This study provides new mineral chemistry data together with micro-thermometric measurements on fluid inclusions hosted in ultramafic xenoliths (lherzolite, wehrlite, and dunite) brought to the surface by the last Mt. Vulture volcano activity (140 ka; southern Italy), and fed by melilitite-carbonatite magmas. Petrographic evidence and mineralogical compositions of Mt. Vulture xenoliths are consistent with an origin in the upper mantle. Fluid inclusions in rock-forming minerals of lherzolite and wehrlite xenoliths are CO2-dominated. The equilibrium temperature calculated by geothermometric estimates ranges from 1039 C (+/- 36 degrees C) to 1142 degrees C (+/- 15 degrees C), and entrapment pressures of fluid inclusions with post-trapping re-equilibration correspond to the local crust-mantle boundary (32 km depth), and to a shallow reservoir located at 12-14 km depth. These results contribute to constrain the origin of these xenoliths and the depth of storage of magmas erupted from Mt. Vulture, where carbonatite-like metasomatism and mantle-derived CO2 degassing occur.
Carnevale, G., Caracausi, A., Coltorti, M., Faccini, B., Marras, G., Paternoster, M., et al. (2024). CO2‐Rich Xenoliths at Mt. Vulture Volcano (Southern Italy): New Constraints on the Volcano Plumbing System. TERRA NOVA [10.1111/ter.12745].
CO2‐Rich Xenoliths at Mt. Vulture Volcano (Southern Italy): New Constraints on the Volcano Plumbing System
Carnevale, Gabriele
;Paternoster, Michele;Rotolo, Silvio Giuseppe;Stagno, Vincenzo;Zummo, Filippo
2024-08-01
Abstract
This study provides new mineral chemistry data together with micro-thermometric measurements on fluid inclusions hosted in ultramafic xenoliths (lherzolite, wehrlite, and dunite) brought to the surface by the last Mt. Vulture volcano activity (140 ka; southern Italy), and fed by melilitite-carbonatite magmas. Petrographic evidence and mineralogical compositions of Mt. Vulture xenoliths are consistent with an origin in the upper mantle. Fluid inclusions in rock-forming minerals of lherzolite and wehrlite xenoliths are CO2-dominated. The equilibrium temperature calculated by geothermometric estimates ranges from 1039 C (+/- 36 degrees C) to 1142 degrees C (+/- 15 degrees C), and entrapment pressures of fluid inclusions with post-trapping re-equilibration correspond to the local crust-mantle boundary (32 km depth), and to a shallow reservoir located at 12-14 km depth. These results contribute to constrain the origin of these xenoliths and the depth of storage of magmas erupted from Mt. Vulture, where carbonatite-like metasomatism and mantle-derived CO2 degassing occur.
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