The juxtaposition of eclogite and mid‐crustal rocks in the Orlica–Śnieżnik Dome,Bohemian Massif |
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| Authors: | P ?TÍPSKÁ F CHOPIN E SKRZYPEK K SCHULMANN P PITRA O LEXA J E MARTELAT C BOLLINGER E ?Á?KOVÁ |
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| Institution: | 1. Ecole et Observatoire des Sciences de la Terre, Institut de Physique du Globe – CNRS UMR 7516, Université de Strasbourg, 1 rue Blessig, F‐67084 Strasbourg Cedex, France (stipska@gmail.com);2. Geosciences Rennes – CNRS UMR6118, Université Rennes 1, Campus de Beaulieu, F‐35042 Rennes Cedex, France;3. Institute of Petrology and Structural Geology, Charles University, Albertov 6, CZ‐12843 Praha, Czech Republic;4. Czech Geological Survey, Klárov 3, 110 00 Praha, Czech Republic;5. Laboratoire de Géologie de Lyon – CNRS UMR5276, Université Claude Bernard et Ecole Normale Supérieure, F‐69622 Villeurbanne, France;6. Unité Matériaux et Transformations – CNRS UMR8207, Université Lille 1, Bat. C6, F‐59655 Villeneuve d?’Ascq, France |
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| Abstract: | Eclogite, felsic orthogneiss and garnet–staurolite metapelite occur in a 5 km long profile in the area of Mi?dzygórze in the Orlica–?nie?nik dome (Bohemian Massif). Petrographic observations and mineral equilibria modelling, in the context of detailed structural work, are used to document the close juxtaposition of high‐pressure and medium‐pressure rocks. The structural succession in all lithologies shows an early shallow‐dipping fabric, S1, that is folded by upright folds and overprinted by a heterogeneously developed subvertical foliation, S2. Late recumbent folds associated with a weak shallow‐dipping axial‐plane cleavage, S3, occur locally. The S1 fabric in the eclogite is defined by alternation of garnet‐rich (grs = 22–29 mol.%) and omphacite‐rich (jd = 33–36 mol.%) layers with oriented muscovite (Si = 3.26–3.31 p.f.u.) and accessory kyanite, zoisite, rutile and quartz, indicating conditions of ~19–22 kbar and ~700–750 °C. The assemblage in the retrograde S2 fabric is formed by amphibole, plagioclase, biotite and relict rutile surrounded by ilmenite and sphene that is compatible with decompression and cooling from ~9 kbar and ~730 °C to 5–6 kbar and 600–650 °C. The S3 fabric contains in addition domains with albite, chlorite, K‐feldspar and magnetite indicating cooling to greenschist facies conditions. The metapelites are composed of garnet, staurolite, muscovite, biotite, quartz, ilmenite and chlorite. Chemical zoning of garnet cores that contain straight ilmenite and staurolite inclusion trails oriented perpendicular to the external S2 fabric indicates prograde growth, from ~5 kbar and ~520 °C to ~7 kbar and ~610 °C, during the formation of the S1 fabric. Inclusion trails parallel with the S2 fabric at garnet and staurolite rims are interpreted to be a continuation of the prograde path to ~7.5 and ~630 °C in the S2 fabric. Matrix chlorite parallel to the S2 foliation indicates that the subvertical fabric was still active below 550 °C. The axial planar S2 fabrics developed during upright folding are associated with retrogression of the eclogite under amphibolite facies conditions, and with prograde evolution in the metapelites, associated with their juxtaposition. The shared part of the eclogite and metapelite P–T paths during the development of the subvertical fabric reflects their exhumation together. |
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| Keywords: | Bohemian Massif crustal‐scale folding eclogite exhumation pseudosection modelling |
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