Evidence for asymmetric nonvolcanic rifting and slow incipient oceanic accretion from seismic reflection data on the Newfoundland nonvolcanic margin
Evidence for asymmetric nonvolcanic rifting and slow incipient oceanic accretion from seismic reflection data on the Newfoundland nonvolcanic margin
Prestack depth migrations of seismic reflection data collected around the Ocean Drilling Program (ODP) Leg 210 transect on the Newfoundland nonvolcanic margin delineate three domains: (1) extended continental crust, (2) transitional basement, and (3) apparent slow spreading oceanic basement beyond anomaly M3 and indicate first-order differences between this margin and its well-studied conjugate, the Iberia margin. Extended continental crust thins abruptly with few observed faults, in stark contrast with the system of seaward dipping normal faults and detachments imaged within continental crust off Iberia. Transition zone basement typically appears featureless in seismic reflection profiles, but where its character can be discerned, it does not resemble most images of exhumed peridotite off Iberia. Seismic observations allow three explanations for transitional basement: (1) slow spreading oceanic basement produced by unstable early seafloor spreading, (2) exhumed, serpentinized mantle with different properties from that off Iberia, and (3) thinned continental crust, likely emplaced by one or more detachment or rolling-hinge faults. Although we cannot definitively discriminate between these possibilities, seismic reflection profiles together with coincident wide-angle seismic refraction data tentatively suggest that the majority of transitional basement is thinned continental crust emplaced during the late stages of rifting. Finally, seismic profiles image abundant faults and significant basement topography in apparent oceanic basement. These observations, together with magnetic anomaly interpretations and the recovery of mantle peridotites at ODP Site 1277, appear to be best explained by the interplay of extension and magmatism during the transition from nonvolcanic rifting to a slow spreading oceanic accretion system.
nonvolcanic margin, seismic reflection, continental extension
B09402-[23pp]
Shillington, Donna J.
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Holbrook, W. Steven
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Van Avendonk, Harm J.A.
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Tucholke, Brian E.
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Hopper, John R.
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Louden, Keith E.
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Larsen, Hans Christian
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Nunes, Gregory T.
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September 2006
Shillington, Donna J.
e53cb591-7124-4886-88a5-1b92f65fb199
Holbrook, W. Steven
639d0174-f356-4910-a394-c46a2ccb2919
Van Avendonk, Harm J.A.
a8ed08ac-3232-480f-8760-bc7ee1edfbd0
Tucholke, Brian E.
284cd485-2bca-4494-829f-2fe592df96a8
Hopper, John R.
df476df1-ddea-448b-bcaf-bf24f60d24ad
Louden, Keith E.
b818fc43-6f0c-4cbd-99d1-3c60db40e9e8
Larsen, Hans Christian
48b3ccb8-0204-436f-9d40-2a057227964b
Nunes, Gregory T.
23d0261a-dbcd-4bf4-b8b7-33a7b1bed314
Shillington, Donna J., Holbrook, W. Steven, Van Avendonk, Harm J.A., Tucholke, Brian E., Hopper, John R., Louden, Keith E., Larsen, Hans Christian and Nunes, Gregory T.
(2006)
Evidence for asymmetric nonvolcanic rifting and slow incipient oceanic accretion from seismic reflection data on the Newfoundland nonvolcanic margin.
Journal of Geophysical Research, 111 (B9), .
(doi:10.1029/2005JB003981).
Abstract
Prestack depth migrations of seismic reflection data collected around the Ocean Drilling Program (ODP) Leg 210 transect on the Newfoundland nonvolcanic margin delineate three domains: (1) extended continental crust, (2) transitional basement, and (3) apparent slow spreading oceanic basement beyond anomaly M3 and indicate first-order differences between this margin and its well-studied conjugate, the Iberia margin. Extended continental crust thins abruptly with few observed faults, in stark contrast with the system of seaward dipping normal faults and detachments imaged within continental crust off Iberia. Transition zone basement typically appears featureless in seismic reflection profiles, but where its character can be discerned, it does not resemble most images of exhumed peridotite off Iberia. Seismic observations allow three explanations for transitional basement: (1) slow spreading oceanic basement produced by unstable early seafloor spreading, (2) exhumed, serpentinized mantle with different properties from that off Iberia, and (3) thinned continental crust, likely emplaced by one or more detachment or rolling-hinge faults. Although we cannot definitively discriminate between these possibilities, seismic reflection profiles together with coincident wide-angle seismic refraction data tentatively suggest that the majority of transitional basement is thinned continental crust emplaced during the late stages of rifting. Finally, seismic profiles image abundant faults and significant basement topography in apparent oceanic basement. These observations, together with magnetic anomaly interpretations and the recovery of mantle peridotites at ODP Site 1277, appear to be best explained by the interplay of extension and magmatism during the transition from nonvolcanic rifting to a slow spreading oceanic accretion system.
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Published date: September 2006
Keywords:
nonvolcanic margin, seismic reflection, continental extension
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Local EPrints ID: 37541
URI: http://eprints.soton.ac.uk/id/eprint/37541
ISSN: 0148-0227
PURE UUID: 864ed33c-8f7f-4daf-bd93-454bf81e77d8
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Date deposited: 23 May 2006
Last modified: 15 Mar 2024 07:59
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Contributors
Author:
Donna J. Shillington
Author:
W. Steven Holbrook
Author:
Harm J.A. Van Avendonk
Author:
Brian E. Tucholke
Author:
John R. Hopper
Author:
Keith E. Louden
Author:
Hans Christian Larsen
Author:
Gregory T. Nunes
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