Crust and uppermost-mantle structure of Greenland and the Northwest Atlantic from Rayleigh wave group velocity tomography

The Greenland landmass preserves ∼4 billion years of tectonic history, but much of the continent is inaccessible to geological study due to the extensive inland ice cap. We map out, for the first time, the 3-D crustal structure of Greenland and the NW Atlantic ocean, using Rayleigh wave anisotropic...

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Bibliographic Details
Published in:Geophysical Journal International
Main Authors: Darbyshire, Fiona A, Dahl-Jensen, Trine, Larsen, Tine B, Voss, Peter H, Joyal, Guillaume
Format: Text
Language:English
Published: 2018
Subjects:
Arctic region
Seismic anisotropy
Seismic tomography
Surface waves and free oscillations
Crustal structure
Arctic
Baffin Bay
Greenland
Baffin
Ice cap
Iceland
North Atlantic
Northwest Atlantic
Online Access:http://archipel.uqam.ca/11001/1/Darbyshire_et_al_GeophysJInt_2018_1546-1569.pdf
id ftunivquebec:oai:www.archipel.uqam.ca:11001
record_format openpolar
spelling ftunivquebec:oai:www.archipel.uqam.ca:11001 2023-05-15T15:14:30+02:00 Crust and uppermost-mantle structure of Greenland and the Northwest Atlantic from Rayleigh wave group velocity tomography Darbyshire, Fiona A Dahl-Jensen, Trine Larsen, Tine B Voss, Peter H Joyal, Guillaume 2018-03 application/pdf http://archipel.uqam.ca/11001/1/Darbyshire_et_al_GeophysJInt_2018_1546-1569.pdf en eng http://archipel.uqam.ca/11001/ http://dx.doi.org/10.1093/gji/ggx479 doi:10.1093/gji/ggx479 Arctic region Seismic anisotropy Seismic tomography Surface waves and free oscillations Crustal structure Article de revue scientifique PeerReviewed 2018 ftunivquebec https://doi.org/10.1093/gji/ggx479 2018-03-04T00:04:55Z The Greenland landmass preserves ∼4 billion years of tectonic history, but much of the continent is inaccessible to geological study due to the extensive inland ice cap. We map out, for the first time, the 3-D crustal structure of Greenland and the NW Atlantic ocean, using Rayleigh wave anisotropic group velocity tomography, in the period range 10–80 s, from regional earthquakes and the ongoing GLATIS/GLISN seismograph networks. 1-D inversion gives a pseudo-3-D model of shear wave velocity structure to depths of ∼100 km with a horizontal resolution of ∼200 km. Crustal thickness across mainland Greenland ranges from ∼25 km to over 50 km, and the velocity structure shows considerable heterogeneity. The large sedimentary basins on the continental shelf are clearly visible as low velocities in the upper ∼5–15 km. Within the upper continental basement, velocities are systematically lower in northern Greenland than in the south, and exhibit a broadly NW–SE trend. The thinning of the crust at the continental margins is also clearly imaged. Upper-mantle velocities show a clear distinction between typical fast cratonic lithosphere (Vs ≥4.6 km s−1) beneath Greenland and its NE margin and anomalously slow oceanic mantle (Vs ∼4.3–4.4 km s−1) beneath the NW Atlantic. We do not observe any sign of pervasive lithospheric modification across Greenland in the regions associated with the presumed Iceland hotspot track, though the average crustal velocity in this region is higher than that of areas to the north and south. Crustal anisotropy beneath Greenland is strong and complex, likely reflecting numerous episodes of tectonic deformation. Beneath the North Atlantic and Baffin Bay, the dominant anisotropy directions are perpendicular to the active and extinct spreading centres. Anisotropy in the subcontinental lithosphere is weaker than that of the crust, but still significant, consistent with cratonic lithosphere worldwide. Text Arctic Baffin Bay Baffin Bay Baffin Greenland Ice cap Iceland North Atlantic Northwest Atlantic UQAM - Université du Québec à Montréal: archipel Arctic Baffin Bay Greenland Geophysical Journal International 212 3 1546 1569
institution Open Polar
collection UQAM - Université du Québec à Montréal: archipel
op_collection_id ftunivquebec
language English
topic Arctic region
Seismic anisotropy
Seismic tomography
Surface waves and free oscillations
Crustal structure
spellingShingle Arctic region
Seismic anisotropy
Seismic tomography
Surface waves and free oscillations
Crustal structure
Darbyshire, Fiona A
Dahl-Jensen, Trine
Larsen, Tine B
Voss, Peter H
Joyal, Guillaume
Crust and uppermost-mantle structure of Greenland and the Northwest Atlantic from Rayleigh wave group velocity tomography
topic_facet Arctic region
Seismic anisotropy
Seismic tomography
Surface waves and free oscillations
Crustal structure
description The Greenland landmass preserves ∼4 billion years of tectonic history, but much of the continent is inaccessible to geological study due to the extensive inland ice cap. We map out, for the first time, the 3-D crustal structure of Greenland and the NW Atlantic ocean, using Rayleigh wave anisotropic group velocity tomography, in the period range 10–80 s, from regional earthquakes and the ongoing GLATIS/GLISN seismograph networks. 1-D inversion gives a pseudo-3-D model of shear wave velocity structure to depths of ∼100 km with a horizontal resolution of ∼200 km. Crustal thickness across mainland Greenland ranges from ∼25 km to over 50 km, and the velocity structure shows considerable heterogeneity. The large sedimentary basins on the continental shelf are clearly visible as low velocities in the upper ∼5–15 km. Within the upper continental basement, velocities are systematically lower in northern Greenland than in the south, and exhibit a broadly NW–SE trend. The thinning of the crust at the continental margins is also clearly imaged. Upper-mantle velocities show a clear distinction between typical fast cratonic lithosphere (Vs ≥4.6 km s−1) beneath Greenland and its NE margin and anomalously slow oceanic mantle (Vs ∼4.3–4.4 km s−1) beneath the NW Atlantic. We do not observe any sign of pervasive lithospheric modification across Greenland in the regions associated with the presumed Iceland hotspot track, though the average crustal velocity in this region is higher than that of areas to the north and south. Crustal anisotropy beneath Greenland is strong and complex, likely reflecting numerous episodes of tectonic deformation. Beneath the North Atlantic and Baffin Bay, the dominant anisotropy directions are perpendicular to the active and extinct spreading centres. Anisotropy in the subcontinental lithosphere is weaker than that of the crust, but still significant, consistent with cratonic lithosphere worldwide.
format Text
author Darbyshire, Fiona A
Dahl-Jensen, Trine
Larsen, Tine B
Voss, Peter H
Joyal, Guillaume
author_facet Darbyshire, Fiona A
Dahl-Jensen, Trine
Larsen, Tine B
Voss, Peter H
Joyal, Guillaume
author_sort Darbyshire, Fiona A
title Crust and uppermost-mantle structure of Greenland and the Northwest Atlantic from Rayleigh wave group velocity tomography
title_short Crust and uppermost-mantle structure of Greenland and the Northwest Atlantic from Rayleigh wave group velocity tomography
title_full Crust and uppermost-mantle structure of Greenland and the Northwest Atlantic from Rayleigh wave group velocity tomography
title_fullStr Crust and uppermost-mantle structure of Greenland and the Northwest Atlantic from Rayleigh wave group velocity tomography
title_full_unstemmed Crust and uppermost-mantle structure of Greenland and the Northwest Atlantic from Rayleigh wave group velocity tomography
title_sort crust and uppermost-mantle structure of greenland and the northwest atlantic from rayleigh wave group velocity tomography
publishDate 2018
url http://archipel.uqam.ca/11001/1/Darbyshire_et_al_GeophysJInt_2018_1546-1569.pdf
geographic Arctic
Baffin Bay
Greenland
geographic_facet Arctic
Baffin Bay
Greenland
genre Arctic
Baffin Bay
Baffin Bay
Baffin
Greenland
Ice cap
Iceland
North Atlantic
Northwest Atlantic
genre_facet Arctic
Baffin Bay
Baffin Bay
Baffin
Greenland
Ice cap
Iceland
North Atlantic
Northwest Atlantic
op_relation http://archipel.uqam.ca/11001/
http://dx.doi.org/10.1093/gji/ggx479
doi:10.1093/gji/ggx479
op_doi https://doi.org/10.1093/gji/ggx479
container_title Geophysical Journal International
container_volume 212
container_issue 3
container_start_page 1546
op_container_end_page 1569
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