Journal
JOURNAL OF STRUCTURAL GEOLOGY
Volume 64, Issue -, Pages 3-31Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jsg.2014.03.003
Keywords
Transform plate boundaries; Crustal-scale shear zones; Active deformation; Strain localization; Stress cycling
Categories
Funding
- NZ Foundation for Research, Science and Technology, subcontracts from GNS Science
- NZ Universities Grants Committee
- University of Otago Research Committee
- NZ Natural Hazards Platform
- NZ Earthquake Commission
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Continental transform faults are dominantly highly localized strike-slip shear zones hundreds of kilometers long that accumulate tens to hundreds of kilometers of displacement. From work on the Alpine Fault, we pose the questions: what is the deep structure of a continental transform, and how does the displacement become localized? We review research on the Alpine Fault and propose a model in which the fault partitions at depth into a steep zone extending into the mantle with largely fault-parallel motion and a flat ductile decollement in the lower crust. The fault localizes around two-thirds of the plate motion within a 100 km wide zone of distributed deformation. A review of other active continental fault systems suggests that variation between them may reflect their tectonic origins, the nature of the crust in which they develop, the presence of a significant oblique component of motion, and the displacement rate. All however have evidence for the development of a single principal fault zone that carries >= 50% of the total displacement and extends as a localized zone of shear into the upper mantle. We review mechanisms of strain weakening and suggest that localization of a principal fault may be initiated in the seismogenic crust and through a series of positive feedbacks eventually extend through the lower crust into the upper mantle. (C) 2014 Elsevier Ltd. All rights reserved.
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