Coexistence of lawsonite‐bearing eclogite and blueschist: phase equilibria modelling of Alpine Corsica metabasalts and petrological evolution of subducting slabs |
| |
Authors: | A. VITALE BROVARONE C. GROPPO G. HETÉNYI R. COMPAGNONI J. MALAVIEILLE |
| |
Affiliation: | 1. Department of Mineralogical and Petrological Sciences, University of Torino, I‐10125 Torino, Italy (alberto.vitale@unito.it);2. Laboratoire Géosciences Montpellier, UMR 5243, CNRS Université Montpellier 2, 34095 Montpellier Cedex 5, France;3. Department of Earth Sciences, ETH Zurich, 8092 Zurich, Switzerland |
| |
Abstract: | In Alpine Corsica (France), deeply subducted metabasalts are well preserved as lawsonite‐bearing eclogite (Law‐Ecl), occurrence of which is restricted to ~10 localities worldwide. The Corsican Law‐Ecl, consisting of omphacite + lawsonite + garnet + phengite + titanite, occurs as both single undeformed metabasaltic pillows surrounded by lawsonite blueschist (Law‐Bs), and carbonate‐bearing eclogitic veins. Law‐Bs are found as variably deformed metabasaltic pillows locally cross‐cut by eclogitic veins and consist of glaucophane + actinolite + lawsonite + garnet + phengite + titanite. Field evidence and microstructures reveal that both Law‐Ecl and Law‐Bs are stable at the metamorphic peak in the lawsonite‐eclogite stability field. Isochemical phase diagrams (pseudosections) calculated for representative Law‐Ecl and Law‐Bs samples indicate that both lithologies equilibrated at the same conditions of ~520 ± 20 °C and 2.3 ± 0.1 GPa. Therefore, the coexistence at the same peak metamorphic conditions of Law‐Ecl and Law‐Bs implies that different portions of deeply subducted oceanic crust may store significantly different H2O contents, depending on bulk‐rock chemical composition. In addition, thermodynamic modelling of phase equilibria indicates that the occurring progressive dehydration reactions, which are significantly depending on bulk‐rock chemical composition, strongly influence rock densification and eclogite formation in subducting slabs. |
| |
Keywords: | Alpine Corsica dehydration processes lawsonite breakdown lawsonite‐eclogite slab densification |
|
|