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Impact of topography on in situ soil wetness measurements for regional landslide early warning - a case study from the Swiss Alpine Foreland
Wicki, A., Lehmann, P., Hauck, C., & Stähli, M. (2023). Impact of topography on in situ soil wetness measurements for regional landslide early warning - a case study from the Swiss Alpine Foreland. Natural Hazards and Earth System Sciences, 23(3), 1059-1077. https://doi.org/10.5194/nhess-23-1059-2023
The value of soil wetness measurements for regional landslide early warning systems
Stähli, M., & Wicki, A. (2021). The value of soil wetness measurements for regional landslide early warning systems. In N. Casagli, V. Tofani, K. Sassa, P. T. Bobrowsky, & K. Takara (Eds.), ICL contribution to landslide disaster risk reduction: Vol. 3. Understanding and reducing landslide disaster risk. Monitoring and early warning (pp. 203-208). https://doi.org/10.1007/978-3-030-60311-3_23
Simulated or measured soil moisture: which one is adding more value to regional landslide early warning?
Wicki, A., Jansson, P. E., Lehmann, P., Hauck, C., & Stähli, M. (2021). Simulated or measured soil moisture: which one is adding more value to regional landslide early warning? Hydrology and Earth System Sciences, 25(8), 4585-4610. https://doi.org/10.5194/hess-25-4585-2021