Magma Emplacement and Remobilization Timescales Beneath Montserrat: Insights from Sr and Ba Zonation in Plagioclase Phenocrysts

doi:10.1093/petrology/44.8.1413

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Journal of Petrology | Volume 44 | Number 8 | Pages 1413-1431 | 2003
© Oxford University Press 2003

Magma Emplacement and Remobilization Timescales Beneath Montserrat: Insights from Sr and Ba Zonation in Plagioclase Phenocrysts

G. F. ZELLMER¹^,*, R. S. J. SPARKS¹, C. J. HAWKESWORTH¹ and M. WIEDENBECK²

¹ DEPARTMENT OF EARTH SCIENCES, UNIVERSITY OF BRISTOL, WILLS MEMORIAL BUILDING, QUEENS ROAD, BRISTOL BS8 1RJ, UK
² GEOFORSCHUNGSZENTRUM POTSDAM, PROJEKTBEREICH 4.2, TELEGRAFENBERG, 14473 POTSDAM, GERMANY

^* Corresponding author. Present address: Lamont–Doherty Earth Observatory, 61 Route 9W, Palisades, NY 10964, USA. Telephone: +1-845-365-8907. Fax: +44-845-365-8155. E-mail: gzellmer{at}ldeo.columbia.edu

Since 1995, the Soufrière Hills volcano on Montserrat,Lesser Antilles island arc, has erupted crystal-rich andesitemagma that is geochemically very similar to the volcanic productsof at least the last 174 ± 3 kyr (1 ${sigma}$ ). Nomarski imagesof plagioclase phenocrysts from six andesites erupted between151 ± 4 ka (1 ${sigma}$ ) and AD 1999 reveal multiple crystal resorptionevents, and major shifts in anorthite content suggest that theseare due to temperature variations. A model is developed thatuses partitioning data for Ba and Sr to quantify the degreeof intracrystalline disequilibrium of these elements with respectto anorthite content in 12 selected plagioclase phenocrysts.Intracrystalline diffusive equilibration of both Ba and Sr profilesis incomplete. However, local disequilibria do not consistentlydecrease towards crystal cores, i.e. potential differences betweencore and rim ages cannot be resolved, and so the timescale forcrystal growth is considerably shorter than their residencetime at magmatic temperatures. Using two-dimensional finitedifference modelling of intracrystalline Sr diffusion as a first-orderapproximation of diffusion in three dimensions, it is possibleto calculate bulk crystal residence times at the estimated SoufrièreHills magmatic temperature of 850°C. These range from $~$ 10to $~$ 1200 years, independent of eruption age. Crystal residencetimes in the currently erupting andesite range from $~$ 15 to $~$ 320years. Diffusion in three dimensions would result in shorterresidence times. Such results can be explained by repeated intrusionof small volumes of andesitic material to upper-crustal levels,followed by rapid crystallization during degassing and rapidcooling. Remobilization of the intruded andesites by influxof hotter, more mafic magma, and amalgamation of andesites ofdifferent crystallization ages by associated convective processes,produced the currently erupting andesite that contains abundantinclusions of mafic magma. The short residence times of andesitemagma in the upper crust, and the episodic character of volcanismat the Soufrière Hills with short periods of intensevolcanism alternating with much longer periods of dormancy,are consistent with deep magma generation and storage and withepisodic ascent to form ephemeral shallow chambers.

KEY WORDS: plagioclase; crystallization; trace element zonation; diffusion

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