Stratigraphic and geochemical constraints on the relative age of the Margaree Shear Zone in western Cape Breton Island, with implications for the early evolution of the Maritimes Basin

The Margaree Shear Zone is interpreted to be a thick, brittle-ductile low-angle extensional fault which was active in the Mid to Late Devonian at the lime of initiation of the Maritimes Basin. In western Cape Breton Island, the fault separates two distinct basalt assemblages: low-grade to non-metamo...

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Published in:Atlantic Geology
Main Author: Lynch, Gregory
Format: Article in Journal/Newspaper
Language:English
Published: Atlantic Geoscience Society 1996
Subjects:
Breton Island
Tait
Online Access:https://journals.lib.unb.ca/index.php/ag/article/view/2075
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spelling ftuninewbrunojs:oai:ojs.journals.lib.unb.ca:article/2075 2023-05-15T15:46:45+02:00 Stratigraphic and geochemical constraints on the relative age of the Margaree Shear Zone in western Cape Breton Island, with implications for the early evolution of the Maritimes Basin Lynch, Gregory 1996-04-01 application/pdf https://journals.lib.unb.ca/index.php/ag/article/view/2075 eng eng Atlantic Geoscience Society https://journals.lib.unb.ca/index.php/ag/article/view/2075/2439 https://journals.lib.unb.ca/index.php/ag/article/view/2075 Copyright (c) 2015 Atlantic Geology Atlantic Geoscience; Vol. 32 No. 1 (1996) 2564-2987 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion research-article 1996 ftuninewbrunojs 2022-07-11T11:41:57Z The Margaree Shear Zone is interpreted to be a thick, brittle-ductile low-angle extensional fault which was active in the Mid to Late Devonian at the lime of initiation of the Maritimes Basin. In western Cape Breton Island, the fault separates two distinct basalt assemblages: low-grade to non-metamorphosed intra-continental basalts of the Upper Devonian Fisset Brook Formation occur in the hangingwall, whereas more primitive Ordovician-Sil-urian basalts, which were metamorphosed in Early Devonian time, to upper green schist grade occur in the foot-wall. Major and trace element geochemistry from mylonitic basalt near the top of the shear zone demonstrate that the Fisset Brook Formation has been affected by the shearing. In particular the mylonitcs of Fisset Brook affinity are characterized by higher Ti, Zr, P, Y, and Ga contents, and lower Ni, Cr, and Mg values compared to the older basalts. Elemental plots arc represented as ratios to eliminate enrichment or dilution factors caused by mobile elements such as Si, Ca, K, and Na. The age of the shear zone is further constrained in the region by an unconformity, which displays Tournaisian conglomerate of the Horton Group resting directly on the flat-lying mylonite, the former composed of clasts including mylonite as well as non-deformed vesicular basalt of the Fisset Brook Formation. RÉSUMÉ La zone de cisaillcment de Margaree est interprétée comme une faille de distension subhorizontale cassante-déformable épaisse qui était active à l’époque du Dévonien moyen au Dévonien supérieur, au commencement de l’établissement du bassin des Maritimes. Dans l’ouest de l’ile du Cap-Breton, la faille sépare deux assemblages basaltiques distincts : des basaltes intracontinentaux de faible teneur à non métamorphisés de la Formation du Devonien supérieur de Fisset Brook sont présents dans la lèvre ... Article in Journal/Newspaper Breton Island University of New Brunswick: Centre for Digital Scholarship Journals Breton Island ENVELOPE(141.383,141.383,-66.800,-66.800) Tait ENVELOPE(-58.000,-58.000,-64.350,-64.350) Atlantic Geology 32 1
institution Open Polar
collection University of New Brunswick: Centre for Digital Scholarship Journals
op_collection_id ftuninewbrunojs
language English
description The Margaree Shear Zone is interpreted to be a thick, brittle-ductile low-angle extensional fault which was active in the Mid to Late Devonian at the lime of initiation of the Maritimes Basin. In western Cape Breton Island, the fault separates two distinct basalt assemblages: low-grade to non-metamorphosed intra-continental basalts of the Upper Devonian Fisset Brook Formation occur in the hangingwall, whereas more primitive Ordovician-Sil-urian basalts, which were metamorphosed in Early Devonian time, to upper green schist grade occur in the foot-wall. Major and trace element geochemistry from mylonitic basalt near the top of the shear zone demonstrate that the Fisset Brook Formation has been affected by the shearing. In particular the mylonitcs of Fisset Brook affinity are characterized by higher Ti, Zr, P, Y, and Ga contents, and lower Ni, Cr, and Mg values compared to the older basalts. Elemental plots arc represented as ratios to eliminate enrichment or dilution factors caused by mobile elements such as Si, Ca, K, and Na. The age of the shear zone is further constrained in the region by an unconformity, which displays Tournaisian conglomerate of the Horton Group resting directly on the flat-lying mylonite, the former composed of clasts including mylonite as well as non-deformed vesicular basalt of the Fisset Brook Formation. RÉSUMÉ La zone de cisaillcment de Margaree est interprétée comme une faille de distension subhorizontale cassante-déformable épaisse qui était active à l’époque du Dévonien moyen au Dévonien supérieur, au commencement de l’établissement du bassin des Maritimes. Dans l’ouest de l’ile du Cap-Breton, la faille sépare deux assemblages basaltiques distincts : des basaltes intracontinentaux de faible teneur à non métamorphisés de la Formation du Devonien supérieur de Fisset Brook sont présents dans la lèvre ...
format Article in Journal/Newspaper
author Lynch, Gregory
spellingShingle Lynch, Gregory
Stratigraphic and geochemical constraints on the relative age of the Margaree Shear Zone in western Cape Breton Island, with implications for the early evolution of the Maritimes Basin
author_facet Lynch, Gregory
author_sort Lynch, Gregory
title Stratigraphic and geochemical constraints on the relative age of the Margaree Shear Zone in western Cape Breton Island, with implications for the early evolution of the Maritimes Basin
title_short Stratigraphic and geochemical constraints on the relative age of the Margaree Shear Zone in western Cape Breton Island, with implications for the early evolution of the Maritimes Basin
title_full Stratigraphic and geochemical constraints on the relative age of the Margaree Shear Zone in western Cape Breton Island, with implications for the early evolution of the Maritimes Basin
title_fullStr Stratigraphic and geochemical constraints on the relative age of the Margaree Shear Zone in western Cape Breton Island, with implications for the early evolution of the Maritimes Basin
title_full_unstemmed Stratigraphic and geochemical constraints on the relative age of the Margaree Shear Zone in western Cape Breton Island, with implications for the early evolution of the Maritimes Basin
title_sort stratigraphic and geochemical constraints on the relative age of the margaree shear zone in western cape breton island, with implications for the early evolution of the maritimes basin
publisher Atlantic Geoscience Society
publishDate 1996
url https://journals.lib.unb.ca/index.php/ag/article/view/2075
long_lat ENVELOPE(141.383,141.383,-66.800,-66.800)
ENVELOPE(-58.000,-58.000,-64.350,-64.350)
geographic Breton Island
Tait
geographic_facet Breton Island
Tait
genre Breton Island
genre_facet Breton Island
op_source Atlantic Geoscience; Vol. 32 No. 1 (1996)
2564-2987
op_relation https://journals.lib.unb.ca/index.php/ag/article/view/2075/2439
https://journals.lib.unb.ca/index.php/ag/article/view/2075
op_rights Copyright (c) 2015 Atlantic Geology
container_title Atlantic Geology
container_volume 32
container_issue 1
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