Feignon J. G., Cluzel N., Schiavi Federica, Moune S., Roche Olivier, Clavero J., Schiano P., Auxerre M. (2022). High CO2 content in magmas of the explosive andesitic Enco eruption of Mocho-Choshuenco volcano (Chile). Bulletin of Volcanology, 84 (4), 40 [20 p.]. ISSN 0258-8900.
Titre du document
High CO2 content in magmas of the explosive andesitic Enco eruption of Mocho-Choshuenco volcano (Chile)
Année de publication
2022
Auteurs
Feignon J. G., Cluzel N., Schiavi Federica, Moune S., Roche Olivier, Clavero J., Schiano P., Auxerre M.
Source
Bulletin of Volcanology, 2022,
84 (4), 40 [20 p.] ISSN 0258-8900
Mocho-Choshuenco volcano has produced several highly explosive eruptions during its history, which make it one of the most hazardous volcanoes in the southern volcanic zone of Chile, although it is still relatively little studied to date. We present a geochemical study of the products of the sub-Plinian, andesitic, Enco eruption that occurred about 1600 years ago. We determined the major and trace elements compositions, as well as the volatile (H2O, CO2, Cl, and S) contents of melt inclusions trapped in minerals (olivine, plagioclase, and pyroxene) using electron microprobe, ion microprobe (SIMS), and 3D confocal Raman mapping. Though the whole-rock composition of the Enco magma is andesitic (60.2 +/- 1.1 wt.% SiO2), the melt inclusions have SiO2 contents ranging from 50.3 to 67.3 wt.%, following the magmatic series of Mocho-Choshuenco, and the compositions of the most mafic melt inclusions are close to those of the most mafic erupted magmas. Geochemical modeling indicates that mixing occurred between a mafic magma and an andesitic-to-dacitic magma. Glass analysis revealed typical parental arc magma values for H O-2 (2.6-3.8 wt.%), S (116-1936 ppm), and Cl (620-1439 ppm). However, CO2 contents are very high in some melt inclusions with concentrations above 4000 ppm (measured in the glass), suggesting trapping depths > similar to 17-22 km. Presence of solid carbonates inside inclusion-hosted bubbles clearly indicates that the CO2 contents measured in the glass phase were minimum values. We conclude that a CO2-rich basaltic magma ascended and mixed with a shallower andesitic magma. The magma cooled and exsolved high amounts of CO2, which may have dramatically increased the pressure and triggered the highly explosive Enco eruption.
Plan de classement
Géologie et formations superficielles [064]
;
Géophysique interne [066]
Description Géographique
CHILI
Localisation
Fonds IRD [F B010084542]
Identifiant IRD
fdi:010084542
