Conditions of Magma Storage, Degassing and Ascent at Stromboli: New Insights into the Volcano Plumbing System with Inferences on the Eruptive Dynamics
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In this paper, an extensive dataset on major elements and volatiles (CO2, H2O, S and Cl) in olivine-hosted melt inclusions and embayments from pyroclasts emplaced during explosive eruptions of variable magnitude is presented.Abstract:
Stromboli is known for its persistent degassing and rhythmic strombolian activity occasionally punctuated by paroxysmal eruptions. The basaltic pumice and scoria emitted during paroxysms and strombolian activity, respectively, differ in their textures, crystal contents and glass matrix compositions, which testify to distinct conditions of crystallization, degassing and magma ascent. We present here an extensive dataset on major elements and volatiles (CO2, H2O, S and Cl) in olivine-hosted melt inclusions and embayments from pyroclasts emplaced during explosive eruptions of variable magnitude. Magma saturation pressures were assessed from the dissolved amounts of H2 Oa nd CO2 taking into account the melt composition evolution. Both pressures and melt inclusion compositions indicate that (1) Ca-basaltic melts entrapped in high-Mg olivines (Fo89^90) generate Stromboli basalts through crystal fractionation, and (2) the Stromboli plumbing system can be imaged as a succession of magma ponding zones connected by dikes. The 7^10 km interval, where magmas are stored and differentiate, is periodically recharged by new magma batches, possibly ranging from Ca-basalts to basalts, with a CO2-rich gas phase.These deep recharges promote the formation of bubbly basalt blobs, which are able to intrude the shallow plumbing system (2^4 km), where CO2 gas fluxing enhances H2O loss, crystallization and generation of crystal-rich, dense, degassed magma. Chlorine partitioning into the H2O^CO2-bearing gas phase accounts for its efficient degassing (� 69%) under the open-system conditions of strombolian activity. Paroxysms, however, are generated through predominantly closed-system ascent of basaltic magma batches from the deep storage zone. In this situation crystallization is negligible and sulfur exsolution starts at � 170 MPa. Chlorine remains dissolved in the melt until lower pressures, only 16% being lost upon eruption. Finally, we propose a continuum in explosive eruption energy, from strombolian activity to large paroxysmal events, ultimately controlled by variable pressurization of the deep feeding system associated with magma and gas recharges.read more
Citations
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Why do mafic arc magmas contain ∼4wt% water on average?
TL;DR: In this article, the authors studied the H2O contents of the least degassed melt inclusions from each volcano and found that the mean and common average values for H2Os are within one s.d.
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Experimental Simulation of Closed-System Degassing in the System Basalt–H2O–CO2–S–Cl
TL;DR: In this article, an alternative experimental approach aimed at directly simulating decompression-driven, closed-system degassing of basaltic magma in equilibrium with an H^C^O^S^Cl fluid under oxidized conditions (fO2 of 1·0^2· 4l og units above the Ni^NiO buffer).
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A model of degassing for Stromboli volcano
Alessandro Aiuppa,Antonella Bertagnini,Nicole Métrich,Roberto Moretti,A. Di Muro,Marco Liuzzo,Giancarlo Tamburello +6 more
TL;DR: In this article, the authors used the MultiGAS technique to provide the best documented record of gas plume discharges from Stromboli volcano to date, and showed that Strombolian's gases are dominated by H2O (48−98−mol); mean, 80%), and by CO2 (2−50−mol%; mean, 17%) and SO2 (0.2−14−mol; mean, 3%).
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Dendritic Crystallization: A Single Process for all the Textures of Olivine in Basalts?
Benoit Welsch,Benoit Welsch,François Faure,Vincent Famin,Alain Baronnet,Patrick Bachèlery,Patrick Bachèlery +6 more
TL;DR: The olivine macrocrysts found in oceanites, picrites and magnesian basalts erupted at hotspot volcanoes are generally interpreted either as phenocrysts crystallized from the magma or as xenocrysts extracted from a deforming cumulate as mentioned in this paper.
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Hawaiian and Strombolian Eruptions
TL;DR: Hawaiian and Strombolian eruptions are characteristic of silica-poor, low viscosity magmas and represent the most frequent manifestations of explosive volcanism on Earth as mentioned in this paper.
References
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Magmatic volatile contents and degassing-induced crystallization at Volcán Jorullo, Mexico: Implications for melt evolution and the plumbing systems of monogenetic volcanoes
TL;DR: The authors investigated relations between volatiles, degassing, and crystallization in a long-lived, historical, cinder cone eruption to better understand the plumbing systems of monogenetic volcanoes.
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Giuliano F. Panza,Giuliano F. Panza,Angelo Peccerillo,Abdelkrim Aoudia,Abdelkrim Aoudia,B. Farina +5 more
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The 2007 eruption of Stromboli volcano: Insights from real-time measurement of the volcanic gas plume CO2/SO2 ratio
Alessandro Aiuppa,Alessandro Aiuppa,Cinzia Federico,Gaetano Giudice,Giovanni Giuffrida,Roberto Guida,Sergio Gurrieri,Marco Liuzzo,Roberto Moretti,Paolo Papale +9 more
TL;DR: In this paper, the authors report on the results of two years of in-situ sensing of the CO 2 /SO 2 ratio in Stromboli's volcanic gas plume, in the attempt to put constraints on the trigger mechanisms and dynamics of the eruption.
Journal ArticleDOI
The role of gas percolation in quiescent degassing of persistently active basaltic volcanoes
TL;DR: In this article, the authors construct a conceptual model of quiescent degassing for Stromboli volcano and find that within a pressure range between 100 MPa and 50 MPa (∼ 3.6 km and ∼ 1.8 km depth respectively) vesiculating magma ascending within the conduit becomes permeable to gas flow and a transition from closed-to open-system degassing takes place.