Camille LIGNEAU

POSTDOC

Contact

camille.ligneau@univ-smb.fr

Current research

Operational expert system for risk mitigation of snow avalanches

https://projects.listic.univ-smb.fr/resil-av/

Publications

  • Ligneau, C., Sovilla, B., Gaume, J., 2025. Mobility of cohesive granular flows over erodible beds: insights from discrete element simulations. Granular Matter 27, 66. https://doi.org/10.1007/s10035-025-01524-9
  • Ligneau, C., Gaume, J., Sovilla, B., 2025. TASK 2.3 – Snow avalanche flow regime transitions in a warming, in: WSL Research Programme Climate Change Impacts on Alpine Mass Movements – CCAMM: Project Report, WSL Berichte. Swiss Federal Institute for Forest, Snow and Landscape Research WSL, pp. 59–64. https://doi.org/10.55419/wsl:41901
  • Gaume, J., Ligneau, C., Huitorel, C., Li, X., Kyburz, M., Sovilla, B., Blatny, L., Vicari, H., 2024. New insights into snow avalanche dynamics and entrainment mechanisms from depht-resolved particle-based simulations. Proceedings of the international Snow Science Workshop 2024 306–313.
  • Ligneau, C., Sovilla, B., Gaume, J., 2024. Modelling erosion, entrainment and deposition in cohesive granular flows: Application to dense snow avalanches. Cold Regions Science and Technology 219, 104103. https://doi.org/10.1016/j.coldregions.2023.104103
  • Ligneau, C., Sovilla, B., Gaume, J., 2022. Numerical investigation of the effect of cohesion and ground friction on snow avalanches flow regimes. PLOS ONE 17, e0264033. https://doi.org/10.1371/journal.pone.0264033
  • Li, X., Sovilla, B., Ligneau, C., Jiang, C., Gaume, J., 2022. Different erosion and entrainment mechanisms in snow avalanches. Mechanics Research Communications 124, 103914. https://doi.org/10.1016/j.mechrescom.2022.103914