Deep Magma Storage Revealed by Multi-Method Elemental Mapping of Clinopyroxene Megacrysts at Stromboli Volcano

Ubide, Teresa; Caulfield, John; Brandt, Claire; Bussweiler, Yannick; Mollo, Silvio; Stefano, Flavio Di; Nazzari, Manuela; Scarlato, Piergiorgio

doi:10.3389/feart.2019.00239

Cited by 68 publications

(47 citation statements)

References 94 publications

(267 reference statements)

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“…Noteworthy, the two zoning types distribute with equal percentage in both deposits of July 3 and August 28, 2019, that is of 71-72% for Type 1 and 28-29% for Type 2. The range of plagioclase compositions, together with the close association of scoria and pumice in the same clast, supports the assumption that both paroxysmal eruptions were the products of syn-eruptive mingling of two magmas characterized by distinct physio-chemical conditions [28][29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44] .…”

Section: Resultssupporting

confidence: 55%

“…According to previous petrological studies and field observations 28,29,[32][33][34][35][36] , large-scale paroxysms at Stromboli are characterized by the emission of a nearly degassed and highly-porphyric (HP) magma residing in the volcanic conduit at shallow levels (2-4 km below the summit) that interacts with gas-rich, low-porphyric (LP) magma coming from the deep levels of the volcano plumbing system (7-10 km below the summit). During paroxysmal eruptions, the deep-seated LP magma can rise under dominant closed-system conditions emitting highly vesicular basaltic pumices in addition to a shoshonitic crystal-rich scoria that is typically ejected during the ordinary activity 28,29,32,36 .…”

Section: Resultsmentioning

confidence: 99%

“…In the case of Stromboli, two divergent points of view (and relative intermediate/mixed models) have been so far proposed for explaining the source of overpressure needed to trigger an explosive event. Some authors stress the role of the injection and fast ascent of deep volatile-rich melts, the so-called low porphyric (LP) magmas, and fluids in pressurizing the shallow crystal-rich and degassed part of the conduit system occupied by the so-called high porphyric (HP) magmas 25,28,[32][33][34][35][36] . Other authors suggest that shallow processes, such as shallow conduit clogging, shallow gas pressurization, change in magmastatic load following the extrusion of lava, determine the volcano explosivity and that the ascent of deep LP magma is a mere passive consequence of these processes [37][38][39][40] .…”

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confidence: 99%

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Shallow conduit dynamics fuel the unexpected paroxysms of Stromboli volcano during the summer 2019

Viccaro

Cannata

Cannavò

et al. 2021

Sci Rep

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Open conduit basaltic volcanoes can be potentially hazardous as the eruptive activity may turn suddenly from a steady state to highly explosive. Unexpected changes in explosion intensity are recurrent at Stromboli volcano, where major explosions and large-scale paroxysms sometimes break off the ordinary, Strombolian activity with little or no warning. Two powerful paroxysmal eruptions took place at Stromboli volcano during the summer 2019, causing widespread fires, consistent damages across the island, injuries and one fatality. Prediction of similar events is really challenging for the modern volcanology, though models propaedeutic to early-warning monitoring systems are not properly assessed yet in many volcanoes worldwide. Here, we present a multi-parametric study that combines petrological and geophysical data to investigate processes generating the two paroxysms. The time information derived by Li enrichments in plagioclase crystals correlates with tilt time series derived by seismometers installed on the island, highlighting the dominant role of shallow conduit processes in triggering the 2019 paroxysmal activity. Our dataset conceives a mechanism of gas slug formation and fast upward migration that finally triggered the eruptions in very limited times. The proposed model questions our capability to forecast such kind of paroxysms in times that are rapid enough to allow mitigation of the associated risk.

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Section: Resultssupporting

confidence: 55%

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

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Shallow conduit dynamics fuel the unexpected paroxysms of Stromboli volcano during the summer 2019

Viccaro

Cannata

Cannavò

et al. 2021

Sci Rep

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“…Since the magma plumbing system of the Stromboli volcano is widely studied from geophysical, vulcanological, and geochemical perspectives, it has been recognized that the feeding system can be depicted as a vertical column (see, e.g., Métrich et al, 2010), connecting the open vents on the surface with a shallow ponding zone located at 2–4 km bsl (Bonaccorso et al, 2012). The deeper reservoir is located at 7–10 km depth (Morelli et al, 1975; Ubide et al, 2019): It is now widely recognized that these deep, low porphyricity magma reservoirs play an important role in triggering paroxysmal activity. These eruptions are triggered by a larger supply of deep magma or gas‐magma as demonstrated from the petrological analysis of products of the 1930 and XVI century eruptions (Bertagnini et al, 2011).…”

Section: Discussionmentioning

confidence: 99%

Strain Signals Before and During Paroxysmal Activity at Stromboli Volcano, Italy

Lieto

Romano

Scarpa

et al. 2020

Geophysical Research Letters

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In the last decades, Mt. Stromboli produced four vulcanian eruptions, in 2003 and 2007 and July and August 2019, recorded by INGV monitoring network. Specifically, last three events are studied through records from borehole strainmeters, which allow to infer details on source dynamics. These events are preceded by a slow strain buildup, starting several minutes before the paroxysms, which can be used in future for early warning. Eruptions consist of two or more strain pulses, with oscillations ranging from several seconds, as in 2007, to some minutes, as in 2019, and lasting from several minutes to 1 hr after the explosions. Plain Language Summary Sacks-Evertson borehole dilatometers are a special kind of strainmeter, capable of recording volumetric strain changes. In the current manuscript, data recorded by such an instrument reveal that strain changes occurred several minutes before two paroxysmal events occurred in the summer of 2019 at Stromboli, an open-conduit volcano located in Eolian Islands, Italy. A comparison of 2019 paroxysms has been made with previous eruptions at Stromboli volcano: Similarities among the explosions suggest a common source mechanism. Starting from these observations, a real-time early warning system could be developed in the future, allowing Italian Civil Protection Department to set up automated (or semi-automated) variable alert levels, which could trigger alarms accordingly. Such an early warning system could then be used to provide alerts for other similar open-conduit volcanoes.

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“…Compositional plateaus in zoned opx crystals can be identified, with EPMA, as zones of at least 10 µm length where the enstatite content (En content; ) is constant with a variability of ± 0.5%. If the same compositional plateau is found in a significant amount of crystals, these plateaus have been produced by significative changes in the magmatic conditions 7 , 52 and can be considered as ME (Supplementary Figure S15 ). An En increase (reverse-zoned opx) implies a temperature increase, with, or without, magma mixing with a hotter and more basic magma.…”

Section: Methodsmentioning

confidence: 99%

Time-window into the transcrustal plumbing system dynamics of Dominica (Lesser Antilles)

Ostorero

Boudon

Balcone-Boissard

et al. 2021

Sci Rep

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Dominica, one of the most magmatically active islands of the Lesser Antilles through its four active volcanoes, is likely host under its central part, below Morne Trois Pitons–Micotrin, to a well-established transcrustal mush system. Pre-eruptive spatiotemporal magma dynamics are examined for five, explosive, pumiceous eruptions of this volcano in the last 24 kyrs through a combined Crystal System Analysis and intracrystalline Fe–Mg interdiffusion timescales modelling approaches. Before all eruptions, two magmatic environments of close compositions have interacted. These interactions began ~ 10–30 years prior to the four smaller of these eruptions, with more sustained mixing in the last decade, accelerated in the last 2 years. This contrasts with the largest pumiceous eruption, involving deeper magmas, with magma interaction starting over roughly a century but with various patterns. This suggests a possibility that increasing reactivation signals could be registered at the surface some years before future eruptions, having significant implications for volcanic risk mitigation.

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Deep Magma Storage Revealed by Multi-Method Elemental Mapping of Clinopyroxene Megacrysts at Stromboli Volcano

Cited by 68 publications

References 94 publications

Shallow conduit dynamics fuel the unexpected paroxysms of Stromboli volcano during the summer 2019

Shallow conduit dynamics fuel the unexpected paroxysms of Stromboli volcano during the summer 2019

Strain Signals Before and During Paroxysmal Activity at Stromboli Volcano, Italy

Time-window into the transcrustal plumbing system dynamics of Dominica (Lesser Antilles)

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