Experimental determination of H\(_{{2}}\)O and CO\(_{{2}}\) solubilities of mafic alkaline magmas from Canary Islands

We present new H2O and CO2 solubility data in mafic to intermediate alkaline magmas from Fasnia and Garachico volcanoes, Tenerife. H2O- and CO2-saturated experiments were conducted at \({\sim }\)50–400 MPa, 1200 °C, and \(f\)O2 from 2 log units below the NiNiO solid buffer to 3.2 log units above it....

Full description

Saved in:
Bibliographic Details
Published in:Comptes rendus. Geoscience 2021-11, Vol.353 (S2), p.289-314
Main Authors: Jiménez-Mejías, María, Andújar, Joan, Scaillet, Bruno, Casillas, Ramón
Format: Article
Language:English
Subjects:
Alkaline magmas
Canary Islands
Carbon dioxide
CO$_2
Crystallization
Degassing
El Hierro
H$_2$O
Melt inclusions
Oceanic islands
Solubility
Volcanic islands
Volcanoes
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We present new H2O and CO2 solubility data in mafic to intermediate alkaline magmas from Fasnia and Garachico volcanoes, Tenerife. H2O- and CO2-saturated experiments were conducted at \({\sim }\)50–400 MPa, 1200 °C, and \(f\)O2 from 2 log units below the NiNiO solid buffer to 3.2 log units above it. Although existing solubility models for alkali-rich mafic magmas broadly describe H2O and CO2 behaviour, associated errors are worthy of consideration since they usually exceed 15–20%. For this reason, we have determined the specific solubility laws of basanitic and phonotephritic melts from the Canary Islands. Results show similar H2O solubilities for both compositions, whereas the basanite can dissolve an average of \({\sim }\)45% more CO2 than the phonotephrite. By combining these data, we have established a simple empirical model that allows us to calculate melt inclusion entrapment pressures accurately and, therefore, better understand the inner workings of volcanic oceanic islands. Application to El Hierro 2011–2012 and young (\({
ISSN:1631-0713
1778-7025
DOI:10.5802/crgeos.84