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Using climate reanalysis data in conjunction with multi-temporal satellite thermal imagery to derive supraglacial debris thickness changes from energy-balance modelling
Stewart, R. L., Westoby, M., Pellicciotti, F., Rowan, A., Swift, D., Brock, B., & Woodward, J. (2021). Using climate reanalysis data in conjunction with multi-temporal satellite thermal imagery to derive supraglacial debris thickness changes from energy-balance modelling. Journal of Glaciology, 67(262), 366-384. https://doi.org/10.1017/jog.2020.111
Hydrological response of two high altitude Swiss catchments to energy balance and temperature index melt schemes
Shakoor, A., Burri, A., Bavay, M., Ejaz, N., Ghumman, A. R., Comola, F., & Lehning, M. (2018). Hydrological response of two high altitude Swiss catchments to energy balance and temperature index melt schemes. Polar Science, 17, 1-12. https://doi.org/10.1016/j.polar.2018.06.007
Statistical modelling of the surface mass-balance variability of the Morteratsch glacier, Switzerland: strong control of early melting season meteorological conditions
Zekollari, H., & Huybrechts, P. (2018). Statistical modelling of the surface mass-balance variability of the Morteratsch glacier, Switzerland: strong control of early melting season meteorological conditions. Journal of Glaciology, 64(244), 275-288. https://doi.org/10.1017/jog.2018.18
Melt and surface sublimation across a glacier in a dry environment: distributed energy-balance modelling of Juncal Norte Glacier, Chile
Ayala, A., Pellicciotti, F., Peleg, N., & Burlando, P. (2017). Melt and surface sublimation across a glacier in a dry environment: distributed energy-balance modelling of Juncal Norte Glacier, Chile. Journal of Glaciology, 63(241), 803-822. https://doi.org/10.1017/jog.2017.46
Sensitivity of turbulent fluxes to wind speed over snow surfaces in different climatic settings
Dadic, R., Mott, R., Lehning, M., Carenzo, M., Anderson, B., & Mackintosh, A. (2013). Sensitivity of turbulent fluxes to wind speed over snow surfaces in different climatic settings. Advances in Water Resources, 55, 178-189. https://doi.org/10.1016/j.advwatres.2012.06.010
An operational supporting tool for assessing wet-snow avalanche danger
Mitterer, C., Techel, F., Fierz, C., & Schweizer, J. (2013). An operational supporting tool for assessing wet-snow avalanche danger. In F. Naaim-Bouvet, Y. Durand, & R. Lambert (Eds.), ISSW proceedings. International snow science workshop proceedings 2013 (pp. 334-338).
Reactions and energy absorption of trees subject to rockfall: a detailed assessment using a new experimental method
Lundström, T., Jonsson, M. J., Volkwein, A., & Stoffel, M. (2009). Reactions and energy absorption of trees subject to rockfall: a detailed assessment using a new experimental method. Tree Physiology, 29(3), 345-359. https://doi.org/10.1093/treephys/tpn030
SNOWPACK model calculations for avalanche warning based upon a new network of weather and snow stations
Lehning, M., Bartelt, P., Brown, B., Russi, T., Stöckli, U., & Zimmerli, M. (1999). SNOWPACK model calculations for avalanche warning based upon a new network of weather and snow stations. Cold Regions Science and Technology, 30(1-3), 145-157. https://doi.org/10.1016/S0165-232x(99)00022-1
A network of automatic weather and snow stations and supplementary model calculations providing snowpack information for avalanche warning
Lehning, M., Bartelt, P., Brown, B., Russi, T., Stöckli, U., & Zimmerli, M. (1998). A network of automatic weather and snow stations and supplementary model calculations providing snowpack information for avalanche warning. In ISSW proceedings. International snow science workshop proceedings 1998 (pp. 225-233).