First observational evidence for the CO<sub>2</sub>-driven origin of Stromboli's major explosions

First observational evidence for the CO<sub>2</sub>-driven origin of Stromboli's major explosions

We report on the first detection of CO<sub>2</sub> flux precursors of the till now unforecastable "major" explosions that intermittently occur at Stromboli volcano (Italy). An automated survey of the crater plume emissions in the period 2006–2010, during which 12 such explosion...

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Main Authors: M. Liuzzo, S. Gurrieri, T. Caltabiano, G. Giudice, P. Allard, M. Burton, A. Aiuppa, G. Salerno
Format: Article
Language:English
Published: Copernicus Publications 2011-07-01
Series:Solid Earth
Online Access:http://www.solid-earth.net/2/135/2011/se-2-135-2011.pdf
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spelling doaj-8d529064def2415386bbbf75a75cd7c82020-11-25T02:29:23ZengCopernicus PublicationsSolid Earth1869-95101869-95292011-07-012213514210.5194/se-2-135-2011First observational evidence for the CO<sub>2</sub>-driven origin of Stromboli's major explosionsM. LiuzzoS. GurrieriT. CaltabianoG. GiudiceP. AllardM. BurtonA. AiuppaG. SalernoWe report on the first detection of CO<sub>2</sub> flux precursors of the till now unforecastable "major" explosions that intermittently occur at Stromboli volcano (Italy). An automated survey of the crater plume emissions in the period 2006–2010, during which 12 such explosions happened, demonstrated that these events are systematically preceded by a brief phase of increasing CO<sub>2</sub>/SO<sub>2</sub> weight ratio (up to >40) and CO<sub>2</sub> flux (>1300 t d<sup>−1</sup>) with respect to the time-averaged values of 3.7 and ~500 t d<sup>−1</sup> typical for standard Stromboli's activity. These signals are best explained by the accumulation of CO<sub>2</sub>-rich gas at a discontinuity of the plumbing system (decreasing CO<sub>2</sub> emission at the surface), followed by increasing gas leakage prior to the explosion. Our observations thus supports the recent model of Allard (2010) for a CO<sub>2</sub>-rich gas trigger of recurrent major explosions at Stromboli, and demonstrates the possibility to forecast these events in advance from geochemical precursors. These observations and conclusions have clear implications for monitoring strategies at other open-vent basaltic volcanoes worldwide.http://www.solid-earth.net/2/135/2011/se-2-135-2011.pdf
collection DOAJ
language English
format Article
sources DOAJ
author M. Liuzzo
S. Gurrieri
T. Caltabiano
G. Giudice
P. Allard
M. Burton
A. Aiuppa
G. Salerno
spellingShingle M. Liuzzo
S. Gurrieri
T. Caltabiano
G. Giudice
P. Allard
M. Burton
A. Aiuppa
G. Salerno
First observational evidence for the CO<sub>2</sub>-driven origin of Stromboli's major explosions
Solid Earth
author_facet M. Liuzzo
S. Gurrieri
T. Caltabiano
G. Giudice
P. Allard
M. Burton
A. Aiuppa
G. Salerno
author_sort M. Liuzzo
title First observational evidence for the CO<sub>2</sub>-driven origin of Stromboli's major explosions
title_short First observational evidence for the CO<sub>2</sub>-driven origin of Stromboli's major explosions
title_full First observational evidence for the CO<sub>2</sub>-driven origin of Stromboli's major explosions
title_fullStr First observational evidence for the CO<sub>2</sub>-driven origin of Stromboli's major explosions
title_full_unstemmed First observational evidence for the CO<sub>2</sub>-driven origin of Stromboli's major explosions
title_sort first observational evidence for the co<sub>2</sub>-driven origin of stromboli's major explosions
publisher Copernicus Publications
series Solid Earth
issn 1869-9510
1869-9529
publishDate 2011-07-01
description We report on the first detection of CO<sub>2</sub> flux precursors of the till now unforecastable "major" explosions that intermittently occur at Stromboli volcano (Italy). An automated survey of the crater plume emissions in the period 2006–2010, during which 12 such explosions happened, demonstrated that these events are systematically preceded by a brief phase of increasing CO<sub>2</sub>/SO<sub>2</sub> weight ratio (up to >40) and CO<sub>2</sub> flux (>1300 t d<sup>−1</sup>) with respect to the time-averaged values of 3.7 and ~500 t d<sup>−1</sup> typical for standard Stromboli's activity. These signals are best explained by the accumulation of CO<sub>2</sub>-rich gas at a discontinuity of the plumbing system (decreasing CO<sub>2</sub> emission at the surface), followed by increasing gas leakage prior to the explosion. Our observations thus supports the recent model of Allard (2010) for a CO<sub>2</sub>-rich gas trigger of recurrent major explosions at Stromboli, and demonstrates the possibility to forecast these events in advance from geochemical precursors. These observations and conclusions have clear implications for monitoring strategies at other open-vent basaltic volcanoes worldwide.
url http://www.solid-earth.net/2/135/2011/se-2-135-2011.pdf
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AT sgurrieri firstobservationalevidenceforthecosub2subdrivenoriginofstrombolismajorexplosions
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