The Tamins rock avalanche (eastern Switzerland): timing and emplacement processes
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J. Aaron | S. Ivy‐Ochs | C. Vockenhuber | N. Akçar | O. Pfiffner | Olivia Steinemann | Zhasmin Mussina
[1] O. Pfiffner. The Flims rock avalanche: structure and consequences , 2022, Swiss Journal of Geosciences.
[2] Hui Xu,et al. The morphology and sedimentology of the Walai rock avalanche in southern China, with implications for confined rock avalanches , 2022, Geomorphology.
[3] G. Monegato,et al. Reconstructing the Gorte and Spiaz de Navesele Landslides, NE of Lake Garda, Trentino Dolomites (Italy) , 2021, Geosciences.
[4] D. Hölbling,et al. Controls on the formation and size of potential landslide dams and dammed lakes in the Austrian Alps , 2021 .
[5] H. Havenith,et al. Analysis of the Influence of Structural Geology on the Massive Seismic Slope Failure Potential Supported by Numerical Modelling , 2020, Geosciences.
[6] N. Surian,et al. Timing, drivers and impacts of the historic Masiere di Vedana rock avalanche (Belluno Dolomites, NE Italy) , 2020 .
[7] S. Loew,et al. Understanding Failure and Runout Mechanisms of the Flims Rockslide/Rock Avalanche , 2020, Frontiers in Earth Science.
[8] P. Campedel,et al. Constraining the Age and Source Area of the Molveno landslide Deposits in the Brenta Group, Trentino Dolomites (Italy) , 2020, Frontiers in Earth Science.
[9] Xuanmei Fan,et al. The formation and impact of landslide dams – State of the art , 2020 .
[10] A. Wolter,et al. The Kandersteg rock avalanche (Switzerland): integrated analysis of a late Holocene catastrophic event , 2020, Landslides.
[11] Guangxiang Yuan,et al. Morphology and inner structure of Luanshibao rock avalanche in Litang, China and its implications for long-runout mechanisms , 2019, Engineering Geology.
[12] H. Synal,et al. 36Cl measurements with a gas-filled magnet at 6 MV , 2019, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms.
[13] S. McDougall,et al. Rock avalanche mobility: The role of path material , 2019, Engineering Geology.
[14] S. Winkler. Investigating Holocene mountain glaciations: a plea for the supremacy of glacial geomorphology when reconstructing glacier chronologies , 2018, Erdkunde.
[15] J. Clague,et al. Distinguishing between debris flows and hyperconcentrated flows: an example from the eastern Swiss Alps , 2018 .
[16] H. Krietsch,et al. Preliminary forensic investigation of the structural and geomorphological controls on the prehistoric Tamins rockslide in Grisons, Switzerland , 2018 .
[17] P. Campedel,et al. Geomorphology and age of the Marocche di Dro rock avalanches (Trentino, Italy) , 2017 .
[18] I. Mrak,et al. Morphometric comparison of weathering features on side by side carbonate rock surfaces with different exposure ages ― A case from the Croatian coast , 2017, Quaternary International.
[19] A. Dufresne,et al. Sedimentology of rock avalanche deposits – Case study and review , 2016 .
[20] I. Hajdas,et al. Two early Holocene rock avalanches in the Bernese Alps (Rinderhorn, Switzerland) , 2016 .
[21] J. Aaron,et al. Dynamics and legacy of 4.8 ka rock avalanche that dammed Zion Canyon, Utah, USA , 2016 .
[22] Jordan Aaron,et al. Dynamic simulation of the motion of partially-coherent landslides , 2016 .
[23] M. Caffee,et al. CRONUS-Earth cosmogenic 36Cl calibration , 2016 .
[24] B. Borchers,et al. Geological calibration of spallation production rates in the CRONUS-Earth project , 2016 .
[25] P. Reimer,et al. Precise radiocarbon dating of the giant Köfels landslide (Eastern Alps, Austria) , 2015 .
[26] Jeffrey R. Moore,et al. Post-glacial rock avalanches in the Obersee Valley, Glarner Alps, Switzerland , 2015 .
[27] N. Barth. The Cascade rock avalanche: implications of a very large Alpine Fault-triggered failure, New Zealand , 2014, Landslides.
[28] O. Korup,et al. Giant rockslides from the inside , 2014 .
[29] C. Ballantyne,et al. Rock-slope failure following Late Pleistocene deglaciation on tectonically stable mountainous terrain , 2014 .
[30] P. Campedel,et al. Lavini di Marco (Trentino, Italy): 36Cl exposure dating of a polyphase rock avalanche , 2014 .
[31] T. Davies,et al. Landslides: Mobility of long-runout rock avalanches , 2012 .
[32] S. Ivy‐Ochs,et al. How well do we understand production of 36Cl in limestone and dolomite , 2009 .
[33] M. J. McSaveney,et al. The role of rock fragmentation in the motion of large landslides , 2009 .
[34] Scott McDougall,et al. Two numerical models for landslide dynamic analysis , 2009, Comput. Geosci..
[35] T. Davies,et al. Longitudinal ridges in mass movement deposits , 2009 .
[36] P. Häuselmann. Surface corrosion of an Alpine karren field: recent measures at Innerbergli (Siebenhengste, Switzerland) , 2008 .
[37] I. Hajdas,et al. Lake sediments deposited on the Flims rockslide mass: the key to date the largest mass movement of the Alps , 2007 .
[38] S. Ivy‐Ochs,et al. Cosmogenic nuclides and the dating of Lateglacial and Early Holocene glacier variations: The Alpine perspective , 2007 .
[39] Lukas Plan. Factors controlling carbonate dissolution rates quantified in a field test in the Austrian alps , 2005 .
[40] O. Hungr,et al. A model for the analysis of rapid landslide motion across three-dimensional terrain , 2004 .
[41] Oldrich Hungr,et al. Entrainment of debris in rock avalanches: An analysis of a long run-out mechanism , 2004 .
[42] H. Synal,et al. Initial results from isotope dilution for Cl and 36Cl measurements at the PSI/ETH Zurich AMS facility , 2004 .
[43] O. Pfiffner,et al. Active deformation in the eastern Swiss Alps: post-glacial faults, seismicity and surface uplift , 2004 .
[44] M. André. Rates of postglacial rock weathering on glacially scoured outcrops (abisko–riksgränsen area, 68°n) , 2002 .
[45] B. Müller. Paraglacial sedimentation and denudation processes in an Alpine valley of Switzerland. An approach to the quantification of sediment budgets , 1999 .
[46] J. Stone,et al. Cosmogenic Chlorine-36 Production in Calcite by Muons , 1998 .
[47] J. Stone,et al. Cosmogenic chlorine-36 production in K-feldspar , 1997 .
[48] M. Döbeli,et al. Status report of the PSI/ETH AMS facility , 1997 .
[49] P. Allen,et al. Sediment flux from a mountain belt derived by landslide mapping , 1997 .
[50] O. Hungr,et al. The Avalanche Lake rock avalanche, Mackenzie Mountains, Northwest Territories, Canada: description, dating, and dynamics , 1994 .
[51] W. Z. Savage. GRAVITY-INDUCED STRESSES NEAR A VERTICAL CLIFF , 1993 .
[52] M. Sorriso-Valvo,et al. Geomorphic controls of the shape and mobility of rock avalanches , 1991 .
[53] John E. Costa,et al. The formation and failure of natural dams , 1988 .
[54] Oldrich Hungr,et al. The debris of the Frank Slide and theories of rockslide–avalanche mobility , 1986 .
[55] Adrian E. Scheidegger,et al. On the prediction of the reach and velocity of catastrophic landslides , 1973 .
[56] H. Synal,et al. The ETH Zurich AMS facilities: Performance parameters and reference materials , 2013 .
[57] J. Ramsay,et al. Structural map of the Helvetic zone of the Swiss Alps, including Vorarlberg (Austria) and Haute Savoie (France) , 2011 .
[58] Susan Ivy-Ochs,et al. Surface exposure dating of the Flims landslide, Graubünden, Switzerland , 2009 .
[59] A. Poschinger,et al. Alluvial deposits liquefied by the Flims rock slide , 2009 .
[60] G. Müller,et al. Effect of Cliff Shape on Internal Stresses and Rock Slope Stability , 2008 .
[61] A. Strom. MORPHOLOGY AND INTERNAL STRUCTURE OF ROCKSLIDES AND ROCK AVALANCHES: GROUNDS AND CONSTRAINTS FOR THEIR MODELLING , 2006 .
[62] Gabriele Scarascia Mugnozza,et al. Landslides from massive rock slope failure , 2006 .
[63] A. Poschinger,et al. Der Flimser Bergsturz, doch ein warmzeitliches Ereignis ? , 1997 .
[64] P. Heitzmann,et al. Incision and backfilling of Alpine valleys: Pliocene, Pleistocene and Holocene processes , 1995 .
[65] M. Eberle. Zur Lockergesteinsfüllung des St. Galler und Liechtensteiner Rheintales , 1987 .
[66] Walter Wildi. Isohypsenkarte der quartären Felstäler in der Nord- und Ostschweiz, mit kurzen Erläuterungen , 1984 .
[67] O. Pfiffner. Der Falten- und Kleindeckenbau im Infrahelvetikum der Ostschweiz , 1978 .
[68] G. Vorndran. Abele, Gerhard: Bergstürze in den Alpen - ihre Verbreitung. Morphologie und Folgeerscheinungen , 1977 .
[69] O. Pfiffner. Tektonische Untersuchungen im Infrahelvetikum der Ostschweiz , 1977 .
[70] J. Lowe,et al. Earth and Earth-Rock Dams , 1973 .
[71] O. Pfiffner. Neue Kenntnisse zur Geologie östlich und westlich des Kunkelspasses (GR) , 1972 .