Abstract
This paper presents a detailed field investigation and hazard assessment for an unstable rock slope above an industrial site in the Riviera valley in the Canton of Ticino in southern Switzerland. An integrated framework was used to counter issues of geological complexity and uncertainty, linking geological mapping and numerical modeling to develop an understanding of the acting instability mechanism to 2-D and 3-D dynamic runout simulations to predict the travel path and reach in the event of a large volume rockslide. The results from the numerical stability analysis provided a means to constrain failure volume estimates, whereas a series of calibration simulations were used to constrain the input parameters required by the rheological model used for the runout analysis. Results from this assessment suggest that current protection measures in place may not be sufficient, helping local authorities to define hazard zones and aid further development plans for the region.
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Acknowledgements
The authors want to thank Giorgio Valenti and Marco Franzi (Sezione Forestale Cantonale, Ticino, Bellinzona) for their support, valued discussions, and for providing access to all previous mapping and monitoring data. This study was financed by the local and national authorities.
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Willenberg, H., Eberhardt, E., Loew, S. et al. Hazard assessment and runout analysis for an unstable rock slope above an industrial site in the Riviera valley, Switzerland. Landslides 6, 111–119 (2009). https://doi.org/10.1007/s10346-009-0146-7
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DOI: https://doi.org/10.1007/s10346-009-0146-7