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  • (-) WSL Research Units ≠ Snow Avalanches and Prevention
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Calculating impact pressures in numerical avalanche and rockfall models
Borner, J., & Bartelt, P. (2023). Calculating impact pressures in numerical avalanche and rockfall models. In L. Zdravkovic, S. Kontoe, D. M. G. Taborda, & A. Tsiampousi (Eds.), Proceedings 10th NUMGE 2023. 10th European conference on numerical methods in geotechnical engineering (p. (6 pp.). https://doi.org/10.53243/NUMGE2023-370
Fotogrammetrische Schneehöhenkartierung aus Drohnen-, Flugzeug­- und Satellitenbildern
Bühler, Y., Stoffel, A., Eberhard, L., & Bührle, L. (2023). Fotogrammetrische Schneehöhenkartierung aus Drohnen-, Flugzeug­- und Satellitenbildern. In Eidg. Forschungsanstalt für Wald, Schnee und Landschaft, WSL (Ed.), WSL Berichte: Vol. 134. Neue Fernerkundungs­technologien für die Umweltforschung und Praxis (pp. 61-66). https://doi.org/10.55419/wsl:33072
A measurement system for mapping snow distribution changes in an avalanche release zone
Ruttner-Jansen, P., Glaus, J., Wieser, A., & Bühler, Y. (2023). A measurement system for mapping snow distribution changes in an avalanche release zone. In ISSW proceedings. International snow science workshop proceedings 2023 (pp. 1074-1081).
Dynamik von Störungen in Wäldern auf der Alpennordseite von 1900 bis 2022. Disturbance dynamics on the north of the Alps from 1900 to 2022
Wohlgemuth, T., Queloz, V., Moser, B., Pezzatti, G. B., Scherrer, D., Vitasse, Y., & Conedera, M. (2023). Dynamik von Störungen in Wäldern auf der Alpennordseite von 1900 bis 2022. Disturbance dynamics on the north of the Alps from 1900 to 2022. In P. Bebi & J. Schweier (Eds.), WSL Berichte: Vol. 144. Aus Störungen und Extremereignissen im Wald lernen (pp. 17-24). https://doi.org/10.55419/wsl:35224
Using the monoplotting technique for documenting and analyzing natural hazard events
Conedera, M., Bozzini, C., Ryter, U., Bertschinger, T., & Krebs, P. (2018). Using the monoplotting technique for documenting and analyzing natural hazard events. In J. Simão Antunes Do Carmo (Ed.), IntechOpen. Natural hazards: risk assessment and vulnerability reduction (pp. 107-108). https://doi.org/10.5772/intechopen.77321
Abiotic disturbances in Bulgarian mountain coniferous forests – an overview
Panayotov, M., Gogushev, G., Tsavkov, E., Vasileva, P., Tsvetanov, N., Kulakowski, D., & Bebi, P. (2017). Abiotic disturbances in Bulgarian mountain coniferous forests – an overview. Forest Ecology and Management, 388, 13-28. https://doi.org/10.1016/j.foreco.2016.10.034
Die Schutzfunktion in Windwurfflächen
Bebi, P., Putallaz, J. M., Fankhauser, M., Schmid, U., Schwitter, R., & Gerber, W. (2015). Die Schutzfunktion in Windwurfflächen. Schweizerische Zeitschrift für Forstwesen, 166(3), 168-176. https://doi.org/10.3188/szf.2015.0168
Three-dimensional microstructure and numerical calculation of elastic properties of alpine snow with a focus on weak layers
Köchle, B., & Schneebeli, M. (2014). Three-dimensional microstructure and numerical calculation of elastic properties of alpine snow with a focus on weak layers. Journal of Glaciology, 60(222), 705-713. https://doi.org/10.3189/2014JoG13J220
Anwendungspotenzial des WSL-Monoplotting-Tools im Naturgefahrenmanagement
Conedera, M., Bozzini, C., Scapozza, C., Rè, L., Ryter, U., & Krebs, P. (2013). Anwendungspotenzial des WSL-Monoplotting-Tools im Naturgefahrenmanagement. Schweizerische Zeitschrift für Forstwesen, 164(7), 173-180. https://doi.org/10.3188/szf.2013.0173
Snow stratigraphy measurements with high-frequency FMCW radar: comparison with snow micro-penetrometer
Marshall, H. P., Schneebeli, M., & Koh, G. (2007). Snow stratigraphy measurements with high-frequency FMCW radar: comparison with snow micro-penetrometer. Cold Regions Science and Technology, 47(1-2), 108-117. https://doi.org/10.1016/j.coldregions.2006.08.008
Avalanche defence strategies and monitoring of two sites in mountain permafrost terrain, Pontresina, Eastern Swiss Alps
Phillips, M. (2006). Avalanche defence strategies and monitoring of two sites in mountain permafrost terrain, Pontresina, Eastern Swiss Alps. Natural Hazards, 39(3), 353-379. https://doi.org/10.1007/s11069-005-6126-x
A Bayesian probabilistic framework for avalanche modelling based on observations
Straub, D., & Grêt-Regamey, A. (2006). A Bayesian probabilistic framework for avalanche modelling based on observations. Cold Regions Science and Technology, 46(3), 192-203. https://doi.org/10.1016/j.coldregions.2006.08.024
Jahrringe als Indikatoren für extreme Standortsbedingungen im Gebirge: Schnee, Lawinen und Permafrost
Bebi, P., Casteller, A., Mayer, A. C., & Stöckli, V. (2004). Jahrringe als Indikatoren für extreme Standortsbedingungen im Gebirge: Schnee, Lawinen und Permafrost. Schweizerische Zeitschrift für Forstwesen, 155(6), 191-197. https://doi.org/10.3188/szf.2004.0208
Large-scale avalanche braking mound and catching dam experiments with snow: a study of the airborne jet
Hákonardóttir, K. M., Hogg, A. J., Jóhannesson, T., Kern, M., & Tiefenbacher, F. (2003). Large-scale avalanche braking mound and catching dam experiments with snow: a study of the airborne jet. Surveys in Geophysics, 24(5-6), 543-554. https://doi.org/10.1023/B:GEOP.0000006081.76154.ad
A 3D model for snow drift and snow cover development in steep alpine terrain
Lehning, M., Doorschot, J., Fierz, C., & Raderschall, N. (2002). A 3D model for snow drift and snow cover development in steep alpine terrain. In ISSW proceedings. International snow science workshop proceedings 2002 (pp. 579-589).
Avalanche forecasting for transportation corridor and backcountry in Glacier National Park (BC, Canada)
Schweizer, J., Jamieson, J. B., & Skjonsberg, D. (1998). Avalanche forecasting for transportation corridor and backcountry in Glacier National Park (BC, Canada). In E. Hestnes (Ed.), NGI publication: Vol. 203. Proceedings of the anniversary conference for the 25 years of snow avalanche research at NGI, Voss, Norway, 12-16 May 1998 (pp. 238-244).