Origin of the Pegmatitic Pyroxenite in the Merensky Unit, Bushveld Complex, South Africa

doi:10.1093/petrology/egl017

Journal of Petrology Advance Access published online on March 28, 2006
Journal of Petrology, doi:10.1093/petrology/egl017

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© The Author 2006. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org
Received May 20, 2005
Accepted March 3, 2006

Article

Origin of the Pegmatitic Pyroxenite in the Merensky Unit, Bushveld Complex, South Africa

R. GRANT CAWTHORN ¹ ^* and KEVIN BOERST ¹

¹ DEPARTMENT OF GEOSCIENCES, UNIVERSITY OF THE WITWATERSRAND, PO WITS, 2050, SOUTH AFRICA

^* To whom correspondence should be addressed.
R. GRANT CAWTHORN, E-mail: cawthorng{at}geosciences.wits.ac.za

Abstract

The genesis of the pegmatitic pyroxenite that often forms thebase of the Merensky Unit in the Bushveld Complex is re-examined.Large (>1 cm) orthopyroxene grains contain tricuspidate inclusionsof plagioclase, and chains and rings of chromite grains, whichare interpreted to have grown by reaction between small, primaryorthopyroxene grains and superheated liquid. This superheatedliquid may have been an added magma or be due to a pressurereduction as a result of lateral expansion of the chamber. Therewould then have been a period of non-accumulation of grains,permitting prolonged interaction with the crystal mush at thecrystal-liquid interface. Crystal ageing and grain enlargementof original orthopyroxene grains would ensue. Only after thepegmatitic pyroxenite had developed did another layer of chromiteand pyroxenite, with normal grain size, accumulate above it.Immiscible sulphide liquids formed with the second pyroxenite,but percolated down as a result of their density contrast, evenas far as the footwall anorthosite in some cases. Whole-rockabundances of incompatible trace elements in the pegmatiticpyroxenite are comparable with or lower than those of the overlyingpyroxenite, and so there is no evidence for addition and/ortrapping of large proportions of interstitial liquid, or ofan incompatible-element enriched liquid or fluid in the productionof the pegmatitic rock. Because of the coarse-grained natureof the rock, modal analysis, especially for minor minerals,is unreliable. Annealing has destroyed primary textures, suchthat petrographic studies should not be used in isolation todistinguish cumulus and intercumulus components. Geochemicaldata suggest that the Merensky pyroxenite (both pegmatitic andnon-pegmatitic) typically consists of about 70-80% cumulus orthopyroxeneand 10-20% cumulus plagioclase, with a further 10% of intercumulusminerals, and could be considered to be a heteradcumulate.

Keywords: Bushveld Complex; Merensky Reef; pegmatitic textures; cumulate processes; heteradcumulates; recrystallization; incompatible trace elements.

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