Nature 443, 76-80 (7 September 2006) | doi:10.1038/nature05100; Received 15 March 2006; Accepted 17 July 2006

Magma heating by decompression-driven crystallization beneath andesite volcanoes

Jon Blundy1, Kathy Cashman2 and Madeleine Humphreys1

Explosive volcanic eruptions are driven by exsolution of H2O-rich vapour from silicic magma1. Eruption dynamics involve a complex interplay between nucleation and growth of vapour bubbles and crystallization, generating highly nonlinear variation in the physical properties of magma as it ascends beneath a volcano2. This makes explosive volcanism difficult to model and, ultimately, to predict. A key unknown is the temperature variation in magma rising through the sub-volcanic system, as it loses gas and crystallizes en route3. Thermodynamic modelling of magma that degasses, but does not crystallize, indicates that both cooling and heating are possible4. Hitherto it has not been possible to evaluate such alternatives because of the difficulty of tracking temperature variations in moving magma several kilometres below the surface. Here we extend recent work on glassy melt inclusions trapped in plagioclase crystals5 to develop a method for tracking pressure–temperature–crystallinity paths in magma beneath two active andesite volcanoes. We use dissolved H2O in melt inclusions to constrain the pressure of H2O at the time an inclusion became sealed, incompatible trace element concentrations to calculate the corresponding magma crystallinity and plagioclase–melt geothermometry to determine the temperature. These data are allied to ilmenite–magnetite geothermometry to show that the temperature of ascending magma increases by up to 100 °C, owing to the release of latent heat of crystallization. This heating can account for several common textural features of andesitic magmas, which might otherwise be erroneously attributed to pre-eruptive magma mixing.

  1. Department of Earth Sciences, University of Bristol, Wills Memorial Building, Bristol BS8 1RJ, UK
  2. Department of Geological Sciences, University of Oregon, Eugene, Oregon 97403-1272, USA

Correspondence to: Jon Blundy1 Correspondence and requests for materials should be addressed to J.B. (Email: Jon.Blundy@bris.ac.uk).


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