Comparison of upwards splaying and upwards merging segmented normal faults
Comparison of upwards splaying and upwards merging segmented normal faults
A common model for normal fault growth involves a single fault at depth splaying upwards into a series of en-echelon segments. This model is applied to faults as well as a range of extension fractures, including veins, joints and igneous dykes. Examples of splaying growth fault systems in the Columbus Basin, offshore Trinidad, are presented. They include the commonly described upwards splaying type, but also one fault zone with an upward change from disconnected overlapping synthetic faults to a continuous fault. One fault zone with high-displacement fault segments is separated by a relay ramp at depth, becomes breached higher up, developing into a continuous fault at its upper part, where displacements are least. This example suggests that whilst kinematic linkage typically precedes geometric linkage in the evolution of relay ramps, low-displacement parts of a fault system may be geometrically linked whereas higher displacement areas are only kinematically linked.
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Freitag, U.A.
f25800f9-4285-4b54-b444-4a73b0987207
Sanderson, David
5653bc11-b905-4985-8c16-c655b2170ba9
Lonergan, L.
69341e1f-7b5d-4cad-833e-9c6eaeedd7be
Bevan, T.G.
3dec7b1d-d80d-45e4-b55b-6f3793cf986a
July 2017
Freitag, U.A.
f25800f9-4285-4b54-b444-4a73b0987207
Sanderson, David
5653bc11-b905-4985-8c16-c655b2170ba9
Lonergan, L.
69341e1f-7b5d-4cad-833e-9c6eaeedd7be
Bevan, T.G.
3dec7b1d-d80d-45e4-b55b-6f3793cf986a
Freitag, U.A., Sanderson, David, Lonergan, L. and Bevan, T.G.
(2017)
Comparison of upwards splaying and upwards merging segmented normal faults.
Journal of Structural Geology, 100, .
(doi:10.1016/j.jsg.2017.05.005).
Abstract
A common model for normal fault growth involves a single fault at depth splaying upwards into a series of en-echelon segments. This model is applied to faults as well as a range of extension fractures, including veins, joints and igneous dykes. Examples of splaying growth fault systems in the Columbus Basin, offshore Trinidad, are presented. They include the commonly described upwards splaying type, but also one fault zone with an upward change from disconnected overlapping synthetic faults to a continuous fault. One fault zone with high-displacement fault segments is separated by a relay ramp at depth, becomes breached higher up, developing into a continuous fault at its upper part, where displacements are least. This example suggests that whilst kinematic linkage typically precedes geometric linkage in the evolution of relay ramps, low-displacement parts of a fault system may be geometrically linked whereas higher displacement areas are only kinematically linked.
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Accepted/In Press date: 11 May 2017
e-pub ahead of print date: 11 May 2017
Published date: July 2017
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Local EPrints ID: 418016
URI: http://eprints.soton.ac.uk/id/eprint/418016
ISSN: 0191-8141
PURE UUID: aff9e2c6-08bb-415a-8c94-53bb3f765c42
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Date deposited: 20 Feb 2018 17:31
Last modified: 16 Mar 2024 03:57
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Author:
U.A. Freitag
Author:
L. Lonergan
Author:
T.G. Bevan
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