Abstract
Long time-series of chemical and isotopic compositions of Vesuvius fumaroles were acquired in the framework of the volcanic surveillance in the 1998-2010 period. These allow the identification of processes that occur at shallow levels in the hydrothermal system, and variations that are induced by deep changes in volcanic activity. Partial condensation processes of fumarolic water under near-discharge conditions can explain the annual 18O and deuterium variabilities that are observed at Vesuvius fumaroles. Significant variations in the chemical compositions of fumaroles occurred over the 1999-2002 period, which accompanied the seismic crisis of autumn 1999, when Vesuvius was affected by the most energetic earthquakes of its last quiescence period. A continuous increase in the relative concentrations of CO2 and He and a general decrease in the CH4 concentrations are interpreted as the consequence of an increment in the relative amount of magmatic fluids in the hydrothermal system. Gas equilibria support this hypothesis, showing a PCO2 peak that culminated in 2002, increasing from values of ~40 bar in 1998 to ~55-60 bar in 2001-2002. We propose that the seismic crisis of 1999 marked the arrival of the magmatic fluids into the hydrothermal system, which caused the observed geochemical variations that started in 1999 and culminated in 2002.
Highlights
The present volcanic–hydrothermal activity at Vesuvius volcano is relatively low level
1999 seismic crisis, seismic activity decreased to low levels, with shallow hypocenters mainly clustered within the volcanic edifice [Del Pezzo et al 2004]
Long time-series of chemical and isotopic compositions of the Vesuvius fumaroles have allowed us to identify processes that occur with different frequencies: short-period variations appear to be linked to processes that occur at shallow levels in the hydrothermal system, while relatively long time variations are induced by deep changes in the volcanic activity
Summary
The present volcanic–hydrothermal activity at Vesuvius volcano is relatively low level. The most notable seismic activity was registered on October 1999. This crisis included an earthquake of ML 3.6, which was the highest magnitude recorded for at least 25 years, and possibly since the last eruption of Vesuvius in 1944 [Zollo et al 2002, Del Pezzo et al 2004]. 1999 seismic crisis, seismic activity decreased to low levels, with shallow hypocenters mainly clustered within the volcanic edifice [Del Pezzo et al 2004]. Fumarolic fluids discharged by these fumaroles on the crater rim are of relatively low temperatures (
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