Hydrothermal pressure-temperature control on CO2 emissions and seismicity at Campi Flegrei (Italy)

https://doi.org/10.1016/j.jvolgeores.2021.107245Get rights and content
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Highlights

  • Gas-geoindicators indicate an escalation of the hydrothermal P-T Campi Flegrei

  • Pressurization causes increase of the CO2 emission at Solfatara (up to 5000 t/d)

  • Increasing hydrothermal P-T and CO2 emission trigger low magnitude earthquakes

Abstract

Fluids supplied by stored magma at depth are causal factors of volcanic unrest, as they can cause pressurization/heating of hydrothermal systems. However, evidence for links between hydrothermal pressurization, CO2 emission and volcano seismicity have remained elusive. Here, we use recent (2010−2020) observations at Campi Flegrei caldera (CFc) to show hydrothermal pressure, gas emission and seismicity at CFc share common source areas and well-matching temporal evolutions. We interpret the recent escalation in seismicity and surface gas emissions as caused by pressure-temperature increase at the top of a vertically elongated (0.3–2 km deep) gas front. Using mass (steam) balance considerations, we show hydrothermal pressurization is causing energy transfer from the fluids to the host rocks, ultimately triggering low magnitude earthquakes within a seismogenetic volume containing the hydrothermal system. This mechanism is probably common to other worldwide calderas in similar hydrothermal activity state.

Keywords

Volcanic unrest
Hydrothermal systems
Campi Flegrei
Fumarole compositions
CO2 emission
Volcano seismicity

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