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Linking the future likelihood of large fires to occur on mountain slopes with fuel connectivity and topography
Conedera, M., Feusi, J., Pezzatti, G. B., & Krebs, P. (2024). Linking the future likelihood of large fires to occur on mountain slopes with fuel connectivity and topography. Natural Hazards. https://doi.org/10.1007/s11069-023-06395-y
An application of dynamic programming to local adaptation decision-making
Muccione, V., Lontzek, T., Huggel, C., Ott, P., & Salzmann, N. (2023). An application of dynamic programming to local adaptation decision-making. Natural Hazards, 119, 523-544. https://doi.org/10.1007/s11069-023-06135-2
Social integration matters: factors influencing natural hazard risk preparedness—a survey of Swiss households
Maidl, E., Bresch, D. N., & Buchecker, M. (2021). Social integration matters: factors influencing natural hazard risk preparedness—a survey of Swiss households. Natural Hazards, 105, 1861-1890. https://doi.org/10.1007/s11069-020-04381-2
Impact of forecasted land use changes on flood risk in the Polish Carpathians
Szwagrzyk, M., Kaim, D., Price, B., Wypych, A., Grabska, E., & Kozak, J. (2018). Impact of forecasted land use changes on flood risk in the Polish Carpathians. Natural Hazards, 94(1), 227-240. https://doi.org/10.1007/s11069-018-3384-y
3D dynamics of debris flows quantified at sub-second intervals from laser profiles
Jacquemart, M., Meier, L., Graf, C., & Morsdorf, F. (2017). 3D dynamics of debris flows quantified at sub-second intervals from laser profiles. Natural Hazards, 89(2), 785-800. https://doi.org/10.1007/s11069-017-2993-1
The common information platform for natural hazards in Switzerland
Heil, B., Petzold, I., Romang, H., & Hess, J. (2014). The common information platform for natural hazards in Switzerland. Natural Hazards, 70(3), 1673-1687. https://doi.org/10.1007/s11069-010-9606-6
Linking social capacities and risk communication in Europe: a gap between theory and practice?
Höppner, C., Whittle, R., Bründl, M., & Buchecker, M. (2012). Linking social capacities and risk communication in Europe: a gap between theory and practice? Natural Hazards, 64(2), 1753-1778. https://doi.org/10.1007/s11069-012-0356-5
A debris-flow alarm system for the Alpine Illgraben catchment: design and performance
Badoux, A., Graf, C., Rhyner, J., Kuntner, R., & McArdell, B. W. (2009). A debris-flow alarm system for the Alpine Illgraben catchment: design and performance. Natural Hazards, 49(3), 517-539. https://doi.org/10.1007/s11069-008-9303-x
Characteristics of wet snow avalanche activity: 20 years of observations from a high alpine valley (Dischma, Switzerland)
Baggi, S., & Schweizer, J. (2009). Characteristics of wet snow avalanche activity: 20 years of observations from a high alpine valley (Dischma, Switzerland). Natural Hazards, 50(1), 97-108. https://doi.org/10.1007/s11069-008-9322-7
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
Damage potential and losses resulting from snow avalanches in settlements of the canton Grisons, Switzerland
Fuchs, S., & Bründl, M. (2005). Damage potential and losses resulting from snow avalanches in settlements of the canton Grisons, Switzerland. Natural Hazards, 34(1), 53-69. https://doi.org/10.1007/s11069-004-0784-y
Temporal trend and spatial distribution of avalanche activity during the last 50 years in Switzerland
Laternser, M., & Schneebeli, M. (2002). Temporal trend and spatial distribution of avalanche activity during the last 50 years in Switzerland. Natural Hazards, 27(3), 201-230. https://doi.org/10.1023/A:1020327312719
Empirical relationships for debris flows
Rickenmann, D. (1999). Empirical relationships for debris flows. Natural Hazards, 19(1), 47-77. https://doi.org/10.1023/A:1008064220727