Journal of Petrology Advance Access originally published online on March 15, 2009
Journal of Petrology 2009 50(4):571-589; doi:10.1093/petrology/egp011
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Zircon Behaviour during Low-temperature Metamorphism
Department of Geographical and Earth Sciences, University of Glasgow, Glasgow G12 8QQ, UK
RECEIVED JANUARY 1, 2008; ACCEPTED JANUARY 1, 2009
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Abstract |
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Zircon in greenschist-facies metasedimentary rocks from the Scottish Highlands displays a range of complex textures that reflect low-temperature alteration of original detrital grains. In situ back-scattered electron, cathodoluminescence, electron backscatter diffraction and chemical analyses show that altered zircon is porous, weakly luminescent, enriched in non-formula elements such as Al and Fe, and is associated with fractures within the host zircon. The low-temperature zircon appears to be nano-crystalline and to replace U-rich zircon via modification of whole grains or selective alteration of parts of grains, and is linked to the development of zircon outgrowths. The altered zircon is also associated with epitaxial xenotime outgrowths and inclusions. Low-temperature zircon is abundant in slates and other mica-rich samples and its formation is linked to a dissolution–reprecipitation mechanism. Zircon within quartz-rich host rocks typically shows evidence of deformation and the resulting fractures enhance its dissolution, creating rounded embayed morphologies. In contrast, zircon from phyllosilicate-rich rocks contains more new low-temperature growth. Zircon alters during both prograde and retrograde metamorphic events and its development is controlled by both the progressive accumulation of radiation damage in the host grain and the access of metamorphic fluids to the metamict zircon.
KEY WORDS: zircon; metamorphism; dissolution; metamict; greenschist facies
*Corresponding author. Telephone: 00441413305445. Fax: 00441413304817. E-mail: Tim.Dempster{at}ges.gla.ac.uk