3D overdeepened trough morphology revealed as a product of bedrock geology (northern Switzerland)
- 1Quaternary Geology and Paleoclimatology, Institute of Geological Sciences, University of Bern, Switzerland (lukas.gegg@geo.unibe.ch)
- 2National Cooperative for the Disposal of Radioactive Waste (Nagra), Wettingen, Switzerland
- 3roXplore gmbh, Amlikon-Bissegg, Switzerland
Subglacial overdeepenings are a common element of once glaciated mountain forelands and have considerable implications for society, e.g. in construction projects, water production and radioactive waste disposal. Yet the processes of overdeepening erosion, especially the influence of bedrock lithology and structure, are poorly understood. We present a case study of the Gebenstorf-Stilli Trough in northern Switzerland, a unique overdeepening with complex underlying geology: In contrast to the Molasse-hosted majority of the Alpine foreland overdeepenings, it is to a large part incised into Upper Jurassic limestones and marls. In order to constrain its morphology in 3D, it was targeted with scientific boreholes as well as a seismic campaign based on analysis of surface waves. The results reveal unexpected trough morphology with two nested sub-basins that appear to be closely related to the bedrock geology. We suggest that this morphology is a product of low erosional efficiency in Jurassic limestones in comparison with both underlying marls and overlying Molasse deposits as well as secondary paleoglaciological effects. We further infer that the glacier’s basal drainage system was the main driver of subglacial erosion of the Gebenstorf-Stilli Trough.
How to cite: Gegg, L., Buechi, M. W., Deplazes, G., Madritsch, H., Keller, L., Spillmann, T., and Anselmetti, F. S.: 3D overdeepened trough morphology revealed as a product of bedrock geology (northern Switzerland), EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-5899, https://doi.org/10.5194/egusphere-egu21-5899, 2021.