ISSW2018 - General Topic: Snowpack: Stability and variability

Artikel aus einem Buch

200204789

O10.1 Localized dynamic loading in extreme snowmobile manoeuvers; Iain Stewart-Patterson, Thomas Exner, Jeremy Hanke; O10.2 Snowpack stabilization following storms: Field experiments and modelling of temporal changes in snow mechanical properties following loading; Karl Birkeland, Alec van Herwijnen, Ben Reuter, Bastian Gerling; O10.3 Measuring snow mechanical properties typical of storm snow instabilities; Benjamin Reuter, Ed Adams; O10.4 Distributed modelling of snow cover instability at regional scale; Sascha Bellaire, Matthias Bavay, Tobias Jonas, Benjamin Reuter, Alec van Herwijnen, Bettina Richter, Charles Fierz, Michael Lehning, Jürg Schweizer; O10.5 Quantitative comparison of snow profiles; Pascal Hagenmuller, Léo Viallon, Coline Bouchayer, Michaela Teich, MatthieuLafaysse, Vincent Vionnet; O10.6 Anti-crack nucleation in snowpacks without assuming initial defects: modeling dry snow slab avalanches; Philipp Laurens Rosendahl, Vera Lübke, Philipp Weißgraeber; P10.1 Release of avalanches on persistent weak layers in relation to loading events in Colorado, USA; Jason Konigsberg, Spencer Logan, Ethan Greene; P10.2 The effects of soluble impurities on the mechanical behaviour of polycrystalline ice; Kevin Hammonds, Ian Baker; P10.3 Using a High-Resolution Particle Tracking Method to Analyze Extended Column Tests; Arden Feldman, Ladean McKittrick, Ed Adams; P10.4 Snow stability tests: impact of lateral vs. vertical loading; Georg Kronthaler, Manfred Steffl, Ingrid Reiweger, Christoph Mitterer; P10.5 Parks Canada Profiles: Comparing hand hardness to thin-blade resistance; Fraser Pogue, Dave McClung, Steve Conger; P10.6 Meteorological triggers for major avalanches: a case study with two different conditions of extreme weather in the Hohe Tauern Range, Salzburg, Austria; Michael Butschek, Bernhard Niedermoser; P10.7 Indicators for snow gliding: a case study at the Wildkogel, Salzburg (AUT); Georg Leitinger, Michael Butschek, Reinhard Fromm, Peter Höller, Matthias Kammerlander, Erich Tasser; P10.8 Winter periods with a high activity of glide avalanches – characteristics and preconditions; Peter Höller; P10.9 Investigations on glide-snow avalanches; Andreas Eberl, Andreas Gobiet, Arnold Studeregger, Ingrid Reiweger; P10.10 Microstructure-based analysis of cone penetration tests in snow; Isabel Peinke, Pascal Hagenmuller, Edward Ando, Frédéric Flin, Guillaume Chambon, Jacques Roulle; P10.11 Prediction of snow failure: mission impossible? Achille Capelli, Ingrid Reiweger, Jürg Schweizer; P10.12 Dynamic crack propagation in weak snowpack layers: insights from highresolution,high-speed photography; Bastian Bergfeld, Alec van Herwijnen, Jürg Schweizer; P10.13 Snowpack patterns in the Eastern Pyrenees and the case of winter 2016/17
Carles Garcia-Selles,Gloria Marti Domenech, Santiago Manguan Esteban, Javier Martin-Vide; P10.14 Patterns of snowpack cooling and consequences on instability in the Pyrenees; Santi Manguan Esteban, Carles Garcia-Selles, Gloria Marti i Domenech; P10.15 On combining snow cover and snow instability modelling; Benjamin Reuter, Sascha Bellaire; P10.17 Persistent Weak Layers Across the Alps: Correlation with shift in tree species frequency and the underrated influence of absolute humidity; Kristian Rath, Lukas Ruetz; P10.18 Study of the estimation of snow properties at an arbitrary point; Ryota Sato, Shigehiro Iikura, Daisuke Takahashi, Yasushi Kamata; P10.20 Approaches of avalanche predictions resulting from non-rimed falling snow crystals using the SNOWPACK model; Hiroyuki Hirashima, Satoru Yamaguchi, Kazuki Nakamura, Akihiro Hashimoto; P10.21 First attempt at prediction of avalanches resulting from no rimed falling snow crystals in Japan; Kazuki Nakamura, Satoru Yamaguchi, Isao Kamiishi ; P10.22 Observation of fingering flow and lateral flow development in layered dry snowpack by using MRI.Takafumi Katsushima, Satoru Adachi, Satoru Yamaguchi, Toshihiro Ozeki, Toshiro Kumakura; P10.23 Modelling the propagation saw test with discrete elements; Gregoire Bobillier, Johan Gaume, Alec Van Herwijnen, Jürg Schweizer; P10.24 Comparison and classification of an Arctic Transitional snow climate in Tromsø, Norway; Paul Velsand, Rune V. Engeset, Markus Eckerstorfer; P10.26 Simple method to estimate surface snow density; Yasushi Kamata; P10.27 Thresholds in Wind Speed, Air Temperature and Relative Humidity Controlling Slab Formation; Robert Comey, Patrick Wright, Morgan Comey; P10.28 Increasing the operational usability of the snow cover model SNOWPACK; Fabiano Monti, Christoph Mitterer, Walter Steinkogler; P10.29 The characteristics of weak layers of slab avalanches occurred in Hokkaido in the decade from 2007 to 2017; Toshihiro Ozeki, Hayato Arakawa, Akihiro Hachikubo, Yusuke Harada, Go Iwahana, Yuji Kodama, Kazuki Nakamura, Daiki Sakakibara, Ken-ichi Sakakibara, Takanobu Sawagaki, Kou Shimoyama, Shin Sugiyama, Katsumi Yamanoi, Satoru Yamaguchi, Eizi Akitaya, Akihiro Tachimoto; P10.31 Evolution of non-persistent weak layer and snowpack stability during snowfall; Hiroki Matsushita, Wataru Takahashi, Masaru Matsuzawa, Joji Takahashi; P10.32 Red Snow: killer of the snowpack stability? Mauro Valt, MariaCristina Prola; P10.33 Snow with Saharan sand. Hazard evaluation at a local scale; Massimo Raviglione, Michela Barberis; P10.34 Development of a surface hoar production apparatus using circuit wind tunnel; Toshihiro Ozeki, Masashi Tsuda, Yuhei Yashiro, Kyosuke Fujita, Satoru Adachi; P10.36 Investigation of the interplay between shear failure and normal collapse of weak layers using microstructure-based mechanical simulations; Tijan Mede, Pascal Hagenmuller, Guillaume Chambon, François Nicot; P10.37 The northeastern continental snow climate: A new snow climate classification for the Gaspé Peninsula, Québec, Canada; Francis Meloche, Francis Gauthier, Alexandre Langlois, Dominic Boucher