Lithospheric deformation in the Canadian Appalachians: evidence from shear wave splitting

Plate-scale deformation is expected to impart seismic anisotropic fabrics on the lithosphere. Determination of the fast shear wave orientation (φ) and the delay time between the fast and slow split shear waves (δt) via SKS splitting can help place spatial and temporal constraints on lithospheric def...

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Bibliographic Details
Published in:Geophysical Journal International
Main Authors: Gilligan, Amy, Bastow, Ian D., Watson, Emma, Darbyshire, Fiona A., Levin, Vadim, Menke, William, Lane, Victoria, Hawthorn, David, Boyce, Alistair, Liddell, Mitchell V., Petrescu, Laura
Format: Text
Language:English
Published: 2016
Subjects:
Body waves
Seismic anisotropy
Continental tectonics
compressional
Continental tectonics: extensional
North America
North Atlantic
Online Access:http://www.archipel.uqam.ca/8917/1/Gilligan_et_al_GeophysJInt_2016_1273-80.pdf
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spelling ftunivquebec:oai:www.archipel.uqam.ca:8917 2023-05-15T17:34:44+02:00 Lithospheric deformation in the Canadian Appalachians: evidence from shear wave splitting Gilligan, Amy Bastow, Ian D. Watson, Emma Darbyshire, Fiona A. Levin, Vadim Menke, William Lane, Victoria Hawthorn, David Boyce, Alistair Liddell, Mitchell V. Petrescu, Laura 2016-06 application/pdf http://www.archipel.uqam.ca/8917/1/Gilligan_et_al_GeophysJInt_2016_1273-80.pdf en eng http://www.archipel.uqam.ca/8917/ http://dx.doi.org/10.1093/gji/ggw207 doi:10.1093/gji/ggw207 Body waves Seismic anisotropy Continental tectonics compressional Continental tectonics: extensional North America Article de revue scientifique PeerReviewed 2016 ftunivquebec https://doi.org/10.1093/gji/ggw207 2017-10-21T23:03:30Z Plate-scale deformation is expected to impart seismic anisotropic fabrics on the lithosphere. Determination of the fast shear wave orientation (φ) and the delay time between the fast and slow split shear waves (δt) via SKS splitting can help place spatial and temporal constraints on lithospheric deformation. The Canadian Appalachians experienced multiple episodes of deformation during the Phanerozoic: accretionary collisions during the Palaeozoic prior to the collision between Laurentia and Gondwana, and rifting related to the Mesozoic opening of the North Atlantic. However, the extent to which extensional events have overprinted older orogenic trends is uncertain. We address this issue through measurements of seismic anisotropy beneath the Canadian Appalachians, computing shear wave splitting parameters (φ, δt) for new and existing seismic stations in Nova Scotia and New Brunswick. Average δt values of 1.2 s, relatively short length scale (≥100 km) splitting parameter variations, and a lack of correlation with absolute plate motion direction and mantle flow models, demonstrate that fossil lithospheric anisotropic fabrics dominate our results. Most fast directions parallel Appalachian orogenic trends observed at the surface, while δt values point towards coherent deformation of the crust and mantle lithosphere. Mesozoic rifting had minimal impact on our study area, except locally within the Bay of Fundy and in southern Nova Scotia, where fast directions are subparallel to the opening direction of Mesozoic rifting; associated δt values of >1 s require an anisotropic layer that spans both the crust and mantle, meaning the formation of the Bay of Fundy was not merely a thin-skinned tectonic event. Text North Atlantic UQAM - Université du Québec à Montréal: archipel Geophysical Journal International 206 2 1273 1280
institution Open Polar
collection UQAM - Université du Québec à Montréal: archipel
op_collection_id ftunivquebec
language English
topic Body waves
Seismic anisotropy
Continental tectonics
compressional
Continental tectonics: extensional
North America
spellingShingle Body waves
Seismic anisotropy
Continental tectonics
compressional
Continental tectonics: extensional
North America
Gilligan, Amy
Bastow, Ian D.
Watson, Emma
Darbyshire, Fiona A.
Levin, Vadim
Menke, William
Lane, Victoria
Hawthorn, David
Boyce, Alistair
Liddell, Mitchell V.
Petrescu, Laura
Lithospheric deformation in the Canadian Appalachians: evidence from shear wave splitting
topic_facet Body waves
Seismic anisotropy
Continental tectonics
compressional
Continental tectonics: extensional
North America
description Plate-scale deformation is expected to impart seismic anisotropic fabrics on the lithosphere. Determination of the fast shear wave orientation (φ) and the delay time between the fast and slow split shear waves (δt) via SKS splitting can help place spatial and temporal constraints on lithospheric deformation. The Canadian Appalachians experienced multiple episodes of deformation during the Phanerozoic: accretionary collisions during the Palaeozoic prior to the collision between Laurentia and Gondwana, and rifting related to the Mesozoic opening of the North Atlantic. However, the extent to which extensional events have overprinted older orogenic trends is uncertain. We address this issue through measurements of seismic anisotropy beneath the Canadian Appalachians, computing shear wave splitting parameters (φ, δt) for new and existing seismic stations in Nova Scotia and New Brunswick. Average δt values of 1.2 s, relatively short length scale (≥100 km) splitting parameter variations, and a lack of correlation with absolute plate motion direction and mantle flow models, demonstrate that fossil lithospheric anisotropic fabrics dominate our results. Most fast directions parallel Appalachian orogenic trends observed at the surface, while δt values point towards coherent deformation of the crust and mantle lithosphere. Mesozoic rifting had minimal impact on our study area, except locally within the Bay of Fundy and in southern Nova Scotia, where fast directions are subparallel to the opening direction of Mesozoic rifting; associated δt values of >1 s require an anisotropic layer that spans both the crust and mantle, meaning the formation of the Bay of Fundy was not merely a thin-skinned tectonic event.
format Text
author Gilligan, Amy
Bastow, Ian D.
Watson, Emma
Darbyshire, Fiona A.
Levin, Vadim
Menke, William
Lane, Victoria
Hawthorn, David
Boyce, Alistair
Liddell, Mitchell V.
Petrescu, Laura
author_facet Gilligan, Amy
Bastow, Ian D.
Watson, Emma
Darbyshire, Fiona A.
Levin, Vadim
Menke, William
Lane, Victoria
Hawthorn, David
Boyce, Alistair
Liddell, Mitchell V.
Petrescu, Laura
author_sort Gilligan, Amy
title Lithospheric deformation in the Canadian Appalachians: evidence from shear wave splitting
title_short Lithospheric deformation in the Canadian Appalachians: evidence from shear wave splitting
title_full Lithospheric deformation in the Canadian Appalachians: evidence from shear wave splitting
title_fullStr Lithospheric deformation in the Canadian Appalachians: evidence from shear wave splitting
title_full_unstemmed Lithospheric deformation in the Canadian Appalachians: evidence from shear wave splitting
title_sort lithospheric deformation in the canadian appalachians: evidence from shear wave splitting
publishDate 2016
url http://www.archipel.uqam.ca/8917/1/Gilligan_et_al_GeophysJInt_2016_1273-80.pdf
genre North Atlantic
genre_facet North Atlantic
op_relation http://www.archipel.uqam.ca/8917/
http://dx.doi.org/10.1093/gji/ggw207
doi:10.1093/gji/ggw207
op_doi https://doi.org/10.1093/gji/ggw207
container_title Geophysical Journal International
container_volume 206
container_issue 2
container_start_page 1273
op_container_end_page 1280
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