Journal
GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS
Volume 18, Issue 6, Pages 2120-2132Publisher
AMER GEOPHYSICAL UNION
DOI: 10.1002/2017GC006892
Keywords
volcanic gases; multi-GAS; precursor CO2; SO2 variations; Villarrica volcano; lava lakes
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Funding
- DECADE research initiative of the DCO observatory
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We present here the first volcanic gas compositional time-series taken prior to a paroxysmal eruption of Villarrica volcano (Chile). Our gas plume observations were obtained using a fully autonomous Multi-component Gas Analyser System (Multi-GAS) in the 3 month-long phase of escalating volcanic activity that culminated into the 3 March 2015 paroxysm, the largest since 1985. Our results demonstrate a temporal evolution of volcanic plume composition, from low CO2/SO2 ratios (0.65-2.7) during November 2014-January 2015 to CO2/SO2 ratios up to approximate to 9 then after. The H2O/CO2 ratio simultaneously declined to <38 in the same temporal interval. We use results of volatile saturation models to demonstrate that this evolution toward CO2-enriched gas was likely caused by unusual supply of deeply sourced gas bubbles. We propose that separate ascent of over-pressured gas bubbles, originating from at least 20-35 MPa pressures, was the driver for activity escalation toward the 3 March climax.
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