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Case report: optimization of topographic change detection with UAV structure-from-motion photogrammetry through survey co-alignment
de Haas, T., Nijland, W., McArdell, B. W., & Kalthof, M. W. M. L. (2021). Case report: optimization of topographic change detection with UAV structure-from-motion photogrammetry through survey co-alignment. Frontiers in Remote Sensing, 2, 626810 (9 pp.). https://doi.org/10.3389/frsen.2021.626810
Repose time patterns of debris-flow events in alpine catchments
Heiser, M., Schlögl, M., Spangl, B., Fuchs, S., Rickenmann, D., Zimmermann, M., & Scheidl, C. (2023). Repose time patterns of debris-flow events in alpine catchments. Earth Surface Processes and Landforms, 48(5), 1034-1051. https://doi.org/10.1002/esp.5533
Reconstruction of debris-flow dynamics and triggers since AD 1570 - looking back to a decade of tree-ring research at Ritigraben (Valais, Switzerland)
Stoffel, M. (2011). Reconstruction of debris-flow dynamics and triggers since AD 1570 - looking back to a decade of tree-ring research at Ritigraben (Valais, Switzerland). In R. Genevois, D. L. Hamilton, & A. Prestininzi (Eds.), Italian journal of engineering geology and environment - book. 5th international conference on debris-flow hazards mitigation: mechanics, prediction, and assessment (pp. 135-142). https://doi.org/10.4408/IJEGE.2011-03.B-016
TopFlowDF - a simple GIS based model to simulate debris-flow runout on the fan
Scheidl, C., & Rickenmann, D. (2011). TopFlowDF - a simple GIS based model to simulate debris-flow runout on the fan. In R. Genevois, D. L. Hamilton, & A. Prestininzi (Eds.), Italian journal of engineering geology and environment - book. 5th international conference on debris-flow hazards mitigation: mechanics, prediction, and assessment (pp. 253-262). https://doi.org/10.4408/IJEGE.2011-03.B-030
A novel debris-flow fan evolution model based on debris flow monitoring and lidar topography
Schürch, P., Densmore, A. L., Rosser, N. J., & McArdell, B. W. (2011). A novel debris-flow fan evolution model based on debris flow monitoring and lidar topography. In R. Genevois, D. L. Hamilton, & A. Prestininzi (Eds.), Italian journal of engineering geology and environment - book. 5th international conference on debris-flow hazards mitigation: mechanics, prediction, and assessment (pp. 263-272). https://doi.org/10.4408/IJEGE.2011-03.B-031
The role of the phase shift of fine particles on debris flow behavior: an numerical simulation for a debris flow in Illgraben, switzerland
Uchida, T., Nishiguchi, Y., McArdell, B. W., & Satofuka, Y. (2021). The role of the phase shift of fine particles on debris flow behavior: an numerical simulation for a debris flow in Illgraben, switzerland. Canadian Geotechnical Journal, 58(1), 23-34. https://doi.org/10.1139/cgj-2019-0452
Runoff-generated debris flows: Observation of initiation conditions and erosion–deposition dynamics along the channel at Cancia (eastern Italian Alps)
Simoni, A., Bernard, M., Berti, M., Boreggio, M., Lanzoni, S., Stancanelli, L. M., & Gregoretti, C. (2020). Runoff-generated debris flows: Observation of initiation conditions and erosion–deposition dynamics along the channel at Cancia (eastern Italian Alps). Earth Surface Processes and Landforms, 45(14), 3556-3571. https://doi.org/10.1002/esp.4981
The Illgraben torrent system
McArdell, B. W., & Sartori, M. (2021). The Illgraben torrent system. In E. Reynard (Ed.), World geomorphological landscapes. Landscapes and landforms of Switzerland (pp. 367-378). https://doi.org/10.1007/978-3-030-43203-4_25
Mass wasting processes affecting the surface of an alpine talus slope: annual sediment budgets 2009-2018 at Flüelapass, eastern Swiss Alps.
Kenner, R. (2020). Mass wasting processes affecting the surface of an alpine talus slope: annual sediment budgets 2009-2018 at Flüelapass, eastern Swiss Alps. Land Degradation and Development, 31(4), 451-462. https://doi.org/10.1002/ldr.3462
Debris-flow monitoring and warning: review and examples
Hürlimann, M., Coviello, V., Bel, C., Guo, X., Berti, M., Graf, C., … Yin, H. Y. (2019). Debris-flow monitoring and warning: review and examples. Earth-Science Reviews, 199, 102981 (26 pp.). https://doi.org/10.1016/j.earscirev.2019.102981
Deciphering debris-flow seismograms at Illgraben, Switzerland
Wenner, M., Walter, F., McArdell, B., & Farinotti, D. (2019). Deciphering debris-flow seismograms at Illgraben, Switzerland. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 222-229). Association of Environmental and Engineering Geologists.
Small scale debris-flow experiments on run-up height
Rickenmann, D., Karrer, T., McArdell, B., & Scheidl, C. (2019). Small scale debris-flow experiments on run-up height. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 414-420). https://doi.org/10.25676/11124/173191
Performance of 2D debris flow simulation model RAMMS. Back-analysis of field events in Italian Alps
Simoni, A., Mammoliti, M., & Graf, C. (2012). Performance of 2D debris flow simulation model RAMMS. Back-analysis of field events in Italian Alps (p. (6 pp.). Presented at the Annual international conference on geological and earth sciences (GEOS 2012). .
Characterization of wood-laden flows in rivers
Ruiz-Villanueva, V., Mazzorana, B., Bladé, E., Bürkli, L., Iribarren-Anacona, P., Mao, L., … Wohl, E. (2019). Characterization of wood-laden flows in rivers. Earth Surface Processes and Landforms, 44, 1694-1709. https://doi.org/10.1002/esp.4603
The Swiss flood and landslide damage database: normalisation and trends
Andres, N., & Badoux, A. (2019). The Swiss flood and landslide damage database: normalisation and trends. Journal of Flood Risk Management, 12(S1), e12510 (12 pp.). https://doi.org/10.1111/jfr3.12510
Using the monoplotting technique for documenting and analyzing natural hazard events
Conedera, M., Bozzini, C., Ryter, U., Bertschinger, T., & Krebs, P. (2018). Using the monoplotting technique for documenting and analyzing natural hazard events. In J. Simão Antunes Do Carmo (Ed.), IntechOpen. Natural hazards: risk assessment and vulnerability reduction (pp. 107-108). https://doi.org/10.5772/intechopen.77321
Sediment input from debris flows into mountain rivers: an event-based perspective
Rickenmann, D., Gerber, M., & Böckli, M. (2016). Sediment input from debris flows into mountain rivers: an event-based perspective. In G. Koboltschnig (Ed.), 13th congress INTERPRAEVENT 2016. 30 May to 2 June 2016. Lucerne, Switzerland. Conference proceedings "Living with natural risks" (pp. 601-609).
Integrated natural hazards protection concept Vitznau LU - case study Plattenbach
Hohermuth, B., Graf, C., & Heilig, J. (2016). Integrated natural hazards protection concept Vitznau LU - case study Plattenbach. In G. Koboltschnig (Ed.), 13th congress INTERPRAEVENT 2016. 30 May to 2 June 2016. Lucerne, Switzerland. Conference proceedings "Living with natural risks" (pp. 535-543).
Integrales Schutzkonzept Bielzug
Oggier, N., Graf, C., Delaloye, R., & Burkard, A. (2016). Integrales Schutzkonzept Bielzug. In G. Koboltschnig (Ed.), 13th congress INTERPRAEVENT 2016. 30 May to 2 June 2016. Lucerne, Switzerland. Conference proceedings "Living with natural risks" (pp. 525-534).
A comparison of physical and computer-based debris flow modelling of a deflection structure at Illgraben, Switzerland
Berger, C., Christen, M., Speerli, J., Lauber, G., Ulrich, M., & McArdell, B. W. (2016). A comparison of physical and computer-based debris flow modelling of a deflection structure at Illgraben, Switzerland. In G. Koboltschnig (Ed.), 13th congress INTERPRAEVENT 2016. 30 May to 2 June 2016. Lucerne, Switzerland. Conference proceedings "Living with natural risks" (pp. 212-220).