Subduction zone intermediate-depth seismicity: Insights from the structural analysis of Alpine high-pressure ophiolite-hosted pseudotachylyte (Corsica, France)

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TitreSubduction zone intermediate-depth seismicity: Insights from the structural analysis of Alpine high-pressure ophiolite-hosted pseudotachylyte (Corsica, France)
Type de publicationJournal Article
Year of Publication2016
AuteursMagott R, Fabbri O, Fournier M
JournalJOURNAL OF STRUCTURAL GEOLOGY
Volume87
Pagination95-114
Date PublishedJUN
Type of ArticleArticle
ISSN0191-8141
Mots-clésAlpine Corsica, intermediate-depth seismicity, Metagabbro, Peridotite, Pseudotachylyte, subduction
Résumé

Pseudotachylyte in the Cima di Gratera ophiolite, Alpine Corsica, is distributed in the peridotite unit and in the overlying metagabbro unit and was formed under blueschist to eclogite metamorphic facies conditions, corresponding to a 60-90 km depth range. Peridotite pseudotachylyte is clustered in fault zones either beneath the tectonic contact with overlying metagabbros or at short distance from it. Fault zones are either parallel to the contact or make an angle of 55 degrees to it. Displacement sense criteria associated with fault veins indicate top-to-the-west or top-to-the-northwest reverse senses. Cataclasite flanking most veins was formed before or coevally with frictional melting and likely mechanically weakened the peridotite, facilitating subsequent seismic rupture. In the basal part of the metagabbro unit, post-mylonitization pseudotachylyte can be distinguished from pre-mylonitization pseudotachylyte formed earlier. In the equant metagabbro above the mylonitic sole, only one episode of pseudotachylyte formation can be identified. Kinematics associated with metagabbro pseudotachylyte remain unknown. The geometry and kinematics of the pseudotachylyte veins from the peridotite unit and to a lesser extent from the metagabbro unit are similar to modern seismic ruptures of the upper parts of the WadatiBenioff zones such as in the Pacific plate beneath NE Japan. (C) 2016 Elsevier Ltd. All rights reserved.

DOI10.1016/j.jsg.2016.04.002