. (2024, November 9). «Rock cap diagram»: a concept for processing soil and rock information from a borehole database for representation in GIS. 22nd Swiss Geoscience Meeting.

Urycki, Dawn R., Kirtane, Anish A., Aronoff, Rachel, Avila, Colton C., Blackman, Rosetta C., Carraro, Luca, Evrard, Olivier, Good, Stephen P., Hoyos J., Diana C., López-Rodríguez, Nieves, Mora, Demetrio, Schadewell, Yvonne, Schilling, Oliver S., & Ceperley, Natalie C. (2024). A new flow path: eDNA connecting hydrology and biology. Wiley Interdisciplinary Reviews: Water, 11(6), Early Access. https://doi.org/10.1002/wat2.1749

Delottier, H., Schilling, O. S., & Therrien, R. (2024). Assessing the impact of surface water and groundwater interactions for regional-scale simulations of water table elevation [Journal-article]. Journal of Hydrology, 639, 131641. https://doi.org/10.1016/j.jhydrol.2024.131641

van Tiel, Marit, Aubry-Wake, Caroline, Somers, Lauren, Andermann, Christoff, Avanzi, Francesco, Baraer, Michel, Chiogna, Gabriele, Daigre, Clémence, Das, Soumik, Drenkhan, Fabian, Farinotti, Daniel, Fyffe, Catriona L., de Graaf, Inge, Hanus, Sarah, Immerzeel, Walter, Koch, Franziska, McKenzie, Jeffrey M., Müller, Tom, Popp, Andrea L., et al. (2024). Cryosphere–groundwater connectivity is a missing link in the mountain water cycle [Journal-article]. Nature Water, 2, 624–637. https://doi.org/10.1038/s44221-024-00277-8

Tang, Qi, Delottier, Hugo, Kurtz, Wolfgang, Nerger, Lars, Schilling, Oliver S., & Brunner, Philip. (2024). HGS-PDAF (version 1.0): a modular data assimilation framework for an integrated surface and subsurface hydrological model. Geoscientific Model Development, 17(8), 3559–3578. https://doi.org/10.5194/gmd-17-3559-2024

Tang, Qi, Delottier, Hugo, Kurtz, Wolfgang, Nerger, Lars, Schilling, Oliver S., & Brunner, Philip. (2024). HGS-PDAF (version 1.0): A modular data assimilation framework for an integrated surface and subsurface hydrological model. In Geoscientific Model Development (GMD). https://doi.org/10.5194/gmd-2023-229

Blanc, T., Currle, F., Peel, M., Brennwald, M. S., Tomonaga, Y., Schilling, O. S., Hunkeler, D., Kipfer, R., & Brunner, P. (2024). Use of dissolved gases as tracers to study the impacts of floods and river works on Surface water – Groundwater interactions. [Posted-content]. Copernicus GmbH. https://doi.org/10.5194/egusphere-egu24-18189

Epting, J., Affolter Kast, A., Scheidler, S., Råman Vinnå, C. L., & Schilling, O. S. (2024). Measures to adapt to climate change and mitigate the impact of droughts in alluvial aquifers and rivers [Posted-content]. Copernicus GmbH. https://doi.org/10.5194/egusphere-egu24-16458

Currle, F., Therrien, R., Blanc, T., Tomonaga, Y., Kipfer, R., Hunkeler, D., Brunner, P., & Schilling, O. S. (2024). Tracing and quantifying microbes in riverbank filtration sites combining online flow cytometry and integrated surface water – groundwater modelling [Posted-content]. Copernicus GmbH. https://doi.org/10.5194/egusphere-egu24-10537

Epting, J., Affolter, A., Dresmann, H., Février, S., & Schilling, O. S. (2024). Thermischer Einfluss von Untergrund-Bauten - Evaluierungsansätze und Nutzenpotenziale. Aqua & Gas, 6(104), 26–32. https://www.aquaetgas.ch/de/wasser/gew%C3%A4sser/20240603-hydraulischer-thermischer-einfluss-von-untergrundbauten/

Epting, Jannis, Walde, Michel A., & Schilling, Oliver S. (2024). Herleitung «natürlicher» Grundwassertemperaturen & Definition Tiefengrundwasser - Hydrogeologische Grundlagen (; Bundesamt für Umwelt (BAFU), Abteilung Hydrologie, Trans.; No. Baugrundarchiv (BGA), BGA-Schweiz-78; https://doi.org/10.5451/unibas-ep96756; p. 68). Angewandte und Umweltgeologie (AUG), Forschungsgruppe Hydrogeologie, Departement Umweltwissenschaft. https://doi.org/10.5451/unibas-ep96756

Van Tiel, M., Aubry-Wake, C., Somers, L., Andermann, C., Avanzi, F., Baraer, M., Chiogna, G., Daigre, C., Das, S., Drenkhan, F., Farinotti, D., Fyffe, C.L., de Graaf, I., Hanus, S., Immerzeel, W., Koch, F., McKenzie, J., Müller, T., Popp, A.L., et al. (2024). Cryosphere-groundwater connectivity in the mountain water cycle - where does meltwater go? [Poster]. EGU General Assembly 2024, EGU24–4092. https://doi.org/10.5194/egusphere-egu24-4092

Głogowski, A., Fiałkiewicz, W., Schilling, O., & Brunner, P. (2023, May 15). Inverse identification of soil properties at catchment scale via pilot point calibration of an integrated surface-subsurface hydrological model [Posted-content]. Copernicus GmbH. https://doi.org/10.5194/egusphere-egu23-8815

Mustafa, S. M. T., Ala-Aho, P., Marttila, H., Huysmans, M., Comte, J.-C., Shamsudduha, M., Ghysels, G., Schilling, O. S., Hoffmann, R., Rossi, P. M., Avellan, T., Haghighi, A. T., Peeters, L., Pulido-Velazquez, M., Larocque, M., Loon, A. V., Ferré, T. P. A., Brunner, P., Hendricks-Franssen, H.-J., & Klöve, B. (2023, May 15). Making water models more inclusive and interdisciplinary to underpin sustainable development [Posted-content]. Copernicus GmbH. https://doi.org/10.5194/egusphere-egu23-16122

Tang, Q., Delottier, H., Schilling, O. S., Kurtz, W., & Brunner, P. (2023, May 15). A coupled data assimilation framework with an integrated surface and subsurface hydrological model [Posted-content]. Copernicus GmbH. https://doi.org/10.5194/egusphere-egu23-15189

Schilling, O. S., & Schipanski, M. (2023, February 2). Celebrating the launch of Nature Water - Part 4: Focus on groundwater [Posted-content]. Cassyni. https://doi.org/10.52843/cassyni.gxqlk9

Epting, Jannis, Raman Vinna, Carl Love, Affolter, Annette, Scheidler, Stefan, & Schilling, Oliver S. (2023). Climate change adaptation and mitigation measures for alluvial aquifers - Solution approaches based on the thermal exploitation of managed aquifer (MAR) and surface water recharge (MSWR). Water Research, 238, 119988. https://doi.org/10.1016/j.watres.2023.119988

Epting, Jannis, Råman Vinnå, Love, Affolter, Annette, Scheidler, Stefan, & Schilling, Oliver S. (2023). Anpassungsstrategien an den Klimawandel. Lösungsansätze zum Wärmemanagement von Grund- und Oberflächenwasserressourcen. Aqua & Gas, 103(6), 28–36. https://www.dora.lib4ri.ch/eawag/islandora/object/eawag%3A31067

Epting, Jannis, Vinnå Råman, Love, Affolter, Annette, Scheidler, Stefan, & Schilling, Oliver S. (2023). Auswirkungen des Klimawandels auf Schweizer Lockergesteins-grundwasservorkommen – Eine quantitative Prognose mit Fokus auf natürliche und künstliche Grundwasserneubildung durch Oberflächenwasserinfiltration. Wasser, Energie, Luft, (1)(115), 37–44. https://www.dora.lib4ri.ch/eawag/islandora/object/eawag%3A31775

Moeck, Christian, Jimenez-Martinez, Joaquin, Jeannin, Pierre-Yves, Schilling, Oliver S., & Schirmer, Mario. (2023). Grundwasser und Klimawandel. Aqua Viva, 2(65), 28–31.

Schilling, O. S., Halloran, L. J. S., Delottier, H., Sano, Y., & Therrien, R. (2023). Editorial: Advances and emerging methods in tracer hydrogeology. Frontiers in Water, 5. https://doi.org/10.3389/frwa.2023.1243114

Schilling, O. S., Nagaosa, K., Schilling, T. U., Brennwald, M. S., Sohrin, R., Tomonaga, Y., Kipfer, R., Brunner, P., & Kato, K. (2023). Revisiting Mt. Fuji’s groundwater origins with helium, vanadium and eDNA tracers. Nature Water, 1, 60–73. https://doi.org/10.1038/s44221-022-00001-4

Delottier, Hugo, Schilling, Oliver S., Musy, Stéphanie, Purtschert, Roland, & Brunner, Philip. (2022). Explicit simulation of environmental gas tracers with integrated surface and subsurface hydrological models. Frontiers in Water, 4, 980030. https://doi.org/10.3389/frwa.2022.980030

Moeck, Christian, Schilling, Oliver S., Künze, Rouven, Brunner, Philip, & Schirmer, Mario. (2022). Grundwassermodellierung - Warum auch Modellunsicherheiten quantifiziert werden sollten. Aqua & Gas, 7-8, 27–33.

Schilling, O. S., Partington, D. J., Doherty, J., Kipfer, R., Hunkeler, D., & Brunner, P. (2022). Buried paleo-channel detection with a groundwater model, tracer-based observations, and spatially varying, preferred anisotropy pilot point calibration. Geophysical Research Letters, 49(14), e2022GL098944. https://doi.org/10.1029/2022gl098944

Popp, A. L., Pardo-Álvarez, Á., Schilling, O. S., Scheidegger, A., Musy, S., Peel, M., Brunner, P., Purtschert, R., Hunkeler, D., & Kipfer, R. (2021). A Framework for Untangling Transient Groundwater Mixing and Travel Times. Water Resources Research, 57(4). https://doi.org/10.1029/2020WR028362

Schilling, O. S., Cook, P. G., Grierson, P. F., Dogramaci, S., & Simmons, C. T. (2021). Controls on Interactions Between Surface Water, Groundwater, and Riverine Vegetation Along Intermittent Rivers and Ephemeral Streams in Arid Regions. Water Resources Research, 57(2). https://doi.org/10.1029/2020WR028429

Schilling, O.S., Parajuli, A., Tremblay Otis, C., Müller, T.U., Antolinez Quijano, W., Tremblay, Y., Brennwald, M.S., Nadeau, D.F., Jutras, S., Kipfer, R., & Therrien, R. (2021). Quantifying Groundwater Recharge Dynamics and Unsaturated Zone Processes in Snow-Dominated Catchments via On-Site Dissolved Gas Analysis. Water Resources Research, 57(2). https://doi.org/10.1029/2020WR028479

Parajuli, A., Nadeau, D. F., Anctil, F., Schilling, O. S., & Jutras, S. (2020). Does data availability constrain temperature-index snow models? A case study in a humid boreal forest. Water (Switzerland), 12(8). https://doi.org/10.3390/w12082284

Schilling, O. S., Cook, P. G., & Brunner, P. (2019). Beyond Classical Observations in Hydrogeology: The Advantages of Including Exchange Flux, Temperature, Tracer Concentration, Residence Time, and Soil Moisture Observations in Groundwater Model Calibration. Reviews of Geophysics, 57(1), 146–182. https://doi.org/10.1029/2018rg000619

Schilling, O. S., Park, Y.-J., Therrien, R., & Nagare, R. M. (2019). Integrated Surface and Subsurface Hydrological Modeling with Snowmelt and Pore Water Freeze–Thaw. Groundwater, 57(1), 63–74. https://doi.org/10.1111/gwat.12841

Tang, Q., Schilling, O. S., Kurtz, W., Brunner, P., Vereecken, H., & Hendricks Franssen, H.-J. (2018). Simulating Flood-Induced Riverbed Transience Using Unmanned Aerial Vehicles, Physically Based Hydrological Modeling, and the Ensemble Kalman Filter. Water Resources Research, 54(11), 9342–9363. https://doi.org/10.1029/2018WR023067

Schomburg, A., Schilling, O.S., Guenat, C., Schirmer, M., Le Bayon, R.C., & Brunner, P. (2018). Topsoil structure stability in a restored floodplain: Impacts of fluctuating water levels, soil parameters and ecosystem engineers. Science of the Total Environment, 639, 1610–1622. https://doi.org/10.1016/j.scitotenv.2018.05.120

Schilling, O. S., Gerber, C., Partington, D. J., Purtschert, R., Brennwald, M. S., Kipfer, R., Hunkeler, D., & Brunner, P. (2017). Advancing Physically-Based Flow Simulations of Alluvial Systems Through Atmospheric Noble Gases and the Novel 37Ar Tracer Method. Water Resources Research, 53(12), 10465–10490. https://doi.org/10.1002/2017WR020754

Schilling, O. S., Irvine, D. J., Hendricks Franssen, H.-J., & Brunner, P. (2017). Estimating the Spatial Extent of Unsaturated Zones in Heterogeneous River-Aquifer Systems. Water Resources Research, 53(12), 10583–10602. https://doi.org/10.1002/2017WR020409

Tang, Q., Kurtz, W., Schilling, O.S., Brunner, P., Vereecken, H., & Hendricks Franssen, H.-J. (2017). The influence of riverbed heterogeneity patterns on river-aquifer exchange fluxes under different connection regimes. Journal of Hydrology, 554, 383–396. https://doi.org/10.1016/j.jhydrol.2017.09.031

Kurtz, W., Lapin, A., Schilling, O. S., Tang, Q., Schiller, E., Braun, T., Hunkeler, D., Vereecken, H., Sudicky, E., Kropf, P., Hendricks Franssen, H.-J., & Brunner, P. (2017). Integrating hydrological modelling, data assimilation and cloud computing for real-time management of water resources. Environmental Modelling and Software, 93, 418–435. https://doi.org/10.1016/j.envsoft.2017.03.011

Lapin, A., Schiller, E., Kropf, P., Schilling, O., Brunner, P., Kapic, A. J., Braun, T., & Maffioletti, S. (2014, August 1). Real-Time Environmental Monitoring for Cloud-Based Hydrogeological Modeling with HydroGeoSphere [Proceedings-article]. https://doi.org/10.1109/hpcc.2014.154

Kropf, P., Schiller, E., Brunner, P., Schilling, O., Hunkeler, D., & Lapin, A. (2014). Wireless Mesh Networks and Cloud Computing for Real Time Environmental Simulations. 265 AISC, 1–11. https://doi.org/10.1007/978-3-319-06538-0_1

Schilling, O.S., Doherty, J., Kinzelbach, W., Wang, H., Yang, P.N., & Brunner, P. (2014). Using tree ring data as a proxy for transpiration to reduce predictive uncertainty of a model simulating groundwater-surface water-vegetation interactions. Journal of Hydrology, 519(PB), 2258–2271. https://doi.org/10.1016/j.jhydrol.2014.08.063

Schilling, O., Sheldon, H. A., Reid, L. B., & Corbel, S. (2013). Hydrothermal models of the Perth metropolitan area, Western Australia: Implications for geothermal energy Modèles hydrothermaux de la région métropolitaine de Perth, Ouest Australien: Implications pour l’énergie géothermique. Hydrogeology Journal, 21(3), 605–621. https://doi.org/10.1007/s10040-012-0945-0

Corbel, S., Schilling, O. S., Horowitz, F. G., Reid, L. B., Sheldon, H. A., Timms, N. E., & Wilkes, P. (2012, January 1). Identification and geothermal influence of faults in the Perth metropolitan area, Australia. 37th Workshop on Geothermal Reservoir Engineering .

Schilling, O. S., Cline, E., & Dreschel, T. W. (2012). Critical flow patterns for an Everglades macro-scale physical model. Florida Scientist, 76(3-4), 381–390. http://www.jstor.org/stable/24321993