Experimental Constraints on the Conditions of Formation of Highly Calcic Plagioclase Microlites at the Soufrire Hills Volcano, Montserrat

doi:10.1093/petrology/44.8.1455

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Journal of Petrology | Volume 44 | Number 8 | Pages 1455-1475 | 2003
© Oxford University Press 2003

Experimental Constraints on the Conditions of Formation of Highly Calcic Plagioclase Microlites at the Soufrire Hills Volcano, Montserrat

S. COUCH¹^,2^,*, C. L. HARFORD¹, R. S. J. SPARKS¹ and M. R. CARROLL³

¹ DEPARTMENT OF EARTH SCIENCES, BRISTOL UNIVERSITY, BRISTOL BS8 1RJ, UK
² SCHOOL OF ENVIRONMENTAL SCIENCE, UNIVERSITY OF EAST ANGLIA, NORWICH NR4 7TJ, UK
³ DIPARTMENTO DE SCIENZE DELLA TERRA, UNIVERSITA DI CAMERINO, 62032 CAMERINO, ITALY

^* Corresponding author. Present address: Department of Earth Sciences, Bristol University, Bristol BS8 1RJ, UK. E-mail: S.Couch{at}mail.com

High-pressure and -temperature experiments on a bulk-rock compositionrepresentative of the groundmass of the Soufrière HillsVolcano andesite have allowed the phase equilibria of the systemto be determined; these are then compared with the natural samples.Experimental conditions varied from 825 to 1100°C and from5 to 225 MPa; the main phases observed were clinopyroxene, crystallinesilica, amphibole and plagioclase. A relationship between plagioclasemicrolite size and anorthite content is identified in samplesof the natural andesite. Large crystals (>60 µm² inarea) have cores of An_60–75, whereas small crystals (<60µm² in area) have cores of An₄₀_–60. Experimentalresults show that if the magma is heated to >950°C thehigh-anorthite microlite crystals can form at magma chamberpressures without any need for a change in bulk composition.It is proposed that convective self-mixing occurs within themagma chamber. Geothermometry of coexisting plagioclase–amphibolepairs confirms the complex crystallization history of the naturalsamples. Analysis of natural glass samples has identified compositionalvariations that can be related to the crystallinity of the sampleand also the groundmass plagioclase composition. Rapidly eruptedpumice samples have high glass contents, lower SiO₂ glass compositionsand plagioclase microlites that are large in size (>60 µm²)and have a high anorthite content (>An₆₀). Slowly erupteddome samples are highly crystalline and contain numerous plagioclasemicrolites of variable size and composition.

KEY WORDS: glass evolution; experiment; Montserrat; plagioclase; self-mixing

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