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Continental breakup and the onset of ultra-slow seafloor spreading off Flemish Cap on the Newfoundland Rifted Margin

Continental breakup and the onset of ultra-slow seafloor spreading off Flemish Cap on the Newfoundland Rifted Margin
Continental breakup and the onset of ultra-slow seafloor spreading off Flemish Cap on the Newfoundland Rifted Margin
Prestack depth-migrated seismic reflection data collected off Flemish Cap on the Newfoundland margin show a structure of abruptly thinning continental crust that leads into an oceanic accretion system. Within continental crust, there is no clear evidence for detachment surfaces analogous to the S reflection off the conjugate Galicia Bank margin, demonstrating a first-order asymmetry in final rift development. Anomalously thin (3–4 km), magmatically produced oceanic crust abuts very thin continental crust and is highly tectonized. This indicates that initial accretion of the oceanic crust was in a magma-limited setting similar to present-day ultraslow spreading environments. Seaward, oceanic crust thins to <1.3 km and exhibits an unusual, highly reflective layering. We propose that a period of magma starvation led to exhumation of mantle in an oceanic core complex that was subsequently buried by deep-marine sheet flows to form this layering. Subsequent seafloor spreading formed normal, 6-km-thick oceanic crust. This interpretation implies large fluctuations in the available melt supply during the early stages of seafloor spreading before a more typical slow-spreading system was established.
continental margin, seafloor spreading, extension tectonics, continental breakup
0091-7613
93-96
Hopper, J.R.
c18905f1-ee95-411a-87c7-09bdc598248d
Funck, T.
9690f968-3aed-493d-9621-d99e2de34e4b
Tucholke, B.E.
ed0959ba-f49a-4626-99cf-cf58e568f2a5
Larsen, H.C.
51d09329-5f44-451d-badb-77a63804f14b
Holbrook, W.S.
1f0b8923-c012-462b-bfab-7a35c2379ae6
Louden, K.E.
ef845a02-d45f-4b37-b9ee-37a3e04390b2
Shillington, D.
02243230-025f-47ee-93ae-c8121984a570
Lau, H.
928fca4d-43dc-486f-980a-99cacf69e784
Hopper, J.R.
c18905f1-ee95-411a-87c7-09bdc598248d
Funck, T.
9690f968-3aed-493d-9621-d99e2de34e4b
Tucholke, B.E.
ed0959ba-f49a-4626-99cf-cf58e568f2a5
Larsen, H.C.
51d09329-5f44-451d-badb-77a63804f14b
Holbrook, W.S.
1f0b8923-c012-462b-bfab-7a35c2379ae6
Louden, K.E.
ef845a02-d45f-4b37-b9ee-37a3e04390b2
Shillington, D.
02243230-025f-47ee-93ae-c8121984a570
Lau, H.
928fca4d-43dc-486f-980a-99cacf69e784

Hopper, J.R., Funck, T., Tucholke, B.E., Larsen, H.C., Holbrook, W.S., Louden, K.E., Shillington, D. and Lau, H. (2004) Continental breakup and the onset of ultra-slow seafloor spreading off Flemish Cap on the Newfoundland Rifted Margin. Geology, 32, 93-96. (doi:10.1130/G19694.1).

Record type: Article

Abstract

Prestack depth-migrated seismic reflection data collected off Flemish Cap on the Newfoundland margin show a structure of abruptly thinning continental crust that leads into an oceanic accretion system. Within continental crust, there is no clear evidence for detachment surfaces analogous to the S reflection off the conjugate Galicia Bank margin, demonstrating a first-order asymmetry in final rift development. Anomalously thin (3–4 km), magmatically produced oceanic crust abuts very thin continental crust and is highly tectonized. This indicates that initial accretion of the oceanic crust was in a magma-limited setting similar to present-day ultraslow spreading environments. Seaward, oceanic crust thins to <1.3 km and exhibits an unusual, highly reflective layering. We propose that a period of magma starvation led to exhumation of mantle in an oceanic core complex that was subsequently buried by deep-marine sheet flows to form this layering. Subsequent seafloor spreading formed normal, 6-km-thick oceanic crust. This interpretation implies large fluctuations in the available melt supply during the early stages of seafloor spreading before a more typical slow-spreading system was established.

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Published date: 2004
Keywords: continental margin, seafloor spreading, extension tectonics, continental breakup
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Identifiers

Local EPrints ID: 43707
URI: http://eprints.soton.ac.uk/id/eprint/43707
DOI: doi:10.1130/G19694.1
ISSN: 0091-7613
PURE UUID: 11d6986d-3ce6-49ff-aa96-3113b93b4ea6

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Date deposited: 29 Jan 2007
Last modified: 15 Mar 2024 08:56

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Contributors

Author: J.R. Hopper
Author: T. Funck
Author: B.E. Tucholke
Author: H.C. Larsen
Author: W.S. Holbrook
Author: K.E. Louden
Author: D. Shillington
Author: H. Lau

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