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Journal of Petrology Advance Access originally published online on April 28, 2007
Journal of Petrology 2007 48(6):1119-1154; doi:10.1093/petrology/egm012
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© The Author 2007. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org

Origin of CFB Magmatism: Multi-tiered Intracrustal Picrite–Rhyolite Magmatic Plumbing at Spitzkoppe, Western Namibia, during Early Cretaceous Etendeka Magmatism

R. N. Thompson1,*, A. J. V. Riches1,{dagger}, P. M. Antoshechkina2, D. G. Pearson1, G. M. Nowell1, C. J. Ottley1, A. P. Dickin3, V. L. Hards4, A.-K. Nguno5 and V. Niku-Paavola5,{ddagger}

1Department of Geological Sciences, Durham University, South Road, Durham DH1 3LE, UK
2Division of Geological and Planetary Sciences, California Institute of Technology, MC 170-25, Pasadena, CA 91125, USA
3Department of Geology, McMaster University, 1280 Main Street West, Hamilton, Ontario, Canada L8S 4M1
4British Geological Survey, Keyworth, Nottingham NG12 5GG, UK
5Geological Survey of Namibia, 1 Aviation Road, Private Bag 13297, Windhoek, Namibia

RECEIVED FEBRUARY 22, 2006; ACCEPTED FEBRUARY 27, 2007


  Abstract

Early Cretaceous tholeiitic picrite-to-rhyolite dykes around Spitzkoppe, western Namibia, are part of the extensive Henties Bay–Outjo swarm, penecontemporaneous with ~132 Ma Etendeka lavas ~100 km to the NW. Although only intermediate to rhyolitic dykes contain clinopyroxene phenocrysts, the behaviour of Ca, Al and Sc in the dyke suite shows that liquidus clinopyroxene—together with olivine—was a fractionating phase when MgO fell to ~9 wt %. Both a plot of CIPW normative di–hy–ol–ne–Q and modelling using (p)MELTS show that a mid-crustal pressure of ~ 0·6 GPa is consistent with this early clinopyroxene saturation. Sr, Nd, Hf and Pb isotope variations all show trends consistent with AFC contamination (assimilation linked to fractional crystallization), involving Pan-African Damara belt continental crust. The geochemical variation, including isenthalpic AFC modelling using (p)MELTS, suggests that the picrites (olivine-rich cumulate suspensions) were interacting with granulite-facies metamorphic lower crust, the intermediate compositions with amphibolite-facies middle crust, and the rhyolitic dykes (and a few of the basalts) with the Pan-African granites of the upper crust. The calculated densities of the magmas fall systematically from picrite to rhyolite and suggest a magmatic system resembling a stack of sills throughout the crust beneath Spitzkoppe, with the storage and fractionation depth of each magma fraction controlled by its density. Elemental and isotopic features of the ~20 wt % MgO picrites (including Os isotopes) suggest that their parental melts probably originated by fusion of mid-ocean ridge basalt (MORB) source convecting mantle, followed by limited reaction with sub-continental lithospheric mantle metasomatized just prior to the formation of the parental magmas. Many of the distinctive features of large-volume picritic–basaltic magmas may not be derived from their ultimate mantle sources, but may instead be the results of complex polybaric fractional crystallization and multi-component crustal contamination.

KEY WORDS: flood basalts; Spitzkoppe; picrite; trace elements; hafnium isotopes; Etendeka

*Corresponding author. E-mail: r.n.thompson{at}durham.ac.uk

{dagger} Present address: Department of Earth Sciences, The Open University, Walton Hall, Milton Keynes MK7 6AA, UK.

{ddagger} Present address: Directorate of Diamond Affairs, Ministry of Mines and Energy, 1 Aviation Road, Windhoek, Namibia.


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