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Triggering basaltic volcanic eruptions by bubble-melt separation

Andrew W. Woods and Silvana S. S. Cardoso
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Andrew W. Woods: University of Bristol
Silvana S. S. Cardoso: University of Cambridge

Nature, 1997, vol. 385, issue 6616, 518-520

Abstract: Abstract Understanding the processes by which volcanic eruptions are triggered is crucial for volcanic hazard prediction and assessment. In intermediate and silicic magmas, where water is the dominant volatile phase1,2, 'second boiling' provides an effective eruption trigger1—as the magma cools and crystallizes, volatiles are increasingly concentrated in the residual melt where they eventually become saturated and are exsolved, thereby raising the magma pressure to the point of eruption1,2. In contrast, in basaltic magma chambers in which carbon dioxide is the dominant volatile phase, the effect of second boiling is to decrease the chamber pressure. But basaltic magmas are also relatively inviscid, so volatile bubbles can separate from the turbulently convecting melt to produce a foam layer at the chamber roof3,4: decompression of the rising bubbles can increase the chamber pressure and so trigger an eruption5,6. Here we model the complex competition between the processes of magma cooling and bubble ascent. We find that in basalt of very low viscosity (1–10Pas), bubble separation dominates and can increase the reservoir pressure by as much as 10 MPa (sufficient to trigger an eruption7) on timescales of 1–10 years, comparable to the duration of eruptive episodes at Kilauea volcano, Hawaii4,8.

Date: 1997
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DOI: 10.1038/385518a0

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