Chapter 9 Thermal, acoustic and seismic signals from pyroclastic density currents and Vulcanian explosions at Soufrière Hills Volcano, Montserrat

Donne, Dario Delle; Ripepe, Maurizio; Angelis, Silvio De; Cole, PD; Lacanna, Giorgio; Poggi, Pasquale; Stewart, R. C.

doi:10.1144/m39.9

Cited by 24 publications

(28 citation statements)

References 40 publications

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“…4). The stable position of the infrasound source during the second phase could be explained as the rapid deceleration of the avalanche flow induced by the change of topographic slope (Delle Donne et al, 2014). The third phase, which strongly recalls infrasonic waveforms recorded for snow avalanches at the Vallée de la Sionne test site and interpreted as being produced by the dynamics of avalanche deposition in the run-out zone (Kogelnig et al, 2011).…”

Section: The Infrasound Array Instrument Setup and Data Processingmentioning

confidence: 62%

“…In this work we present results on automatic avalanche identification and evaluation of the avalanche front velocity obtained with an infrasound array, which operated during the 2012-2013 winter season near Ischgl (Paznaun valley, Austria), monitoring events from the Grosstal avalanche channel where spontaneous and controlled events typically occur every year (Jöbstl et al, 2014). The Grosstal avalanche channel is monitored permanently with a pulsed Doppler radar (Kogelnig et al, 2012), and we use it here to evaluate results obtained with the infrasound array.…”

Section: E Marchetti Et Al: Automatic Detection and Front Velocity mentioning

confidence: 99%

“…The Grosstal avalanche channel, positioned on the northern flank of the Paznaun valley near the town of Ischgl (Austria), is typically characterized by the occurrence of several events/year (Jöbstl et al, 2014), with avalanches reaching the Silvretta road every 10 years (Fig. 1).…”

Section: Radar and Infrasound Observations Of The Grosstal Avalanchementioning

confidence: 99%

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Infrasound array criteria for automatic detection and front velocity estimation of snow avalanches: towards a real-time early-warning system

Marchetti

Ripepe

Ulivieri³

et al. 2015

Nat. Hazards Earth Syst. Sci.

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Abstract. Avalanche risk management is strongly related to the ability to identify and timely report the occurrence of snow avalanches. Infrasound has been applied to avalanche research and monitoring for the last 20 years but it never turned into an operational tool to identify clear signals related to avalanches. We present here a method based on the analysis of infrasound signals recorded by a small aperture array in Ischgl (Austria), which provides a significant improvement to overcome this limit. The method is based on array-derived wave parameters, such as back azimuth and apparent velocity. The method defines threshold criteria for automatic avalanche identification by considering avalanches as a moving source of infrasound. We validate the efficiency of the automatic infrasound detection with continuous observations with Doppler radar and we show how the velocity of a snow avalanche in any given path around the array can be efficiently derived. Our results indicate that a proper infrasound array analysis allows a robust, real-time, remote detection of snow avalanches that is able to provide the number and the time of occurrence of snow avalanches occurring all around the array, which represent key information for a proper validation of avalanche forecast models and risk management in a given area.

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Section: The Infrasound Array Instrument Setup and Data Processingmentioning

confidence: 62%

Section: E Marchetti Et Al: Automatic Detection and Front Velocity mentioning

confidence: 99%

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Infrasound array criteria for automatic detection and front velocity estimation of snow avalanches: towards a real-time early-warning system

Marchetti

Ripepe

Ulivieri³

et al. 2015

Nat. Hazards Earth Syst. Sci.

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“…Infrasound arrays deployed at St George's Hill, Lees Yard and the Waterworks showed how the timing and directionality of explosive signals could be interpreted . Integration of infrasound with thermal camera data has allowed the dynamics of Vulcanian explosions and PDC emplacement to be measured (Delle Donne et al 2014). Gravity surveys in the north of the island revealed signals that were Fig.…”

Section: Mvomentioning

confidence: 99%

Chapter 1 An overview of the eruption of Soufrière Hills Volcano, Montserrat from 2000 to 2010

Wadge

Voight

Sparks

et al. 2014

Memoirs

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119

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Abstract:The 1995-present eruption of Soufrière Hills Volcano on Montserrat has produced over a cubic kilometre of andesitic magma, creating a series of lava domes that were successively destroyed, with much of their mass deposited in the sea. There have been five phases of lava extrusion to form these lava domes: -March 1998-July 2003 August 2005-April 2007July 2008-January 2009 and October 2009-February 2010. It has been one of the most intensively studied volcanoes in the world during this time, and there are long instrumental and observational datasets. From these have sprung major new insights concerning: the cyclicity of magma transport; low-frequency earthquakes associated with conduit magma flow; the dynamics of lateral blasts and Vulcanian explosions; the role that basalt-andesite magma mingling in the mid-crust has in powering the eruption; identification using seismic tomography of the uppermost magma reservoir at a depth of 5.5 . 7.5 km; and many others. Parallel to the research effort, there has been a consistent programme of quantitative risk assessment since 1997 that has both pioneered new methods and provided a solid evidential source for the civil authority to use in mitigating the risks to the people of Montserrat.At the time of writing (January 2013), the Soufrière Hills Volcano (SHV) is in its 17th year of eruption, placing it with a select group of very long-lived eruptions from silicic volcanoes. Within the Caribbean plate, only two other silicic volcanoes have had longer-lived historical extrusive eruptions: Santiaguito, Guatemala (1922( -present: Harris et al. 2003 and Arenal, Costa Rica (1968 -present: Wadge et al. 2006). As with both of these volcanoes, SHV has not extruded lava continuously for the whole eruption, but has erupted intermittently. In fact, it has been extruding lava for a cumulative total of only 8.5 years out of 17. So in what sense can we consider this a single eruption rather than a series of shorter ones? The longest gaps between extrusive phases have been about 2-3 years (July 2003-August 2005 February 2010-present). However, during the pauses between extrusion at SHV, there have been many indications that the volcanic system remains active. These have included inflation of the island's surface, the release of volatiles in quantities similar to those seen during lava extrusion, swarms of low-frequency seismicity, explosions and the production of ash. This suggests that there are processes within the system responsible for producing alternating extrusive and non-extrusive states. Melnik & Sparks (2005) showed theoretically how non-linear response to relatively minor perturbations of the magmatic system can result in such behaviour.Recognition of the long-term continuity of the eruption process has direct consequences for the tasks of monitoring and estimating the risks posed by the volcano. It means that the Montserrat Volcano Observatory (MVO) must monitor the volcano continuously, even during periods of relative quiescence and apparent inactivity. The probabil...

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“…1) recording images at two frames per second documented the 11 February 2010 dome collapse event. The FLIR A20 camera records thermal wavelengths between 7.5 and 13 µm with a resolution of 0.1 °C and has an angular field of view of 34 × 25°, yielding a 352 × 244 pixel image (see also Delle Donne et al 2014). Recorded values correspond to brightness temperature at these frequencies and are not calibrated for atmospheric attenuation to retrieve absolute surface temperature; we thus analyse these data in relative terms.…”

Section: Thermal Camera Imagerymentioning

confidence: 99%

An inclined Vulcanian explosion and associated products

Cole

Stinton

Odbert

et al. 2015

JGS

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Vulcanian explosions generate some of the most hazardous types of volcanic phenomena, including pyroclastic density currents. Non-vertical directionality of an explosion promotes asymmetrical distribution of proximal hazards around the volcano. Although critical, such behaviour is relatively uncommon and has been seldom documented. Here we present, for the first time, evidence both from geophysical monitoring and field survey data that records the occurrence of such an event. Thermal imagery captures a Vulcanian explosion at Soufrière Hills Volcano, Montserrat, which occurred during a large partial lava dome collapse in February 2010, and was inclined at about 25° from the vertical in a northerly direction. Pyroclastic products were preferentially distributed to the north and included: an unusual pumice boulder deposit that we propose was formed by a dilute pyroclastic density current; pumice flow deposits; and a proximal lapilli and block fallout lobe. The inclined nature of the explosion is attributed to the asymmetric geometry around the vent. The explosion-derived pyroclastic density currents had notably lower velocities than those associated with lateral blasts, which, we suggest, result from a separate and distinct mechanism. These inclined explosions present an additional mechanism that is able to generate directed pyroclastic density currents, with consequent implications for hazard assessment.

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Chapter 9 Thermal, acoustic and seismic signals from pyroclastic density currents and Vulcanian explosions at Soufrière Hills Volcano, Montserrat

Cited by 24 publications

References 40 publications

Infrasound array criteria for automatic detection and front velocity estimation of snow avalanches: towards a real-time early-warning system

Infrasound array criteria for automatic detection and front velocity estimation of snow avalanches: towards a real-time early-warning system

Chapter 1 An overview of the eruption of Soufrière Hills Volcano, Montserrat from 2000 to 2010

An inclined Vulcanian explosion and associated products

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