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  • (-) Organizational Unit = Mountain Hydrology and Mass Movements
  • (-) Publication Year = 2019 - 2019
  • (-) Keywords ≠ PREVAH model
  • (-) WSL Authors ≠ Malle, Johanna T.
  • (-) Journal ≠ Geoscientific Model Development
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Seasonal origins of soil water used by trees
Allen, S. T., Kirchner, J. W., Braun, S., Siegwolf, R. T. W., & Goldsmith, G. R. (2019). Seasonal origins of soil water used by trees. Hydrology and Earth System Sciences, 23(2), 1199-1210. https://doi.org/10.5194/hess-23-1199-2019
The seasonal origins of streamwater in Switzerland
Allen, S. T., von Freyberg, J., Weiler, M., Goldsmith, G. R., & Kirchner, J. W. (2019). The seasonal origins of streamwater in Switzerland. Geophysical Research Letters. https://doi.org/10.1029/2019GL084552
Hochwasserschäden: Entwicklung und Trends
Andres, N., & Badoux, A. (2019). Hochwasserschäden: Entwicklung und Trends. In M. Bründl & J. Schweizer (Eds.), WSL Berichte: Vol. 78. Lernen aus Extremereignissen (pp. 31-37). Birmensdorf: Eidg. Forschungsanstalt für Wald, Schnee und Landschaft.
Normalisierung und Trends der Unwetterschäden in der Schweiz (1972–2016)
Andres, N., & Badoux, A. (2019). Normalisierung und Trends der Unwetterschäden in der Schweiz (1972–2016). Wasser, Energie, Luft, 111(1), 39-43.
The Swiss flood and landslide damage database: normalisation and trends
Andres, N., & Badoux, A. (2019). The Swiss flood and landslide damage database: normalisation and trends. Journal of Flood Risk Management, 12(S1), e12510 (12 pp.). https://doi.org/10.1111/jfr3.12510
Unwetterschäden in der Schweiz im Jahre 2018. Rutschungen, Murgänge, Hochwasser und Sturzereignisse
Andres, N., & Badoux, A. (2019). Unwetterschäden in der Schweiz im Jahre 2018. Rutschungen, Murgänge, Hochwasser und Sturzereignisse. Wasser, Energie, Luft, 111(1), 29-38.
Ensemble flood forecasting considering dominant runoff processes – part 1: set-up and application to nested basins (Emme, Switzerland)
Antonetti, M., Horat, C., Sideris, I. V., & Zappa, M. (2019). Ensemble flood forecasting considering dominant runoff processes – part 1: set-up and application to nested basins (Emme, Switzerland). Natural Hazards and Earth System Science, 19(1), 19-40. https://doi.org/10.5194/nhess-19-19-2019
Growing spatial scales of synchronous river flooding in Europe
Berghuijs, W. R., Allen, S. T., Harrigan, S., & Kirchner, J. W. (2019). Growing spatial scales of synchronous river flooding in Europe. Geophysical Research Letters, 46(3), 1423-1428. https://doi.org/10.1029/2018GL081883
Twenty-three unsolved problems in hydrology (UPH) – a community perspective
Blöschl, G., Bierkens, M. F. P., Chambel, A., Cudennec, C., Destouni, G., Fiori, A., … Zhang, Y. (2019). Twenty-three unsolved problems in hydrology (UPH) – a community perspective. Hydrological Sciences Journal, 64(10), 1141-1158. https://doi.org/10.1080/02626667.2019.1620507
Mass movements of an alpine rock glacier
Boesch, R., & Graf, C. (2019). Mass movements of an alpine rock glacier. In G. Vosselman, S. J. Oude Elberink, & M. Y. Yang (Eds.), International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences: Vol. XLII-2/W13. ISPRS Geospatial Week 2019 (pp. 215-219). https://doi.org/10.5194/isprs-archives-XLII-2-W13-215-2019
Machine learning techniques for predicting the energy consumption/production and its uncertainties driven by meteorological observations and forecasts
Bogner, K., Pappenberger, F., & Zappa, M. (2019). Machine learning techniques for predicting the energy consumption/production and its uncertainties driven by meteorological observations and forecasts. Sustainability, 11(12), 3328 (22 pp.). https://doi.org/10.3390/su11123328
Beitrag von Wasserspeicher zur Verminderung zukünftiger Wasserknappheit?
Brunner, M., Björnsen Gurung, A., Speerli, J., Kytzia, S., Bieler, S., Schwere, D., & Stähli, M. (2019). Beitrag von Wasserspeicher zur Verminderung zukünftiger Wasserknappheit? Wasser, Energie, Luft, 111(3), 145-152.
Dependence of flood peaks and volumes in modeled discharge time series: effect of different uncertainty sources
Brunner, M. I., & Sikorska-Senoner, A. E. (2019). Dependence of flood peaks and volumes in modeled discharge time series: effect of different uncertainty sources. Journal of Hydrology, 572, 620-629. https://doi.org/10.1016/j.jhydrol.2019.03.024
Future trends in the interdependence between flood peaks and volumes: hydro‐climatological drivers and uncertainty
Brunner, M. I., Hingray, B., Zappa, M., & Favre, A. ‐C. (2019). Future trends in the interdependence between flood peaks and volumes: hydro‐climatological drivers and uncertainty. Water Resources Research, 55(6), 4745-4759. https://doi.org/10.1029/2019WR024701
Modeling the spatial dependence of floods using the Fisher copula
Brunner, M. I., Furrer, R., & Favre, A. C. (2019). Modeling the spatial dependence of floods using the Fisher copula. Hydrology and Earth System Sciences, 23(1), 107-124. https://doi.org/10.5194/hess-23-107-2019
Technical note: stochastic simulation of streamflow time series using phase randomization
Brunner, M. I., Bárdossy, A., & Furrer, R. (2019). Technical note: stochastic simulation of streamflow time series using phase randomization. Hydrology and Earth System Sciences, 23(8), 3175-3187. https://doi.org/10.5194/hess-23-3175-2019
Interannual variability in glacier contribution to runoff from a high-elevation Andean catchment: understanding the role of debris cover in glacier hydrology.
Burger, F., Ayala, A., Farias, D., Shaw, T. E., MacDonell, S., Brock, B., … Pellicciotti, F. (2019). Interannual variability in glacier contribution to runoff from a high-elevation Andean catchment: understanding the role of debris cover in glacier hydrology. Hydrological Processes, 33, 214-229. https://doi.org/10.1002/hyp.13354
Modeling the re-appearance of a crashed airplane on Gauligletscher, Switzerland
Compagno, L., Jouvet, G., Bauder, A., Funk, M., Church, G., Leinss, S., & Lüthi, M. P. (2019). Modeling the re-appearance of a crashed airplane on Gauligletscher, Switzerland. Frontiers in Earth Science, 7, 170 (8 pp.). https://doi.org/10.3389/feart.2019.00170
Comparing aerial lidar observations with terrestrial lidar and snow‐probe transects from NASA's 2017 SnowEx campaign
Currier, W. R., Pflug, J., Mazzotti, G., Jonas, T., Deems, J. S., Bormann, K. J., … Lundquist, J. D. (2019). Comparing aerial lidar observations with terrestrial lidar and snow‐probe transects from NASA's 2017 SnowEx campaign. Water Resources Research, 55(7), 6285-6294. https://doi.org/10.1029/2018WR024533
A numerical model for fluvial transport of subglacial sediment
Delaney, I., Werder, M. A., & Farinotti, D. (2019). A numerical model for fluvial transport of subglacial sediment. Journal of Geophysical Research F: Earth Surface, 124(8), 2197-2223. https://doi.org/10.1029/2019JF005004
 

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