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The use of high-resolution seismic reflection profiles for fault analysis in the near-shore environment, Weymouth Bay, Dorset, England, United Kingdom

The use of high-resolution seismic reflection profiles for fault analysis in the near-shore environment, Weymouth Bay, Dorset, England, United Kingdom
The use of high-resolution seismic reflection profiles for fault analysis in the near-shore environment, Weymouth Bay, Dorset, England, United Kingdom
High-resolution seismic reflection profiles using a Chirp source image a north-south extensional fault set, which cuts rocks of Upper Jurassic age, cropping out on the seafloor of Weymouth Bay, Dorset, England, United Kingdom. The same fault set cuts rocks of similar age along the adjacent coast, and field mapping can be compared directly with the Chirp profiles. Survey lines were shot perpendicular to the fault strike to produce dip sections from which displacements could be measured. One hundred and fifty-three faults were picked on a 15 km line, yielding a fault density of ~10 km-1, similar to that measured in the coastal section. Chirp-resolved fault displacements as small as 0.5 m and a maximum fault displacement of 221 m could be inferred from the data. Distribution analysis of offshore fault data indicated that fault displacement is power law with a well constrained exponent of ~ 0.9. This value is consistent with the power law exponent estimate for fault displacement, over the scale range 2–8 m, onshore. Thus Chirp near-shore seismic reflection profiles can infill a data gap for fault size-frequency relationships that commonly occurs when combining data from outcrops/cores and conventional seismic reflection profiles.

0148-0227
15409-15482
Hunsdale, Robert
06ae6f1d-5054-435f-a957-d25e1326f0c8
Bull, Jon M.
f91f04bd-a8aa-4f48-ac14-7ea5fd233480
Dix, Justin K.
3c493ba2-5057-44f2-867f-88e5990efd0a
Sanderson, David J.
5653bc11-b905-4985-8c16-c655b2170ba9
Hunsdale, Robert
06ae6f1d-5054-435f-a957-d25e1326f0c8
Bull, Jon M.
f91f04bd-a8aa-4f48-ac14-7ea5fd233480
Dix, Justin K.
3c493ba2-5057-44f2-867f-88e5990efd0a
Sanderson, David J.
5653bc11-b905-4985-8c16-c655b2170ba9

Hunsdale, Robert, Bull, Jon M., Dix, Justin K. and Sanderson, David J. (1998) The use of high-resolution seismic reflection profiles for fault analysis in the near-shore environment, Weymouth Bay, Dorset, England, United Kingdom. Journal of Geophysical Research, 103 (B7), 15409-15482.

Record type: Article

Abstract

High-resolution seismic reflection profiles using a Chirp source image a north-south extensional fault set, which cuts rocks of Upper Jurassic age, cropping out on the seafloor of Weymouth Bay, Dorset, England, United Kingdom. The same fault set cuts rocks of similar age along the adjacent coast, and field mapping can be compared directly with the Chirp profiles. Survey lines were shot perpendicular to the fault strike to produce dip sections from which displacements could be measured. One hundred and fifty-three faults were picked on a 15 km line, yielding a fault density of ~10 km-1, similar to that measured in the coastal section. Chirp-resolved fault displacements as small as 0.5 m and a maximum fault displacement of 221 m could be inferred from the data. Distribution analysis of offshore fault data indicated that fault displacement is power law with a well constrained exponent of ~ 0.9. This value is consistent with the power law exponent estimate for fault displacement, over the scale range 2–8 m, onshore. Thus Chirp near-shore seismic reflection profiles can infill a data gap for fault size-frequency relationships that commonly occurs when combining data from outcrops/cores and conventional seismic reflection profiles.

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Published date: 1998

Identifiers

Local EPrints ID: 76149
URI: http://eprints.soton.ac.uk/id/eprint/76149
ISSN: 0148-0227
PURE UUID: 05a75740-8651-408b-9ba5-c8e6b125761c
ORCID for David J. Sanderson: ORCID iD orcid.org/0000-0002-2144-3527

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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 02:53

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Contributors

Author: Robert Hunsdale
Author: Jon M. Bull
Author: Justin K. Dix
Author: David J. Sanderson ORCID iD

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