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  • (-) Organizational Unit = Mountain Hydrology and Mass Movements
  • (-) Publication Year = 2019 - 2019
  • (-) Publication Status ≠ Published
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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.
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
Making sense of avulsions on debris-flow fans
Densmore, A. L., de Haas, T., McArdell, B., & Schuerch, P. (2019). Making sense of avulsions on debris-flow fans. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 637-644). https://doi.org/10.25676/11124/173161
High‐resolution snowline delineation from Landsat imagery to infer snow cover controls in a Himalayan catchment
Girona‐Mata, M., Miles, E. S., Ragettli, S., & Pellicciotti, F. (2019). High‐resolution snowline delineation from Landsat imagery to infer snow cover controls in a Himalayan catchment. Water Resources Research. https://doi.org/10.1029/2019WR024935
An overview of a decade of applied debris-flow runout modeling in Switzerland: challenges and recommendations
Graf, C., Christen, M., McArdell, B. W., & Bartelt, P. (2019). An overview of a decade of applied debris-flow runout modeling in Switzerland: challenges and recommendations. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 685-692). sine loco: Association of Environmental and Engineering Geologists.
Implications of observation-enhanced energy-balance snowmelt simulations for runoff modeling of Alpine catchments
Griessinger, N., Schirmer, M., Helbig, N., Winstral, A., Michel, A., & Jonas, T. (2019). Implications of observation-enhanced energy-balance snowmelt simulations for runoff modeling of Alpine catchments. Advances in Water Resources, 133, 103410 (12 pp.). https://doi.org/10.1016/j.advwatres.2019.103410
Analysis of rainfall and runoff for debris flows at the Illgraben catchment, Switzerland
Hirschberg, J., McArdell, B. W., Badoux, A., & Molnar, P. (2019). Analysis of rainfall and runoff for debris flows at the Illgraben catchment, Switzerland. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 693-700). sine loco: Association of Environmental and Engineering Geologists.
Modelling rockfall impact with scarring in compactable soils
Lu, G., Caviezel, A., Christen, M., Demmel, S. E., Ringenbach, A., Bühler, Y., … Bartelt, P. (2019). Modelling rockfall impact with scarring in compactable soils. Landslides. https://doi.org/10.1007/s10346-019-01238-z
Field calibration of the Swiss plate geophone system at the Albula stream and comparison with controlled flume experiments
Nicollier, T., Rickenmann, D., & Hartlieb, A. (2019). Field calibration of the Swiss plate geophone system at the Albula stream and comparison with controlled flume experiments (p. (8 pp.). Presented at the SEDHYD 2019. Reno, NV.
Small scale debris-flow experiments on run-up height
Rickenmann, D., Karrer, T., McArdell, B., & Scheidl, C. (2019). Small scale debris-flow experiments on run-up height. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 414-420). https://doi.org/10.25676/11124/173191
Shallow landslides: retrospective analysis of the protective effects of forest and conclusions for prediction
Rickli, C., Bebi, P., Graf, F., & Moos, C. (2019). Shallow landslides: retrospective analysis of the protective effects of forest and conclusions for prediction. In W. Wu (Ed.), Springer series in geomechanics and geoengineering. Recent advances in geotechnical research (pp. 175-185). https://doi.org/10.1007/978-3-319-89671-7_15
Large-scale field tests on impulse waves
Sauter, E., Fuchs, H., Schmocker, L., Volkwein, A., Prohaska, Y., & Boes, R. M. (2019). Large-scale field tests on impulse waves. In Proceedings of the IAHR world congress. E-proceedings of the 38th IAHR world congress (pp. 727-739). Panama City, Panama.
Debris-flow behavior in super- and subcritical conditions
Scheidl, C., McArdell, B., Nagl, G., & Rickenmann, D. (2019). Debris-flow behavior in super- and subcritical conditions. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 437-442). https://doi.org/10.25676/11124/173187
Numerical simulation for evaluating the phase-shift of fine sediment in stony debris flows
Uchida, T., Nishiguchi, Y., McArdell, B. W., & Satofuka, Y. (2019). Numerical simulation for evaluating the phase-shift of fine sediment in stony debris flows. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 451-458). https://doi.org/10.25676/11124/173185
What is the best time to take stream isotope samples for event-based model calibration?
Wang, L., von Freyberg, J., van Meerveld, I., Seibert, J., & Kirchner, J. W. (2019). What is the best time to take stream isotope samples for event-based model calibration? Journal of Hydrology, 577, 123950 (14 pp.). https://doi.org/10.1016/j.jhydrol.2019.123950
Deciphering debris-flow seismograms at Illgraben, Switzerland
Wenner, M., Walter, F., McArdell, B., & Farinotti, D. (2019). Deciphering debris-flow seismograms at Illgraben, Switzerland. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 222-229). sine loco: Association of Environmental and Engineering Geologists.
Assessment of plant-induced suction and its effects on the shear strength of rooted soils
Yildiz, A., Graf, F., Rickli, C., & Springman, S. M. (2019). Assessment of plant-induced suction and its effects on the shear strength of rooted soils. Proceedings of the Institution of Civil Engineers: Geotechnical Engineering. https://doi.org/10.1680/jgeen.18.00209