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Magmatic Evolution and Ascent History of the Aries Micaceous Kimberlite, Central Kimberley Basin, Western Australia: Evidence from Zoned Phlogopite Phenocrysts, and UV Laser 40Ar/39Ar Analysis of Phlogopite-Biotite |
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| Authors: | DOWNES, PETER J. WARTHO, JO-ANNE GRIFFIN, BRENDAN J. |
| Affiliation: | 1 WESTERN AUSTRALIAN MUSEUM, FRANCIS ST PERTH, WESTERN AUSTRALIA, 6000, AUSTRALIA 2 JOHN DE LAETER CENTRE OF MASS SPECTROMETRY, DEPARTMENT OF APPLIED GEOLOGY, CURTIN UNIVERSITY OF TECHNOLOGY HAYMAN ROAD, BENTLEY, WESTERN AUSTRALIA, 6102, AUSTRALIA 3 CENTRE FOR MICROSCOPY AND MICROANALYSIS, UNIVERSITY OF WESTERN AUSTRALIA CRAWLEY, WESTERN AUSTRALIA, 6009, AUSTRALIA |
| Abstract: | The Neoproterozoic Aries kimberlite was emplaced in the centralKimberley Basin, Western Australia, as a NNNE-trendingseries of three diatremes infilled by lithic-rich kimberlitebreccias. The breccias are intruded by hypabyssal macrocrysticphlogopite kimberlite dykes that exhibit differentiation toa minor, high-NaSi, olivinephlogopiterichteritekimberlite, and late-stage macrocrystic serpentinediopsideultramafic dykes. Mineralogical and geochemical evidence suggeststhat the high-NaSi, olivinephlogopiterichteritekimberlite was derived from the macrocrystic phlogopite kimberliteas a residual liquid following extended phlogopite crystallizationand the assimilation of country rock sandstone, and that themacrocrystic serpentinediopside ultramafic dykes formedas mafic cumulates from a macrocrystic phlogopite kimberlite.Chemical zonation of phlogopitebiotite phenocrysts indicatesa complex magmatic history for the Aries kimberlite, with theearly inheritance of a range of high-Ti phlogopitebiotitexenocrysts from metasomatized mantle lithologies, followed bythe crystallization of a population of high-Cr phlogopite phenocrystswithin the spinel facies lithospheric mantle. A further oneto two phlogopitebiotite overgrowth rims of distinctcomposition formed on the phlogopite phenocrysts at higher levelsduring ascent to the surface. Ultra-violet laser 40Ar/39Ar datingof mica grain rims yielded a kimberlite eruption age of 815·4± 4·3 Ma (95% confidence). 40Ar/39Ar laser profilingof one high-Ti phlogopite-biotite macrocryst revealed a radiogenic40Ar diffusive loss profile, from which a kimberlite magma ascentduration from the spinel facies lithospheric mantle was estimated(assuming an average kimberlite magma temperature of 1000°C),yielding a value of  0·232·32 days for thenorth extension lobe of the Aries kimberlite. KEY WORDS: 40Ar/39Ar; diamond; kimberlite; mantle metasomatism; phlogopitebiotite |
| Keywords: | : 40Ar/39Ar diamond kimberlite mantle metasomatism phlogopite– biotite |
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