Advances in Geosciences www.adv-geosci.net 1680-7340 1680-7359 14 2nd EGU Alexander von Humboldt Conference "The role of Geophysics in Natural Disaster Prevention" 2008 10.5194/adgeo-14-201-2008 http://www.adv-geosci.net/14/201/2008/ http://www.adv-geosci.net/14/201/2008/adgeo-14-201-2008.html http://www.adv-geosci.net/14/201/2008/adgeo-14-201-2008.pdf 201 209 2008-04-10 Application of a regional approach for hazard mapping at an avalanche site in northern Italy D. Bocchiola daniele.bocchiola@polimi.it R. Rosso Politecnico di Milano, L. Da Vinci Square 32, 20133 Milano, Italy The currently adopted approach to avalanche hazard mapping in northern Italy includes avalanche dynamic modelling, coupled with statistical analysis of snow depth at avalanche start. The 30-years and 300-years return period avalanches at a given site are modelled and their run out zone and pressure are evaluated. The snow depth in the avalanche release zone is assumed to coincide with the three days snow fall depth H72 featuring a return period of 30 years and 300 years, respectively. In the Italian alps only short series of observed snow depth are available, covering a period of 20 years or so, thus requiring a regional approach, or index value approach for the purpose of high return period quantile estimation. Based of former studies, here we apply the index value approach developed for the Lombardia region, in northern Italy, for hazard mapping in a particular avalanche site. A dynamic avalanche model is tuned using the runout data for two major observed avalanche events. Then, the 30-years and 300-years runout zone and dynamic pressure are calculated. It is then shown that the obtained hazard maps are more accurate than those obtained using the evaluation of H72 as deduced from distribution fitting in a single site. Ancey, C., Gervasoni, C., and Meunier, M. :Computing extreme avalanches, Cold Reg. Sci. Technol., 39, 161–180, 2004. Baeriswyl, P. A. and Rebetez, M.: Regionalization of precipitation in Switzerland by means of principal components analysis, Theor. App. Climatol., 58, 31–41, 1997. Barbolini, M., Natale, L., and Savi, F.: Effect of release conditions uncertainty on avalanche hazard mapping, Nat. Hazards, 25, 225–244, 2002. Barbolini, M., Cordola, M., Natale, L., and Tecilla, G.: Hazard mapping and land use regulation in avalanche prone areas: recent developments in Italy, in: Recommendations to deal with snow avalanches in Europe, Ch. 5, edited by: Hervás, J., EUR 20839 EN, JRC, Ispra, 2003. Bocchiola, D., Medagliani, M., and Rosso, R.: Regional snow depth frequency curves for avalanche hazard mapping in central Italian Alps, Cold Reg. Sci. Technol., 46, 3, 204–221, 2006. Bocchiola, D. and Rosso, R.: The distribution of daily Snow Water Equivalent in the Central Italian Alps, Adv. Water Resour., 30, 135–147, 2007. Christen, M. Bartelt, P., and Gruber, U.: An avalanche dynamics program for the practice. Proceedings: International Congress Interpraevent 2002 in the Pacific Rim, 14–18 October, Matsumoto, Japan, 2, 715–725, 2002. De Michele, C. and Rosso, R.: Uncertainty assessment of regionalized flood frequency estimates, J. Hydrol. Eng., ASCE, 6(6), 453–459, 2001. Gabriele, S. and Arnell, N.: A hierarchic approach to regional flood frequency analysis, Wat. Resour. Res., 27, 6, 1281–1289, 1991. Kottegoda, N. and Rosso, R.: Statistics, Probability and Reliability for Civil and Environmental Engineers, Mc Graw-Hill, 1997. Regione Lombardia: SIRVAL, Sistema Informativo Regionale VALanghe (Regional Avalanche Information System), CD-ROM, 2002 (in Italian). Salm, B., Burkard, A., and Gubler, H.: Berechnung von Fliesslawinen: eine Anleitung für Praktiker mit Beispielen [Avalanche calculations: a practical method with examples], Eidg. Inst. Schnee- und Lawinenforsch. Mitt., 47, 41 pp., 1990 (in German).