A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatism

A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatism

Abstract The Briançonnais Domain (Western Alps) represented the thinned continental margin facing the Piemonte-Liguria Ocean, later shortened during the Alpine orogeny. In the external part of the External Briançonnais Domain (Zone Houillère), the Palaeozoic basement displays microdioritic intrusion...

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Main Authors: Michel Ballèvre, Audrey Camonin, Paola Manzotti, Marc Poujol
Format: Article
Language:English
Published: SpringerOpen 2020-09-01
Series:Swiss Journal of Geosciences
Subjects:
Permian
Andesite
Briançonnais
Lawsonite
Dora-Maira
Online Access:https://doi.org/10.1186/s00015-020-00367-1
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spelling doaj-fb64ef4d1b8746ecaf7aad640b95debc2021-10-03T11:54:14ZengSpringerOpenSwiss Journal of Geosciences1661-87261661-87342020-09-01113112810.1186/s00015-020-00367-1A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatismMichel Ballèvre0Audrey Camonin1Paola Manzotti2Marc Poujol3CNRS, Géosciences Rennes-UMR 6118, Univ. RennesCNRS, Géosciences Rennes-UMR 6118, Univ. RennesDepartment of Geological Sciences, Stockholm UniversityCNRS, Géosciences Rennes-UMR 6118, Univ. RennesAbstract The Briançonnais Domain (Western Alps) represented the thinned continental margin facing the Piemonte-Liguria Ocean, later shortened during the Alpine orogeny. In the external part of the External Briançonnais Domain (Zone Houillère), the Palaeozoic basement displays microdioritic intrusions into Carboniferous sediments and andesitic volcanics resting on top of the Carboniferous sediments. These magmatic rocks are analysed at two well-known localities (Guil volcanics and Combarine sill). Geochemical data show that the two occurrences belong to the same calc-alkaline association. LA-ICP-MS U–Pb ages have been obtained for the Guil volcanics (zircon: 291.3 ± 2.0 Ma and apatite: 287.5 ± 2.6 Ma), and the Combarine sill (zircon: 295.9 ± 2.6 Ma and apatite: 288.0 ± 4.5 Ma). These ages show that the calc-alkaline magmatism is of Early Permian age. During Alpine orogeny, a low-grade metamorphism, best recorded by lawsonite-bearing veins in the Guil andesites, took place at about 0.4 GPa, 350 °C in the External Briançonnais and Alpine metamorphism was not able to reset the U–Pb system in apatite. The Late Palaeozoic history of the Zone Houillère is identical to the one recorded in the Pinerolo Unit, located further East in the Dora-Maira Massif, and having experienced a garnet-blueschist metamorphism during the Alpine orogeny. The comparison of these two units allows for a better understanding of the link between the Palaeozoic basements, mostly subducted during the Alpine convergence, and their Mesozoic covers, generally detached at an early stage of the convergence history.https://doi.org/10.1186/s00015-020-00367-1PermianAndesiteBriançonnaisLawsoniteDora-Maira
collection DOAJ
language English
format Article
sources DOAJ
author Michel Ballèvre
Audrey Camonin
Paola Manzotti
Marc Poujol
spellingShingle Michel Ballèvre
Audrey Camonin
Paola Manzotti
Marc Poujol
A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatism
Swiss Journal of Geosciences
Permian
Andesite
Briançonnais
Lawsonite
Dora-Maira
author_facet Michel Ballèvre
Audrey Camonin
Paola Manzotti
Marc Poujol
author_sort Michel Ballèvre
title A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatism
title_short A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatism
title_full A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatism
title_fullStr A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatism
title_full_unstemmed A step towards unraveling the paleogeographic attribution of pre-Mesozoic basement complexes in the Western Alps based on U–Pb geochronology of Permian magmatism
title_sort step towards unraveling the paleogeographic attribution of pre-mesozoic basement complexes in the western alps based on u–pb geochronology of permian magmatism
publisher SpringerOpen
series Swiss Journal of Geosciences
issn 1661-8726
1661-8734
publishDate 2020-09-01
description Abstract The Briançonnais Domain (Western Alps) represented the thinned continental margin facing the Piemonte-Liguria Ocean, later shortened during the Alpine orogeny. In the external part of the External Briançonnais Domain (Zone Houillère), the Palaeozoic basement displays microdioritic intrusions into Carboniferous sediments and andesitic volcanics resting on top of the Carboniferous sediments. These magmatic rocks are analysed at two well-known localities (Guil volcanics and Combarine sill). Geochemical data show that the two occurrences belong to the same calc-alkaline association. LA-ICP-MS U–Pb ages have been obtained for the Guil volcanics (zircon: 291.3 ± 2.0 Ma and apatite: 287.5 ± 2.6 Ma), and the Combarine sill (zircon: 295.9 ± 2.6 Ma and apatite: 288.0 ± 4.5 Ma). These ages show that the calc-alkaline magmatism is of Early Permian age. During Alpine orogeny, a low-grade metamorphism, best recorded by lawsonite-bearing veins in the Guil andesites, took place at about 0.4 GPa, 350 °C in the External Briançonnais and Alpine metamorphism was not able to reset the U–Pb system in apatite. The Late Palaeozoic history of the Zone Houillère is identical to the one recorded in the Pinerolo Unit, located further East in the Dora-Maira Massif, and having experienced a garnet-blueschist metamorphism during the Alpine orogeny. The comparison of these two units allows for a better understanding of the link between the Palaeozoic basements, mostly subducted during the Alpine convergence, and their Mesozoic covers, generally detached at an early stage of the convergence history.
topic Permian
Andesite
Briançonnais
Lawsonite
Dora-Maira
url https://doi.org/10.1186/s00015-020-00367-1
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