NH41C-1836
Mount Meager Volcano, Canada: a Case Study for Landslides on Glaciated Volcanoes
Thursday, 17 December 2015
Poster Hall (Moscone South)
Gioachino Luigi Roberti, Simon Fraser University, Burnaby, BC, Canada, Brent C Ward, Simon Fraser University, Earth Sciences, Burnaby, BC, Canada, Benjamin van Wyk de Vries, University Blaise Pascal Clermont-Ferrand II, Clermont-Ferrand, France, Giacomo Falorni, TRE Canada Inc., Vancouver, Canada, Luigi Perotti, University of Turin, Turin, Italy, John J Clague, Simon Fraser University, Department of Earth Sciences, Burnaby, BC, Canada and The Mount Meager project Team
Abstract:
Mount Meager is a strato-volcano massif in the Northern Cascade Volcanic Arc (Canada) that erupted in 2350 BP, the most recent in Canada. To study the stability of the Massif an international research project between France ( Blaise Pascal University), Italy (University of Turin) and Canada (Simon Fraser University) and private companies (TRE - sensing the planet) has been created. A complex history of glacial loading and unloading, combined with weak, hydrothermally altered rocks has resulted in a long record of catastrophic landslides. The most recent, in 2010 is the third largest (50 x 106 m3) historical landslide in Canada. Mount Meager is a perfect natural laboratory for gravity and topographic processes such as landslide activity, permafrost and glacial dynamics, erosion, alteration and uplift on volcanoes. Research is aided by a rich archive of aerial photos of the Massif (1940s up to 2006): complete coverage approximately every 10 years. This data set has been processed and multi-temporal, high resolution Orthophoto and DSMs (Digital Surface Models) have been produced. On these digital products, with the support on field work, glacial retreat and landslide activity have been tracked and mapped. This has allowed for the inventory of unstable areas, the identification of lava flows and domes, and the general improvement on the geologic knowledge of the massif. InSAR data have been used to monitor the deformation of the pre-2010 failure slope. It will also be used to monitor other unstable slopes that potentially can evolve to catastrophic collapses of up to 1 km3 in volume, endangering local communities downstream the volcano. Mount Meager is definitively an exceptional site for studying the dynamics of a glaciated, uplifted volcano. The methodologies proposed can be applied to other volcanic areas with high erosion rates such as Alaska, Cascades, and the Andes.