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Météo, manteau neigeux et danger d’avalanche dans les Alpes suisses. Année hydrologique 2022/23.
Pielmeier, C., Zweifel, B., Techel, F., Marty, C., & Stucki, T. (2024). Météo, manteau neigeux et danger d’avalanche dans les Alpes suisses. Année hydrologique 2022/23. Vol. 146. https://doi.org/10.55419/wsl:36150
Schnee und Lawinen in den Schweizer Alpen. Hydrologisches Jahr 2022/23.
Pielmeier, C., Zweifel, B., Techel, F., Marty, C., Grüter, S., & Stucki, T. (2024). Schnee und Lawinen in den Schweizer Alpen. Hydrologisches Jahr 2022/23. WSL Berichte: Vol. 145. https://doi.org/10.55419/wsl:36046
An empirical model to calculate snow depth from daily snow water equivalent: SWE2HS 1.0
Aschauer, J., Michel, A., Jonas, T., & Marty, C. (2023). An empirical model to calculate snow depth from daily snow water equivalent: SWE2HS 1.0. Geoscientific Model Development, 16(14), 4063-4081. https://doi.org/10.5194/gmd-16-4063-2023
The benefits of homogenising snow depth series - impacts on decadal trends and extremes for Switzerland
Buchmann, M., Resch, G., Begert, M., Brönnimann, S., Chimani, B., Schöner, W., & Marty, C. (2023). The benefits of homogenising snow depth series - impacts on decadal trends and extremes for Switzerland. Cryosphere, 17(2), 653-671. https://doi.org/10.5194/tc-17-653-2023
Multi-decadal observations in the alps reveal less and wetter snow, with increasing variability
Marty, C., Rohrer, M. B., Huss, M., & Stähli, M. (2023). Multi-decadal observations in the alps reveal less and wetter snow, with increasing variability. Frontiers in Earth Science, 11, 1165861 (15 pp.). https://doi.org/10.3389/feart.2023.1165861
Rising solar and thermal greenhouse radiation drive rapid warming over continents
Philipona, R., Marty, C., Duerr, B., & Ohmura, A. (2023). Rising solar and thermal greenhouse radiation drive rapid warming over continents. Meteorologische Zeitschrift, 32(1), 5-14. https://doi.org/10.1127/metz/2022/1148
Météo, manteau neigeux et danger d’avalanche dans les Alpes suisses. Année hydrologique 2021/22
Pielmeier, C., Zweifel, B., Techel, F., Marty, C., & Stucki, T. (2023). Météo, manteau neigeux et danger d’avalanche dans les Alpes suisses. Année hydrologique 2021/22. WSL Berichte: Vol. 129. https://doi.org/10.55419/wsl:32653
Schnee und Lawinen in den Schweizer Alpen. Hydrologisches Jahr 2021/22
Pielmeier, C., Zweifel, B., Techel, F., Marty, C., & Stucki, T. (2023). Schnee und Lawinen in den Schweizer Alpen. Hydrologisches Jahr 2021/22. WSL Berichte: Vol. 128. https://doi.org/10.55419/wsl:32462
A quantile‐based approach to improve homogenization of snow depth time series
Resch, G., Koch, R., Marty, C., Chimani, B., Begert, M., Buchmann, M., … Schöner, W. (2023). A quantile‐based approach to improve homogenization of snow depth time series. International Journal of Climatology, 43(1), 157-173. https://doi.org/10.1002/joc.7742
Homogeneity assessment of Swiss snow depth series: comparison of break detection capabilities of (semi-)automatic homogenization methods
Buchmann, M., Coll, J., Aschauer, J., Begert, M., Brönnimann, S., Chimani, B., … Marty, C. (2022). Homogeneity assessment of Swiss snow depth series: comparison of break detection capabilities of (semi-)automatic homogenization methods. Cryosphere, 16(6), 2147-2161. https://doi.org/10.5194/tc-16-2147-2022
Automated avalanche hazard indication mapping on a statewide scale
Bühler, Y., Bebi, P., Christen, M., Margreth, S., Stoffel, L., Stoffel, A., … Bartelt, P. (2022). Automated avalanche hazard indication mapping on a statewide scale. Natural Hazards and Earth System Sciences, 22(6), 1825-1843. https://doi.org/10.5194/nhess-22-1825-2022
Automatisch berechnete Gefahrenhinweiskarten für Lawinen. Automated avalanche hazard indication mapping
Bühler, Y., Bebi, P., Christen, M., Margreth, S., Stoffel, A., Stoffel, L., … Kühne, R. (2022). Automatisch berechnete Gefahrenhinweiskarten für Lawinen. Automated avalanche hazard indication mapping. Wildbach- und Lawinenverbau, 86(190), 88-95.
GNSS signal-based snow water equivalent determination for different snowpack conditions along a steep elevation gradient
Capelli, A., Koch, F., Henkel, P., Lamm, M., Appel, F., Marty, C., & Schweizer, J. (2022). GNSS signal-based snow water equivalent determination for different snowpack conditions along a steep elevation gradient. Cryosphere, 16(2), 505-531. https://doi.org/10.5194/tc-16-505-2022
Climate scenarios for Switzerland CH2018 - approach and implications
Fischer, A. M., Strassmann, K. M., Croci-Maspoli, M., Hama, A. M., Knutti, R., Kotlarski, S., … Zubler, E. M. (2022). Climate scenarios for Switzerland CH2018 - approach and implications. Climate Services, 26, 100288 (16 pp.). https://doi.org/10.1016/j.cliser.2022.100288
(Near) real-time snow water equivalent observation using GNSS refractometry and RTKLIB
Steiner, L., Studemann, G., Grimm, D. E., Marty, C., & Leinss, S. (2022). (Near) real-time snow water equivalent observation using GNSS refractometry and RTKLIB. Sensors, 22(18), 6918 (15 pp.). https://doi.org/10.3390/s22186918
Météo, manteau neigeux et danger d’avalanche dans les Alpes suisses. L’année hydrologique 2020/21
Zweifel, B., Pielmeier, C., Techel, F., Marty, C., & Stucki, T. (2022). Météo, manteau neigeux et danger d’avalanche dans les Alpes suisses. L’année hydrologique 2020/21. WSL Berichte: Vol. 118. Davos; Birmensdorf: WSL Institut pour l’étude de la neige et des avalanches SLF; Institut fédéral de recherches sur la forêt, la neige et le paysage WSL.
Evaluating methods for reconstructing large gaps in historic snow depth time series
Aschauer, J., & Marty, C. (2021). Evaluating methods for reconstructing large gaps in historic snow depth time series. Geoscientific Instrumentation, Methods and Data Systems, 10(2), 297-312. https://doi.org/10.5194/gi-10-297-2021
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.
Evaluating the robustness of snow climate indicators using a unique set of parallel snow measurement series
Buchmann, M., Begert, M., Brönnimann, S., & Marty, C. (2021). Evaluating the robustness of snow climate indicators using a unique set of parallel snow measurement series. International Journal of Climatology, 41(S1), E2553-E2563. https://doi.org/10.1002/joc.6863
Local-scale variability of seasonal mean and extreme values of in situ snow depth and snowfall measurements
Buchmann, M., Begert, M., Brönnimann, S., & Marty, C. (2021). Local-scale variability of seasonal mean and extreme values of in situ snow depth and snowfall measurements. Cryosphere, 15(10), 4625-4636. https://doi.org/10.5194/tc-15-4625-2021
 

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