Fault damage zones
Fault damage zones
Damage zones show very similar geometries across a wide range of scales and fault types, including strike-slip, normal and thrust faults. We use a geometric classification of damage zones into tip-, wall-, and linking-damage zones, based on their location around faults. These classes can be sub-divided in terms of fault and fracture patterns within the damage zone. A variety of damage zone structures can occur at mode II tips of strike-slip faults, including wing cracks, horsetail fractures, antithetic faults, and synthetic branch faults. Wall damage zones result from the propagation of mode II and mode III fault tips through a rock, or from damage associated with the increase in slip on a fault. Wall damage zone structures include extension fractures, antithetic faults, synthetic faults, and rotated blocks with associated triangular openings. The damage formed at the mode III tips of strike-slip faults (e.g. observed in cliff sections) are classified as wall damage zones, because the damage zone structures are distributed along a fault trace in map view. Mixed-mode tips are likely to show characteristics of both mode II and mode III tips. Linking damage zones are developed at steps between two sub-parallel faults, and the structures developed depend on whether the step is extensional or contractional. Extension fractures and pull-aparts typically develop in extensional steps, whilst solution seams, antithetic faults and synthetic faults commonly develop in contractional steps. Rotated blocks, isolated lenses or strike-slip duplexes may occur in both extensional and contractional steps.
Damage zone geometries and structures are strongly controlled by the location around a fault, the slip mode at a fault tip, and by the evolutionary stage of the fault. Although other factors control the nature of damage zones (e.g. lithology, rheology and stress system), the three-dimensional fault geometry and slip mode at each tip must be considered to gain an understanding of damage zones around faults.
Damage zones, Fault tip, Fractures, Linkage, Strike-slip faults
503-517
Kim, Y-S.
df28242c-2f27-4962-8b86-0b4041419ad9
Peacock, D.D.P.
08f9833d-9943-4db0-9f10-f3391bc4ce29
Sanderson, D.J.
5653bc11-b905-4985-8c16-c655b2170ba9
March 2004
Kim, Y-S.
df28242c-2f27-4962-8b86-0b4041419ad9
Peacock, D.D.P.
08f9833d-9943-4db0-9f10-f3391bc4ce29
Sanderson, D.J.
5653bc11-b905-4985-8c16-c655b2170ba9
Kim, Y-S., Peacock, D.D.P. and Sanderson, D.J.
(2004)
Fault damage zones.
Journal of Structural Geology, 26 (3), .
(doi:10.1016/j.jsg.2003.08.002).
Abstract
Damage zones show very similar geometries across a wide range of scales and fault types, including strike-slip, normal and thrust faults. We use a geometric classification of damage zones into tip-, wall-, and linking-damage zones, based on their location around faults. These classes can be sub-divided in terms of fault and fracture patterns within the damage zone. A variety of damage zone structures can occur at mode II tips of strike-slip faults, including wing cracks, horsetail fractures, antithetic faults, and synthetic branch faults. Wall damage zones result from the propagation of mode II and mode III fault tips through a rock, or from damage associated with the increase in slip on a fault. Wall damage zone structures include extension fractures, antithetic faults, synthetic faults, and rotated blocks with associated triangular openings. The damage formed at the mode III tips of strike-slip faults (e.g. observed in cliff sections) are classified as wall damage zones, because the damage zone structures are distributed along a fault trace in map view. Mixed-mode tips are likely to show characteristics of both mode II and mode III tips. Linking damage zones are developed at steps between two sub-parallel faults, and the structures developed depend on whether the step is extensional or contractional. Extension fractures and pull-aparts typically develop in extensional steps, whilst solution seams, antithetic faults and synthetic faults commonly develop in contractional steps. Rotated blocks, isolated lenses or strike-slip duplexes may occur in both extensional and contractional steps.
Damage zone geometries and structures are strongly controlled by the location around a fault, the slip mode at a fault tip, and by the evolutionary stage of the fault. Although other factors control the nature of damage zones (e.g. lithology, rheology and stress system), the three-dimensional fault geometry and slip mode at each tip must be considered to gain an understanding of damage zones around faults.
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Published date: March 2004
Keywords:
Damage zones, Fault tip, Fractures, Linkage, Strike-slip faults
Identifiers
Local EPrints ID: 48379
URI: http://eprints.soton.ac.uk/id/eprint/48379
ISSN: 0191-8141
PURE UUID: dd10edfd-be8e-4727-8945-91a1d8f49a3e
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Date deposited: 04 Oct 2007
Last modified: 16 Mar 2024 03:57
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Author:
Y-S. Kim
Author:
D.D.P. Peacock
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