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Quantifying magmatic volatiles by Raman microtomography of glass inclusion-hosted bubbles

Federica Schiavi, Nathalie Bolfan‐Casanova, Roxane Buso, Mickaël Laumonier, Didier Laporte, Kadda Medjoubi, Swetha Venugopal, Alejandra Gómez-Ulla, Nicolas Cluzel, M. Hardiagon

2020Geochemical Perspectives Letters30 citationsDOIOpen Access PDF

Abstract

We present a novel application of Raman microtomography for quantitative characterisation of glass inclusion-hosted bubbles, which allows for the simultaneous identification and volumetric quantification of mineral and fluid phases filling the bubble. The combination of Raman microtomography with synchrotron XRF mapping and scanning electron microscopy provides a complete compositional and textural characterisation of the bubble. In the studied samples, minerals are systematically present on the walls of the bubbles: dominantly carbonates in samples from continental intraplate and hotspot volcanic provinces, and sulfates in the sample from subductionrelated settings. Along with fluid CO 2 , carbonates sequester 65 to 84 % of the CO 2 originally dissolved in the melt, while 18 to 60 % of the sulfur contained in the inclusion is stored in sulfides and/or sulfates. Thus, the total melt inclusion CO 2 and S contents can be underestimated (by up to 40 % and 60 %, respectively) if minerals in the bubbles are neglected. This study highlights the importance of 3D mapping of shrinkage bubbles hosted in glass inclusions for a better assessment of the bulk pre-eruptive contents of volatiles in magmas.

Topics & Concepts

Raman spectroscopyMelt inclusionsGeologyInclusion (mineral)MineralogyGeochemistryMaterials scienceOlivineOpticsPhysicsGeological and Geochemical AnalysisHydrocarbon exploration and reservoir analysisGeochemistry and Geologic Mapping
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