A DEEP SEISMIC ANALYSIS OF THE FLEMISH CAP CONTINENTAL MARGIN OFF NEWFOUNDLAND, CANADA

The crustal structure of the NE Flemish Cap margin off Newfoundland, Canada has been determined along a 460-km-long wide-angle reflection seismic transect (FLAME Line). The westward section crossing Flemish Cap displays an up to 32-km-thick continental crust. The thick crust thins to a 6-km-thick cr...

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Bibliographic Details
Main Author:	Gerlings, Joanna
Other Authors:	Department of Earth Sciences, Doctor of Philosophy, Dr. Donna Shillington, Dr. Nicholas Culshaw, Dr. H. Ruth Jackson, Dr. Mladen R. Nedimovic, Dr. David Mosher, Dr. Keith E. Louden, Not Applicable, Yes
Language:	English
Published:	2013
Subjects:	Canada Newfoundland
Online Access:	http://hdl.handle.net/10222/21393

id	ftdalhouse:oai:DalSpace.library.dal.ca:10222/21393
record_format	openpolar
spelling	ftdalhouse:oai:DalSpace.library.dal.ca:10222/21393 2023-05-15T17:22:17+02:00 A DEEP SEISMIC ANALYSIS OF THE FLEMISH CAP CONTINENTAL MARGIN OFF NEWFOUNDLAND, CANADA Gerlings, Joanna Department of Earth Sciences Doctor of Philosophy Dr. Donna Shillington Dr. Nicholas Culshaw Dr. H. Ruth Jackson Dr. Mladen R. Nedimovic Dr. David Mosher Dr. Keith E. Louden Not Applicable Yes 2013-03-11T12:39:00Z http://hdl.handle.net/10222/21393 en_US eng http://hdl.handle.net/10222/21393 2013 ftdalhouse 2021-12-29T18:08:22Z The crustal structure of the NE Flemish Cap margin off Newfoundland, Canada has been determined along a 460-km-long wide-angle reflection seismic transect (FLAME Line). The westward section crossing Flemish Cap displays an up to 32-km-thick continental crust. The thick crust thins to a 6-km-thick crust over a distance of only 40 km, which then continues seaward for an additional 100 km. S-wave velocities favor a thin crust of continental composition. Beneath the thin crust velocities infer that the upper mantle is partially serpentinized. The seaward-most end of the model displays velocities and thicknesses typical of oceanic crust. The raw multichannel seismic (MCS) reflection data of Line 85-3, coincident with the FLAME Line, were reprocessed. Results were combined with the velocity model and then compared with similar results across the conjugate Goban Spur margin (NE Europe). Previous stud- ies had suggested a model of symmetric pure shear extension followed by asymmetric breakup. The new results indicate that asymmetric structures are formed during all stages of rifting, breakup, and transition to oceanic spreading. The differing nature of the two transition zones is particularly striking. For Flemish Cap, the reprocessed image of the MCS profile shows tilted fault blocks beneath syn-rift sediment packages, consistent with a wide region of highly thinned continental crust suggested by P- and S-wave velocities. In contrast, the Goban Spur transition zone consists primarily of exhumed serpentinized mantle. To define potential variations along-strike of the mar- gin, the raw MCS data of Line 87-4 to the north of Flemish Cap were reprocessed. Interpretation of the image indicates a different crustal structure along the profile in comparison to Line 85-3. Fault blocks with a roughly NW-SE rift direction are indicated in the landward region of Line 87-4, followed seaward by a block indicating complex 3D rifting. The basement morphology farther seaward indicates crust of an oceanic affinity. In light of the results of the reprocessed images, Erable lines (E43, E44, E46-E52) situated between Lines 87-4 and 85-3 were re-interpreted. The results together with gravity data indicate along-strike variations both in rifting as well as mantle serpentinization on the NE Flemish Cap margin. Other/Unknown Material Newfoundland Dalhousie University: DalSpace Institutional Repository Canada
institution	Open Polar
collection	Dalhousie University: DalSpace Institutional Repository
op_collection_id	ftdalhouse
language	English
description	The crustal structure of the NE Flemish Cap margin off Newfoundland, Canada has been determined along a 460-km-long wide-angle reflection seismic transect (FLAME Line). The westward section crossing Flemish Cap displays an up to 32-km-thick continental crust. The thick crust thins to a 6-km-thick crust over a distance of only 40 km, which then continues seaward for an additional 100 km. S-wave velocities favor a thin crust of continental composition. Beneath the thin crust velocities infer that the upper mantle is partially serpentinized. The seaward-most end of the model displays velocities and thicknesses typical of oceanic crust. The raw multichannel seismic (MCS) reflection data of Line 85-3, coincident with the FLAME Line, were reprocessed. Results were combined with the velocity model and then compared with similar results across the conjugate Goban Spur margin (NE Europe). Previous stud- ies had suggested a model of symmetric pure shear extension followed by asymmetric breakup. The new results indicate that asymmetric structures are formed during all stages of rifting, breakup, and transition to oceanic spreading. The differing nature of the two transition zones is particularly striking. For Flemish Cap, the reprocessed image of the MCS profile shows tilted fault blocks beneath syn-rift sediment packages, consistent with a wide region of highly thinned continental crust suggested by P- and S-wave velocities. In contrast, the Goban Spur transition zone consists primarily of exhumed serpentinized mantle. To define potential variations along-strike of the mar- gin, the raw MCS data of Line 87-4 to the north of Flemish Cap were reprocessed. Interpretation of the image indicates a different crustal structure along the profile in comparison to Line 85-3. Fault blocks with a roughly NW-SE rift direction are indicated in the landward region of Line 87-4, followed seaward by a block indicating complex 3D rifting. The basement morphology farther seaward indicates crust of an oceanic affinity. In light of the results of the reprocessed images, Erable lines (E43, E44, E46-E52) situated between Lines 87-4 and 85-3 were re-interpreted. The results together with gravity data indicate along-strike variations both in rifting as well as mantle serpentinization on the NE Flemish Cap margin.
author2	Department of Earth Sciences Doctor of Philosophy Dr. Donna Shillington Dr. Nicholas Culshaw Dr. H. Ruth Jackson Dr. Mladen R. Nedimovic Dr. David Mosher Dr. Keith E. Louden Not Applicable Yes
author	Gerlings, Joanna
spellingShingle	Gerlings, Joanna A DEEP SEISMIC ANALYSIS OF THE FLEMISH CAP CONTINENTAL MARGIN OFF NEWFOUNDLAND, CANADA
author_facet	Gerlings, Joanna
author_sort	Gerlings, Joanna
title	A DEEP SEISMIC ANALYSIS OF THE FLEMISH CAP CONTINENTAL MARGIN OFF NEWFOUNDLAND, CANADA
title_short	A DEEP SEISMIC ANALYSIS OF THE FLEMISH CAP CONTINENTAL MARGIN OFF NEWFOUNDLAND, CANADA
title_full	A DEEP SEISMIC ANALYSIS OF THE FLEMISH CAP CONTINENTAL MARGIN OFF NEWFOUNDLAND, CANADA
title_fullStr	A DEEP SEISMIC ANALYSIS OF THE FLEMISH CAP CONTINENTAL MARGIN OFF NEWFOUNDLAND, CANADA
title_full_unstemmed	A DEEP SEISMIC ANALYSIS OF THE FLEMISH CAP CONTINENTAL MARGIN OFF NEWFOUNDLAND, CANADA
title_sort	deep seismic analysis of the flemish cap continental margin off newfoundland, canada
publishDate	2013
url	http://hdl.handle.net/10222/21393
geographic	Canada
geographic_facet	Canada
genre	Newfoundland
genre_facet	Newfoundland
op_relation	http://hdl.handle.net/10222/21393
_version_	1766108837963628544

A DEEP SEISMIC ANALYSIS OF THE FLEMISH CAP CONTINENTAL MARGIN OFF NEWFOUNDLAND, CANADA

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