Cooling History and Exhumation of Lower-Crustal Granulite and Upper Mantle (Malenco, Eastern Central Alps)

doi:10.1093/petrology/41.2.175

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Journal of Petrology Volume 41 Number 2 Pages 175-200 2000
© Oxford University Press 2000

Cooling History and Exhumation of Lower-Crustal Granulite and Upper Mantle (Malenco, Eastern Central Alps)

OTHMAR MÜNTENER^,*, JÖRG HERMANN^, and VOLKMAR TROMMSDORFF

INSTITUT FÜR MINERALOGIE UND PETROGRAPHIE, ETH ZÜRICH, CH 8092 ZÜRICH, SWITZERLAND

The Braccia gabbro of Val Malenco, Italian Alps, intruded 275My ago during Early Permian lithospheric extension. The intrusiontook place along the crust–mantle transition zone andcaused granulite metamorphism of lower-crustal and upper-mantlerocks. The magmatic crystallization of the gabbro was outlastedby ductile deformation, which is also observed in the otherrocks of the crust–mantle transition. Two stages of retrogrademetamorphism followed. Mineral parageneses in garnet–kyanitegneiss, metagabbro, and metaperidotite record a first stageof near-isobaric cooling under anhydrous conditions. The stabilizedcrust–mantle transition then persisted over a period ofabout 50 My into the Late Triassic. Exhumation of the crust–mantlecomplex began with the onset of continental rifting during EarlyJurassic. This stage of retrograde metamorphism is recordedby near-isothermal decompression and partial hydration of thegranulitic mineral assemblages. The whole crust-to-mantle complexwas then exposed in the Tethyan ocean near its Adriatic margin.The magmatic assemblage of the Braccia gabbro formed at 1–1·2GPa and 1150–1250°C. Microstructures show that thegabbroic rocks evolved from olivine gabbros through spinel togarnet granulite whereas the peridotites recrystallized withinthe spinel peridotite field and the pelitic granulites remainedin the stability field of kyanite. Such an evolution is characteristicof isobaric cooling after magmatic underplating. Granuliticmineral assemblages record cooling from 850°C to 650°Cwith decompression to 0·8 ± 0·1 GPa, anddP/dT < $~$ 0·15 GPa/100°C. During later hydration,Cl-rich amphibole and biotite + plagioclase formed in the gabbros,clinozoisite + phengite + paragonite ± staurolite ±chloritoid in the metapelites and olivine + tremolite + chlorite± talc in the ultramafic rocks at metamorphic conditionsof 0·9 ± 0·1 GPa and 600 ± 50°C.Subsequent retrograde metamorphism involved decompression of $~$ 0·3 GPa and cooling to $~$ 500°C, consistent with thepreservation of the olivine + tremolite + talc assemblage inultramafic rocks. Estimated uplift rates of 1–2 mm/yearindicate a 15–30 My exhumation related to Jurassic rifting.The two-stage retrograde path of the Malenco granulites separatedby >50 My suggests that Permian extension and Jurassic riftingare two independent tectonic processes. The presence of hydrous,Cl-rich minerals at 600 ± 50°C and 0·8 ±0·1 GPa requires input of externally derived fluids atthe base of 30 km thick continental crust into previously drygranulites at the onset of Jurassic rifting. These fluids weregenerated by dehydration of continental crust juxtaposed duringrifting with the hot, exhuming granulite complex along a activeshear zone.

KEY WORDS: subcontinental lithospheric mantle; granulite; continental rifting; retrograde metamorphism; Malenco

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