2018
DOI: 10.31223/osf.io/b4ma8
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Explosive eruptions with little warning: Experimental petrology and geodetic observations from the 2014 eruption of Kelud, Indonesia

Abstract: Explosive eruptions that occur with little or no precursory unrest pose the greatest hazards from volcanoes to nearby populations. Here we focus on the pre-eruptive conditions for these explosive events, their triggers and how these eruptions evolve. An example of such an event is the 2014 explosive eruption of Kelud volcano, where we have conducted a set of petrological experiments to understand pre-eruptive storage conditions for several recent eruptions. For the 2014 event, we combine this with an analysis … Show more

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Cited by 1 publication
(1 citation statement)
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“…Two viable mechanisms to explain the persistence of unrest over decades at PRVs are (a) degassing‐induced conduit convection (e.g., Fowler & Robinson, ; Kazahaya et al, ) and (b) crystallization‐induced vapor saturation (“second boiling”) of a stagnant magma body (e.g., Fowler & Spera, ; Stock et al, ). The following arguments lead us to favor a vertically extensive convecting magma column over a stagnant shallow magma body as the source of long‐term unrest at Telica: First, second boiling is generally invoked at volcanoes known to be underlain by large magma chambers (e.g., Campi Flegrei, Stock et al, ; Yellowstone; Fowler & Spera, ; Cassidy et al, ), with the implication that pressures generated by second boiling of small volumes of magma are insufficient for eruption triggering. There is no evidence of a large magma chamber beneath Telica, as indicated by the absence of thermal and/or degassing anomalies outside the active vent and by its relatively low long‐term extrusion rate (Carr et al, ).…”
Section: Discussionmentioning
confidence: 99%
“…Two viable mechanisms to explain the persistence of unrest over decades at PRVs are (a) degassing‐induced conduit convection (e.g., Fowler & Robinson, ; Kazahaya et al, ) and (b) crystallization‐induced vapor saturation (“second boiling”) of a stagnant magma body (e.g., Fowler & Spera, ; Stock et al, ). The following arguments lead us to favor a vertically extensive convecting magma column over a stagnant shallow magma body as the source of long‐term unrest at Telica: First, second boiling is generally invoked at volcanoes known to be underlain by large magma chambers (e.g., Campi Flegrei, Stock et al, ; Yellowstone; Fowler & Spera, ; Cassidy et al, ), with the implication that pressures generated by second boiling of small volumes of magma are insufficient for eruption triggering. There is no evidence of a large magma chamber beneath Telica, as indicated by the absence of thermal and/or degassing anomalies outside the active vent and by its relatively low long‐term extrusion rate (Carr et al, ).…”
Section: Discussionmentioning
confidence: 99%