Damm, Bodo and Terhorst, Birgit (2010) A model of slope formation related to landslide activity in the Eastern Prealps, Austria. GEOMORPHOLOGY, 122 (3-4). pp. 338-350. ISSN 0169-555X,
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The Rhenodanubian Flysch zone of the eastern Alps of Austria is considered to be susceptible to landslides. In the study area, an undulating low mountain landscape of the eastern European Prealps, the Flysch bedrock is superimposed by Quaternary periglacial cover beds and loess. Both, the petrography of the bedrock and the soil mechanical properties of Quaternary sediments control the slope dynamics. A database compiled for the study area comprises about 200 datasets on landslide and rock fall hazards. It covers a time span between 1771 and 2007 and shows clusters between 1940 and 1943, 1965 and 1966, 1979 and 1982 as well as in 2006. The study analyses slope stability in the light of slope formation phases with respect to weathering, erosion and geology. Furthermore, geomorphological and soil-geographical methods are combined with soil-mechanical calculations. The application of the concept of periglacial cover beds facilitates the distinction between Holocene and Pleistocene landforms and slide masses in the research area. As a result, the study shows that the properties of Quaternary sediments and the occurrence of the densely bedded basal cover beds are responsible for landslide susceptibility. The variable permeability in loess layers, in contrast to that in the underlying basal cover beds, consisting mainly of marls and clayey material, is one of the fundamental controlling factors of mass movements. In a temporal context it is evident that the stability of slopes in the study area is influenced by several phases of slope formation. The synopsis of field survey, morphometrical, geotechnical as well as laboratory analyses, and slope-stability calculation, gives evidence of five morphodynamic phases that partly reoccur in an alternating pattern. After having passed all phases, the stability of the slopes studied is increased, because modified soil-mechanical properties of the slide masses become important. As a consequence, the critical slope angle is raised by 3-5 degrees. (C) 2009 Elsevier B.V. All rights reserved.
| Item Type: | Article |
|---|---|
| Uncontrolled Keywords: | PERIGLACIAL COVER-BEDS; CLIMATE; SOILS; INSTABILITY; CATCHMENT; GERMANY; HAZARDS; IMPACT; STATE; AREAS; Slope formation; Landslide susceptibility; Slope stability; Periglacial sediments; Rhenodanubian Flysch; Eastern Prealps; Austria |
| Subjects: | 500 Science > 550 Earth sciences |
| Divisions: | Philosophy, Art History, History, and Humanities > Institut für Geographie |
| Depositing User: | Dr. Gernot Deinzer |
| Date Deposited: | 08 Jul 2020 06:42 |
| Last Modified: | 08 Jul 2020 06:42 |
| URI: | https://pred.uni-regensburg.de/id/eprint/24009 |
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