Buckle folding in the Northern Calcareous Alps - Field observations and numeric experiments

We report the results of a numerical modelling study based on folds in the western Northern Calcareous Alps (NCA) fold-and-thrust belt. We study boundary conditions of folding based on the mechanical properties of the rocks involved. One key control on the model is stratigraphy that can be simplifie...

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Bibliographic Details
Published in:Journal of structural geology 2021-09, Vol.150, p.104416, Article 104416
Main Authors: Kilian, Sinah, Ortner, Hugo, Schneider-Muntau, Barbara
Format: Article
Language:English
Subjects:
Abaqus
Buckle folds
Detachment folds
Décollement folds
Linear elastic
Numeric modelling
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Summary:We report the results of a numerical modelling study based on folds in the western Northern Calcareous Alps (NCA) fold-and-thrust belt. We study boundary conditions of folding based on the mechanical properties of the rocks involved. One key control on the model is stratigraphy that can be simplified to three layers: (1) an incompetent base along the décollement of the thrust sheet, and (2) an up to 3 km thick competent layer, which is overlain by (3) an incompetent top layer. The incompetent base layer needs to be very weak to facilitate folding and is a salt-bearing evaporitic unit. Another key is erosion prior to folding. It needs to remove half of the competent layer to allow the creation of folds with limb lengths comparable to field observations. The results of the numeric model contribute to the understanding of the structural development in the western NCA. Folding within the upper thrust sheet was only possible above a salt-bearing décollement and after a decrease in lithostatic pressure related to Upper Cretaceous and/or Paleogene erosion. •Buckle folding in a large scale numeric model.•Folds develop on top of a very weak décollement.•Erosion facilitates folding.
ISSN:0191-8141
1873-1201
DOI:10.1016/j.jsg.2021.104416