Subduction- and exhumation-related structures preserved in metaserpentinites and associated metasediments from the Nevado–Filábride Complex (Betic Cordillera, SE Spain)

The Cerro del Almirez massif (Nevado–Filábride Complex, Betic Cordillera, SE Spain) is composed of antigorite (Atg-) serpentinite and chlorite (Chl-) harzburgite separated by a thin reaction front formed in a palaeo-subduction setting. These ultramafic rocks preserve unique prograde structures relat...

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Bibliographic Details
Published in:Tectonophysics 2015-03, Vol.644-645, p.40-57
Main Authors: Jabaloy-Sánchez, Antonio, Gómez-Pugnaire, María Teresa, Padrón-Navarta, José Alberto, López Sánchez-Vizcaíno, Vicente, Garrido, Carlos J.
Format: Article
Language:English
Subjects:
Atg-serpentinite
Betic Chain
Brittle deformations
Brucite
Chl-harzburgite
Chlorites
Earth Sciences
Embrittlement
Olivine
Petrography
Preserves
Rocks
Sciences of the Universe
Shear zone
Stretching
Transpressional deformation
Tremolite
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Summary:The Cerro del Almirez massif (Nevado–Filábride Complex, Betic Cordillera, SE Spain) is composed of antigorite (Atg-) serpentinite and chlorite (Chl-) harzburgite separated by a thin reaction front formed in a palaeo-subduction setting. These ultramafic rocks preserve unique prograde structures related to the pre- and peak high-pressure event (1.6–1.9GPa and 680–710°C). The oldest subduction-related structures are preserved in Atg-serpentinites: a penetrative S1 foliation and associated L1 stretching lineation that formed in a non-coaxial regime with a top-to-the-W sense of shear. This planar–linear fabric is crosscut by olivine±Ti-clinohumite veins, formed during the prograde breakdown of brucite and pre-metamorphic clinopyroxene, which form a system of veins decimetres long. They record embrittlement processes due to the release of 6vol.% of H2O associated with brucite dehydration. The growth of prograde olivine and/or tremolite porphyroblasts is syn- to post-kinematic in relation to the S1 foliation. Further reactions at higher temperature related to the complete breakdown of the Atg (i.e. Atg-out) are post-kinematic to S1. Prograde Chl-harzburgite is crosscut by sets of conjugate zones associated with grain-size reduction of olivine grains. These grain-size reduction zones are interpreted as brittle structures generated by hydrofracturing due to overpressure fluids in a compressional setting at low-differential stresses. Structures related to the exhumation process are mainly preserved in the metasedimentary host rock, where an S2/L2 planar–linear fabric developed within a shear zone dominated by a non-coaxial regime with a top-to-the-W sense of movement in a transpressional regime. Peak metamorphic conditions deduced for the schists are similar in pressure (1.3–1.9GPa) but lower in temperature (560–590°C) compared to the ultramafic rocks in contact with them, suggesting a major shear zone at the base of the ultramafic massif during D2 deformation in a right-handed transpressional regime. •We analyse prograde structures related to HP-LT metamorphism in a subduction setting.•Embrittlement at low differential stresses is active at least till 70km of depth.•Transpressional shear zones thrust ultramafic rocks on top of the continental rocks.•The Upper Nevado–Filábride unit results from amalgamation of ancient tectonic units.
ISSN:0040-1951
1879-3266
DOI:10.1016/j.tecto.2014.12.022