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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
Glide-snow avalanche characteristics at different timescales extracted from time-lapse photography
Fees, A., van Herwijnen, A., Altenbach, M., Lombardo, M., & Schweizer, J. (2023). Glide-snow avalanche characteristics at different timescales extracted from time-lapse photography. Annals of Glaciology. https://doi.org/10.1017/aog.2023.37
Stress measurements in the weak layer during snow stability tests
Griesser, S., Pielmeier, C., Boutera Toft, H., & Reiweger, I. (2023). Stress measurements in the weak layer during snow stability tests. Annals of Glaciology. https://doi.org/10.1017/aog.2023.49
Automated prediction of wet-snow avalanche activity in the Swiss Alps
Hendrick, M., Techel, F., Volpi, M., Olevski, T., Pérez-Guillén, C., van Herwijnen, A., & Schweizer, J. (2023). Automated prediction of wet-snow avalanche activity in the Swiss Alps. Journal of Glaciology, 69(277), 1365-1378. https://doi.org/10.1017/jog.2023.24
A method for imaging water transport in soil-snow systems with neutron radiography
Lombardo, M., Lehmann, P., Kaestner, A., Fees, A., van Herwijnen, A., & Schweizer, J. (2023). A method for imaging water transport in soil-snow systems with neutron radiography. Annals of Glaciology. https://doi.org/10.1017/aog.2023.65
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
Crack propagation speeds in weak snowpack layers
Bergfeld, B., Van Herwijnen, A., Bobillier, G., Larose, E., Moreau, L., Trottet, B., … Schweizer, J. (2022). Crack propagation speeds in weak snowpack layers. Journal of Glaciology, 68(269), 557-570. https://doi.org/10.1017/jog.2021.118
Evaluation of the extraordinary avalanche situation in January 2018 in Switzerland
Bründl, M., Hafner, E., Bebi, P., Bühler, Y., Margreth, S., Marty, C., … Schweizer, J. (2021). Evaluation of the extraordinary avalanche situation in January 2018 in Switzerland. In N. Beyer Portner (Ed.), 14th Congress INTERPRAEVENT 2021. May 31st to June 2nd 2021. Virtual Congress, Norway. Conference Proceedings (pp. 17-23). International Research Society INTERPRAEVENT.
Modeling spatially distributed snow instability at a regional scale using Alpine3D
Richter, B., Schweizer, J., Rotach, M. W., & Van Herwijnen, A. (2021). Modeling spatially distributed snow instability at a regional scale using Alpine3D. Journal of Glaciology, 67(266), 1147-1162. https://doi.org/10.1017/jog.2021.61
Application of physical snowpack models in support of operational avalanche hazard forecasting: a status report on current implementations and prospects for the future
Morin, S., Horton, S., Techel, F., Bavay, M., Coléou, C., Fierz, C., … Vionnet, V. (2020). Application of physical snowpack models in support of operational avalanche hazard forecasting: a status report on current implementations and prospects for the future. Cold Regions Science and Technology, 170, 102910 (23 pp.). https://doi.org/10.1016/j.coldregions.2019.102910
Comparing measurements of snow mechanical properties relevant for slab avalanche release
Reuter, B., Proksch, M., Löwe, H., van Herwijnen, A., & Schweizer, J. (2019). Comparing measurements of snow mechanical properties relevant for slab avalanche release. Journal of Glaciology, 65(249), 55-67. https://doi.org/10.1017/jog.2018.93
Avalanche dynamics by Newton. Reply to comments on avalanche flow models based on the concept of random kinetic energy
Bartelt, P., & Buser, O. (2018). Avalanche dynamics by Newton. Reply to comments on avalanche flow models based on the concept of random kinetic energy. Journal of Glaciology, 64(243), 165-170. https://doi.org/10.1017/jog.2018.1
Acoustic emission signatures prior to snow failure
Capelli, A., Reiweger, I., & Schweizer, J. (2018). Acoustic emission signatures prior to snow failure. Journal of Glaciology, 64(246), 543-554. https://doi.org/10.1017/jog.2018.43
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
Configurational energy and the formation of mixed flowing/powder snow and ice avalanches
Bartelt, P., Buser, O., Vera Valero, C., & Bühler, Y. (2016). Configurational energy and the formation of mixed flowing/powder snow and ice avalanches. Annals of Glaciology, 57(71), 179-188. https://doi.org/10.3189/2016AoG71A464
The relation between dilatancy, effective stress and dispersive pressure in granular avalanches
Bartelt, P., & Buser, O. (2016). The relation between dilatancy, effective stress and dispersive pressure in granular avalanches. Acta Geotechnica, 11(3), 549-557. https://doi.org/10.1007/s11440-016-0463-7
Comparison of simulated powder snow avalanches with photogrammetric measurements
Dreier, L., Bühler, Y., Ginzler, C., & Bartelt, P. (2016). Comparison of simulated powder snow avalanches with photogrammetric measurements. Annals of Glaciology, 57(71), 371-381. https://doi.org/10.3189/2016AoG71A532