Title of article
Defining a 3-dimensional trishear parameter space to understand the temporal evolution of fault propagation folds
Author/Authors
Pei، نويسنده , , Yangwen and Paton، نويسنده , , Douglas A. and Knipe، نويسنده , , Rob J.، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2014
Pages
14
From page
284
To page
297
Abstract
The application of trishear, in which deformation occurs in a triangular zone in front of a propagating fault tip, is often used to understand fault related folding. A key element of trishear, in comparison to kink-band methods, is that non-uniform deformation within the triangle zone allows the layer thickness and length to change during deformation. By varying three controlling parameters independently (trishear propagation/slip ratio, trishear apical angle and fault dip), we construct a three-dimensional parameter space to demonstrate the variability of resultant geometry feasible with trishear. We plot published natural examples in this parameter space and identify two clusters and show that the most applicable typical trishear propagation/slip ratio is 2 to 3, while the trishear apical angle varies from 30° to 100°. We propose that these findings can help estimate the best-fit parameters for natural structures. We then consider the temporal evolution of specific geometric examples and factors that increase the complexity of trishear including: (1) fault-dip changes and (2) pre-existing faults.
ustrate the applicability of the parameter space and complex trishear models to natural examples, we apply our results to a sub-surface example from the Qaidam basin in northern Tibetan Plateau.
Keywords
Trishear , parameter space , Clusters of natural examples , Trishear complexity
Journal title
Journal of Structural Geology
Serial Year
2014
Journal title
Journal of Structural Geology
Record number
2228284
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