Predictability of volcano eruption: Lessons from a basaltic effusive volcano

Grasso, Jean‐Robert; Zaliapin, Ilya

doi:10.1029/2003gl019022

Cited by 18 publications

(35 citation statements)

References 27 publications

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“…Collombet et al (2003) first called attention to the stable location of the seismogenic volume beneath the summit since the beginning of monitoring, but they only noted that it was regarded as "the main path for the magma flow toward the surface" and did not discuss further its structural significance. On the other hand, Grasso and Zaliapin (2004) and Traversa and Grasso (2009) suggest that the location of the volcanic seismicity does not reflect directly that of the magma intrusion tip or path, but rather a diffuse release of the background stresses in the edifice under the effect of the perturbation caused by the injection of magma. Similar observations have been reported by Rubin et al (1998) at Kilauea, Pedersen et al (2007) in Iceland and by Toda et al (2002) in the Izu islands.…”

Section: Inter-eruptive Behavior Of Piton De La Fournaisementioning

confidence: 94%

The interplay between collapse structures, hydrothermal systems, and magma intrusions: the case of the central area of Piton de la Fournaise volcano

2011

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International audienceWe explore the possible relationships between a structural heterogeneity, the hydrothermal system, and the intrusive activity at Piton de la Fournaise volcano. Geological and geophysical data show that as the result of repeated collapses (the last one in 2007), a cylinder of faulted, fractured, and crumbled rocks must exist between the surface and the top of a magma reservoir at about sea level. This structure constitutes a major geological heterogeneity. An obvious spatial correlation exists between this column of fractured and brecciated rock and the location of (1) most of the seismic activity, (2) a low-resistivity dome, (3) a huge self-potential anomaly, (4) thermal evidence of hydrothermal activity, and (5) the root of magma intrusions. The dominant factors that make this structural heterogeneity a trap for the activity are probably its higher permeability and its weaker mechanical strength. Evidence exists for the presence of an active hydrothermal system confined in this permeable zone. The long-term stability of the activated zone above sea level and the similarity of the pre-eruptive crises, in spite of the inferred large perturbation of the magmatic system in 1998, suggest a common triggering mechanism for all the eruptions since at least the first data recorded by the observatory in 1980. This mechanism can be purely magmatic, resulting from the pressurization of a reservoir, but we also propose that the hydrothermal system may play a role in the development of volcanic instabilities. A qualitative model is proposed to explain the triggering of magma intrusions by hydrothermal processes, and its speculative aspects are discussed. This work represents a first attempt to integrate the structural and dynamic information in a unified framework at Piton de la Fournaise

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Section: Inter-eruptive Behavior Of Piton De La Fournaisementioning

confidence: 94%

The interplay between collapse structures, hydrothermal systems, and magma intrusions: the case of the central area of Piton de la Fournaise volcano

2011

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“…The research topics covered by the project are: highprecision seismic velocity monitoring from seismic noise (Brenguier et al 2008), processes of dike injection (Taisne et al 2011), dike-induced deformation (Peltier et al 2011), microseismicity relocation (Got et al 2008, shear-wave splitting monitoring (Gerst and Savage 2004), long-period event source inversion (De Barros et al 2011), flank instability/ rock fall processes (Hibert et al forthcoming), and predictability of volcanic eruptions (Grasso and Zaliapin 2004). Since the beginning of the UnderVolc project station deployment (September 2009), five eruptions occurred at Piton de la Fournaise volcano (5 November 2009, 14 December 2009, 2 January 2010, 14 October 2010, and 9 December 2010).…”

Section: Piton De La Fournaise Volcano Observatory and The Undervolc mentioning

confidence: 99%

First Results from the UnderVolc High Resolution Seismic and GPS Network Deployed on Piton de la Fournaise Volcano

Brenguier¹,

Kowalski²,

Staudacher³

et al. 2012

Seismological Research Letters

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“…Duration and seismicity rate of the early May swarm are both similar to those associated with the magma intrusion or the eruption at Piton de la Fournaise (Lénat 1989;Sapin et al 1996;Aki and Ferrazzini 2000;Collombet et al 2003;Grasso and Zaliapin 2004). The PF seismicity swarms, that immediately precede eruptions, lasted for from 0.5 to 36 h, with a 4 h mean duration, with a 130 events/h mean rate for VT events (Grasso and Zaliapin 2004). As the Karthala swarm in May 1991 lasted about this, with about 160-200 events/hr which are within the characteristic of intrusion patterns on PF volcano, an intrusion might have occurred in May 1991.…”

Section: Hydrofracturing Mapped By Vt Event Location At Karthala Volcanomentioning

confidence: 89%

Seismic signature of a phreatic explosion: hydrofracturing damage at Karthala volcano, Grande Comore Island, Indian Ocean

2005

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Karthala volcano is a basaltic shield volcano with an active hydrothermal system that forms the southern two-thirds of the Grande Comore Island, off the east coat of Africa, northwest of Madagascar. Since the start of volcano monitoring by the local volcano observatory in 1988, the July 11th, 1991 phreatic eruption was the first volcanic event seismically recorded on this volcano, and a rare example of a monitored basaltic shield. From 1991 to 1995 the VT locations, 0.5

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Predictability of volcano eruption: Lessons from a basaltic effusive volcano

Cited by 18 publications

References 27 publications

The interplay between collapse structures, hydrothermal systems, and magma intrusions: the case of the central area of Piton de la Fournaise volcano

The interplay between collapse structures, hydrothermal systems, and magma intrusions: the case of the central area of Piton de la Fournaise volcano

First Results from the UnderVolc High Resolution Seismic and GPS Network Deployed on Piton de la Fournaise Volcano

Seismic signature of a phreatic explosion: hydrofracturing damage at Karthala volcano, Grande Comore Island, Indian Ocean

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