Onset of slip partitioning under oblique convergence within scaled physical models

This is a Preprint and has not been peer reviewed. The published version of this Preprint is available: https://doi.org/10.1130/GES02179.1. This is version 2 of this Preprint.

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Authors

Michele Lynn Cooke, Kevin Toeneboehn, Jennifer Beyer

Abstract

Oblique convergent margins host slip partitioned faults with simultaneously active strike-slip and reverse faults. Such systems defy energetic considerations that a single oblique-slip fault accommodates deformation more efficiently than multiple faults. To investigate the development of slip partitioning, we record deformation throughout scaled experiments of wet kaolin over a low convergence (< 30˚) obliquely-slipping basal dislocation. The presence of a precut vertical weakness in the wet kaolin impacts the morphology of faults but is not required for slip partitioning. The experiments reveal three styles of slip partitioning development delineated by the order of faulting and the extent of slip partitioning. Low convergent angle experiments (5˚) produce strike-slip faults prior to reverse faults. In moderate convergence experiments (10˚-25˚), the reverse fault forms prior to the strike-slip fault. Strike-slip faults develop either along existing weaknesses (precut or previous reverse-slip faults) or through the coalescence of new echelon cracks. The third style of local slip partitioning along two simultaneously active dipping faults is transient while global slip partitioning persists. The development of two active fault surfaces arises from changes in off-fault strain pattern after development of the first fault. With early strike-slip faults, off-fault contraction accumulates to produce a new reverse fault. Systems with early lobate reverse faults accommodate limited strike-slip and produce extension in the hanging wall, thereby promoting strike-slip faulting. The observation of persistent slip partitioning under a wide range of experimental conditions demonstrates why such systems are frequently observed in oblique convergence crustal margins around the world.

DOI

https://doi.org/10.31223/osf.io/ths6p

Subjects

Earth Sciences, Physical Sciences and Mathematics, Tectonics and Structure

Keywords

Transpression, analog experiments, fault evolution, oblique convergence, slip partitioning

Dates

Published: 2019-08-04 14:04

Last Updated: 2020-01-23 15:16

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License

CC BY Attribution 4.0 International