Permeability reduction of fractured rhyolite in volcanic conduits and its control on eruption cyclicity

Repetitive explosions of silicic volcanoes are thought to be triggered by volcanic gases in the shallow parts of the conduit. To trap the volcanic gases in the conduit, the lava dome or plug must be impermeable. However, silicic magma undergoes brittle fracturing during ascent because its viscosity...

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Published in:Geology (Boulder) 2014-10, Vol.42 (10), p.843-846
Main Authors: Okumura, Satoshi, Sasaki, Osamu
Format: Article
Language:English
Subjects:
Crystallization
cyclic processes
eruptions
experimental studies
fractures
gases
Geochemistry
high pressure
high temperature
igneous and metamorphic rocks
Igneous rocks
laboratory studies
magmas
Permeability
Petrology
Porosity
pressure
Quaternary geology
rhyolitic composition
temperature
uniaxial tests
Viscosity
volcanism
volcanoes
Volcanology
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Sasaki, Osamu
description Repetitive explosions of silicic volcanoes are thought to be triggered by volcanic gases in the shallow parts of the conduit. To trap the volcanic gases in the conduit, the lava dome or plug must be impermeable. However, silicic magma undergoes brittle fracturing during ascent because its viscosity increases via dehydration and groundmass crystallization. Since fractured magma has high permeability, the reduction of permeability is a key process that allows gases to accumulate, leading to an explosion. We performed uniaxial compression experiments on rhyolite fragments at temperatures of 700-900 °C to investigate the permeability reduction of fractured rhyolite. Experimental results show that permeability is controlled by porosity, and permeability reduction can be caused by compaction of fractured magma. Based on the observed relationship between permeability and porosity, we calculate the time scale of permeability reduction, i.e., the transition from permeable to impermeable magma. The calculated time scale (∼100-1000 s) is much shorter than the eruption repose (∼1-10 h) observed at Sakurajima volcano, Japan. This result implies that an impermeable lava dome and plug formed during the eruption repose. In contrast, the repose time (20-40 min) of Santiaguito volcano, Guatemala, is shorter than the time scale of permeability reduction (>∼10 h); this indicates that gases could not have accumulated before volcanic explosions and that other mechanisms could control eruption cyclicity.
doi_str_mv 10.1130/G35855.1
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To trap the volcanic gases in the conduit, the lava dome or plug must be impermeable. However, silicic magma undergoes brittle fracturing during ascent because its viscosity increases via dehydration and groundmass crystallization. Since fractured magma has high permeability, the reduction of permeability is a key process that allows gases to accumulate, leading to an explosion. We performed uniaxial compression experiments on rhyolite fragments at temperatures of 700-900 °C to investigate the permeability reduction of fractured rhyolite. Experimental results show that permeability is controlled by porosity, and permeability reduction can be caused by compaction of fractured magma. Based on the observed relationship between permeability and porosity, we calculate the time scale of permeability reduction, i.e., the transition from permeable to impermeable magma. The calculated time scale (∼100-1000 s) is much shorter than the eruption repose (∼1-10 h) observed at Sakurajima volcano, Japan. This result implies that an impermeable lava dome and plug formed during the eruption repose. 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The calculated time scale (∼100-1000 s) is much shorter than the eruption repose (∼1-10 h) observed at Sakurajima volcano, Japan. This result implies that an impermeable lava dome and plug formed during the eruption repose. In contrast, the repose time (20-40 min) of Santiaguito volcano, Guatemala, is shorter than the time scale of permeability reduction (&gt;∼10 h); this indicates that gases could not have accumulated before volcanic explosions and that other mechanisms could control eruption cyclicity.</abstract><cop>Boulder</cop><pub>Geological Society of America (GSA)</pub><doi>10.1130/G35855.1</doi><tpages>4</tpages></addata></record>
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1943-2682
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source GeoScienceWorld (GSW)
subjects Crystallization
cyclic processes
eruptions
experimental studies
fractures
gases
Geochemistry
high pressure
high temperature
igneous and metamorphic rocks
Igneous rocks
laboratory studies
magmas
Permeability
Petrology
Porosity
pressure
Quaternary geology
rhyolitic composition
temperature
uniaxial tests
Viscosity
volcanism
volcanoes
Volcanology
title Permeability reduction of fractured rhyolite in volcanic conduits and its control on eruption cyclicity
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