Seismic activity and thermal regime of low temperature fumaroles at Mt. Vesuvius in 2004-2011: distinguishing among seismic, volcanic and hydrological signals

Paola Cusano Paola Cusano,Paolo Madonia Paolo Madonia,Cinzia Federico Cinzia Federico,Simona Petrosino Simona Petrosino

doi:10.4401/ag-6446

Paola Cusano Paola Cusano, Paolo Madonia Paolo Madonia + Show 2 more

Open Access

https://doi.org/10.4401/ag-6446

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Abstract

<p>Seismological, soil temperature and hydrological data from Mt. Vesuvius are collected to characterize the present-day activity of the volcanic/hydrothermal system and to detect possible unrest-related phenomena. We present patterns of seismicity and soil temperature in the crater area during the period February 2004-December 2011. The temporal distribution of number and depth of Volcano-Tectonic earthquakes and the energy release are considered. Hourly data of soil temperature have been acquired since January 2004 in different locations along the rim and within the crater. The observed changes of temperature are studied to establish a temporal-based correlation with the volcanic activity and/or with external forcing, as variations of the regional and local stress field acting on the volcano or meteorological phenomena. The comparison between seismic activity and temperature data highlights significant variations possibly related to changes in fluid circulation in the hydrothermal system of the volcano. The common continuous observations start just before a very shallow earthquake occurred in August 2005, which was preceded by a thermal anomaly. This coincidence has been interpreted as related to fluid-driven rock fracturing, as observed in other volcanoes. For the successive temporal patterns, the seismicity rate and energy release are characterized by slight variations accompanied by changes in temperature. This evidence of reactivity of the fumarole thermal field to seismic strain can be used to discriminate between tectonic and volcanic signals at Mt. Vesuvius.</p>

Highlights

In outlining the state of a volcanic system and its evolution, several parameters have to be monitored and analyzed
Among the seismic-derived parameters, seismicity rate and energy release play an important role in volcano monitoring since their temporal variations could be indicators of changes in the acting stress field
In the distribution calculation we have considered the earthquakes contained in the seismic catalogue for the OVO station

Summary

Introduction

In outlining the state of a volcanic system and its evolution, several parameters have to be monitored and analyzed. By studying long-time series of chemical and isotopic compositions of Mt. Vesuvius fumaroles from 1998 to 2010, Caliro et al [2011] identified the phenomena that occur on short-period, which appear to be linked to shallow processes in the hydrothermal system, and longtime variations associated to changes of volcanic activity. Madonia et al [2008] (hereinafter referred to as M08) compared short- and long-term variations (with timescales ranging from few days to several years) of geochemical parameters, (chemistry of groundwater and thermal regime of the fumarolic field) and seismic activity in the Vesuvius volcanic system during the 19982005 period, interpreted as having common source mechanisms. Vesuvius (Regional Campanian Agro-meteorological Center, available on line at the URL http://www.sito. regione.campania.it/agricoltura/meteo/agrometeo.htm), using a linear regression algorithm based on common data between the two stations (Pozzuoli and Vesuvius) for the period June 2003-July 2007

Summary of seismological and geochemical observations in 1998-2005

Seismological and geochemical patterns in 19992011

Discussion

Conclusions