Rapid and slow: Varying magma ascent rates as a mechanism for Vulcanian explosions

Vulcanian explosions are one of the most common types of volcanic activity observed at silicic volcanoes. Magma ascent rates are often invoked as being the fundamental control on their explosivity, yet this factor is poorly constrained for low magnitude end-member Vulcanian explosions, which are par...

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Veröffentlicht in:	Earth and planetary science letters 2015-06, Vol.420, p.73-84
Hauptverfasser:	Cassidy, Mike, Cole, Paul.D., Hicks, Kelby E., Varley, Nick R., Peters, Nial, Lerner, Allan H.
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Sprache:	eng
Schlagworte:	Ascent Ashes conduit dynamics Conduits Degassing effusive–explosive Explosions Fluxes Heterogeneity Magma microlites SO2 Volcán de Colima
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description	Vulcanian explosions are one of the most common types of volcanic activity observed at silicic volcanoes. Magma ascent rates are often invoked as being the fundamental control on their explosivity, yet this factor is poorly constrained for low magnitude end-member Vulcanian explosions, which are particularly poorly understood, partly due to the rarity of ash samples and low gas fluxes. We describe ash generated by small Vulcanian explosions at Volcán de Colima in 2013, where we document for the first time marked differences in the vesicularity, crystal characteristics (volume fraction, size and shape) and glass compositions in juvenile material from discrete events. We interpret these variations as representing differing ascent styles and speeds of magma pulses within the conduit. Heterogeneous degassing during ascent leads to fast ascending, gas-rich magma pulses together with slow ascending gas-poor magma pulses within the same conduit. This inferred heterogeneity is complemented by SO2 flux data, which show transient episodes of both open and closed system degassing, indicating efficient shallow fracture sealing mechanisms, which allows for gas overpressure to generate small Vulcanian explosions. •SO2 flux and petrographic data are used to understand Vulcanian explosions.•Differences in vesicularity, crystallinity and glass chemistry show distinct magmas.•Different ascent rates are presented for gas-rich and gas-poor magma pulses.•Transient episodes of closed and open system degassing control the explosions.•Range of clasts erupted in other volcanoes may also show ascent rate differences.
doi_str_mv	10.1016/j.epsl.2015.03.025
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subjects	Ascent Ashes conduit dynamics Conduits Degassing effusive–explosive Explosions Fluxes Heterogeneity Magma microlites SO2 Volcán de Colima
title	Rapid and slow: Varying magma ascent rates as a mechanism for Vulcanian explosions
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