Inherited Ocean–Continent Transition zones in deeply subducted terranes: Insights from Alpine Corsica

In the Schistes Lustrés of Alpine Corsica (France) serpentinized mantle rocks are associated with continental basement and meta-volcanic/-sedimentary cover rocks. The relationships among these different lithologies are especially well exposed in the Monte San Petrone unit, where Alpine metamorphism...

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Veröffentlicht in:Lithos 2011-06, Vol.124 (3), p.273-290
Hauptverfasser: Vitale Brovarone, Alberto, Beltrando, Marco, Malavieille, Jacques, Giuntoli, Francesco, Tondella, Ermete, Groppo, Chiara, Beyssac, Olivier, Compagnoni, Roberto
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container_end_page 290
container_issue 3
container_start_page 273
container_title Lithos
container_volume 124
creator Vitale Brovarone, Alberto
Beltrando, Marco
Malavieille, Jacques
Giuntoli, Francesco
Tondella, Ermete
Groppo, Chiara
Beyssac, Olivier
Compagnoni, Roberto
description In the Schistes Lustrés of Alpine Corsica (France) serpentinized mantle rocks are associated with continental basement and meta-volcanic/-sedimentary cover rocks. The relationships among these different lithologies are especially well exposed in the Monte San Petrone unit, where Alpine metamorphism reached lawsonite-eclogite conditions. The contact between serpentinites and slivers of continental basement, relatively flat-lying over several kilometers, is characterized by evidence of cataclastic deformation pre-dating Alpine High-Pressure ductile fabrics. The serpentinite/continental basement pair is stratigraphically overlain by metasediments with a typical Jurassic–Cretaceous supra-ophiolitic lithostratigraphy, with metaradiolarites passing upward to marbles and calcschists. Noticeably, no evidence of cataclastic deformation is found in metasediments. These observations indicate that the lithostratigraphy of the Monte San Petrone unit was established during a pre-Alpine polyphase evolution, which culminated in extensive brittle deformation along a flat-lying detachment fault prior to the deposition of Jurassic sediments. We suggest that the inferred Mesozoic extensional tectonics were related to the opening of the Western Tethys. The Mesozoic architecture of the Monte San Petrone area, which is typical of an Ocean–Continent Transition (OCT) zone, was preserved despite Alpine deformation and metamorphism, when the different lithologies (i.e. meta-ophiolites, continent-derived rocks and metasediments) underwent a common metamorphic evolution, culminating at T = 490–550 °C and P = 2.2–2.6 GPa. Similar tectono-stratigraphic associations are observed in other high-pressure terranes of Alpine Corsica, suggesting that inherited OCT-type domains may be common in Alpine-type orogens. ► The HP units of Alpine Corsica underwent Law-eclogite or Law-blueschist metamorphism. ► These units consist of associated continental basement rocks, metaophiolites and metasediments. ► Preserved primary rifting-related tectonic and sedimentary contacts separate these lithologies. ► The resulting tectono-stratigraphy indicates that these units represent inherited OCT.
doi_str_mv 10.1016/j.lithos.2011.02.013
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subjects Alpine Corsica
Earth Sciences
Environmental Sciences
Global Changes
Lawsonite eclogite
Ocean–Continent Transition
Sciences of the Universe
Structural inheritance
Tectonics
Tethyan rifting
title Inherited Ocean–Continent Transition zones in deeply subducted terranes: Insights from Alpine Corsica
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