Volcanic conduit failure as a trigger to magma fragmentation

In the assessment of volcanic risk, it is often assumed that magma ascending at a slow rate will erupt effusively, whereas magma ascending at fast rate will lead to an explosive eruption. Mechanistically viewed, this assessment is supported by the notion that the viscoelastic nature of magma (i.e.,...

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Published in:Bulletin of volcanology 2012-01, Vol.74 (1), p.11-13
Main Authors: Lavallée, Y., Benson, P. M., Heap, M. J., Flaws, A., Hess, K.-U., Dingwell, D. B.
Format: Article
Language:English
Subjects:
Crystalline rocks
Earth and Environmental Science
Earth Sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Environmental Sciences
Exact sciences and technology
Geological hazards
Geology
Geophysics
Geophysics/Geodesy
Global Changes
Igneous and metamorphic rocks petrology, volcanic processes, magmas
Magma
Mineralogy
Natural hazards: prediction, damages, etc
Permeability
Physics
Rheology
Sciences of the Universe
Sedimentology
Short Scientific Communication
Simulation
Volcanic eruptions
Volcanoes
Volcanology
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description In the assessment of volcanic risk, it is often assumed that magma ascending at a slow rate will erupt effusively, whereas magma ascending at fast rate will lead to an explosive eruption. Mechanistically viewed, this assessment is supported by the notion that the viscoelastic nature of magma (i.e., the ability of magma to relax at an applied strain rate), linked via the gradient of flow pressure (related to discharge rate), controls the eruption style. In such an analysis, the physical interactions between the magma and the conduit wall are commonly, to a first order, neglected. Yet, during ascent, magma must force its way through the volcanic edifice/structure, whose presence and form may greatly affect the stress field through which the magma is trying to ascend. Here, we demonstrate that fracturing of the conduit wall via flow pressure releases an elastic shock resulting in fracturing of the viscous magma itself. We find that magma fragmentation occurred at strain rates seven orders of magnitude slower than theoretically anticipated from the applied axial strain rate. Our conclusion, that the discharge rate cannot provide a reliable indication of ascending magma rheology without knowledge of conduit wall stability, has important ramifications for volcanic hazard assessment. New numerical simulations are now needed in order to integrate magma/conduit interaction into eruption models.
doi_str_mv 10.1007/s00445-011-0544-2
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subjects Crystalline rocks
Earth and Environmental Science
Earth Sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Environmental Sciences
Exact sciences and technology
Geological hazards
Geology
Geophysics
Geophysics/Geodesy
Global Changes
Igneous and metamorphic rocks petrology, volcanic processes, magmas
Magma
Mineralogy
Natural hazards: prediction, damages, etc
Permeability
Physics
Rheology
Sciences of the Universe
Sedimentology
Short Scientific Communication
Simulation
Volcanic eruptions
Volcanoes
Volcanology
title Volcanic conduit failure as a trigger to magma fragmentation
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