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Citation |
Clarke AB, Voight B, Neri A, Macedonio G. Nature 2002; 415(6874): 897-901. |
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Affiliation |
Department of Geosciences, Penn State University, University Park, Pennsylvania 16802, USA. aclarke@geosc.psu.edu |
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Copyright |
(Copyright © 2002, Holtzbrinck Springer Nature Publishing Group) |
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DOI |
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PMID |
11859366 |
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Abstract |
Several analytical and numerical eruption models have provided insight into volcanic eruption behaviour, but most address plinian-type eruptions where vent conditions are quasi-steady. Only a few studies have explored the physics of short-duration vulcanian explosions with unsteady vent conditions and blast events. Here we present a technique that links unsteady vent flux of vulcanian explosions to the resulting dispersal of volcanic ejecta, using a numerical, axisymmetric model with multiple particle sizes. We use observational data from well documented explosions in 1997 at the Soufrière Hills volcano in Montserrat, West Indies, to constrain pre-eruptive subsurface initial conditions and to compare with our simulation results. The resulting simulations duplicate many features of the observed explosions, showing transitional behaviour where mass is divided between a buoyant plume and hazardous radial pyroclastic currents fed by a collapsing fountain. We find that leakage of volcanic gas from the conduit through surrounding rocks over a short period (of the order of 10 hours) or retarded exsolution can dictate the style of explosion. Our simulations also reveal the internal plume dynamics and particle-size segregation mechanisms that may occur in such eruptions. Language: en |