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Geochemistry and tectonic significance of the Mesoproterozoic Kgwebe metavolcanic rocks in northwest Botswana: implications for the evolution of the Kibaran Namaqua-Natal Belt

Published online by Cambridge University Press:  01 September 1998

A. B. KAMPUNZU
Affiliation:
Department of Geology, University of Botswana, Private Bag 0022, Gaborone, Botswana
P. AKANYANG
Affiliation:
Geological Survey, Private Bag 14, Lobatse, Botswana
R. B. M. MAPEO
Affiliation:
Geological Survey, Private Bag 14, Lobatse, Botswana
B. N. MODIE
Affiliation:
Geological Survey, Private Bag 14, Lobatse, Botswana
M. WENDORFF
Affiliation:
Department of Geology, University of Botswana, Private Bag 0022, Gaborone, Botswana

Abstract

The c. 1.1 Ga Kgwebe metavolcanic rocks exposed in the northwest of Botswana are late Kibaran rocks. They represent a bimodal suite of Within-Plate low titanium-phosphorus (LTP) continental tholeiites and post-orogenic Within-Plate high-K rhyolites. The chemical compositions of the Kgwebe mafic rocks are characterized by low values of Ce/Pb (<10) and high La/Nb ratios (average c. 2, maximum 4). Mid-ocean ridge basalts (MORB)-normalized spidergrams show marked enrichment in mobile elements (Sr, K, Rb, Ba) and negative anomalies in Nb. These features suggest they may have originated in a mantle, enriched during a previous subduction event. The Kgwebe metarhyolites are marked by Y>60 ppm, Sr/Y<1, Rb/Th>20 and high K-contents. They cannot therefore be the product of melting of sediments or a subducting slab. It is inferred that they represent felsic magmas resulting from melting of Mesoproterozoic (Kibaran) calcalkaline rocks underplated in the middle and/or lower crust. The Kgwebe bimodal metavolcanic rocks pre-date the Neoproterozoic Ghanzi Group rocks which are correlated with the lower part of the Damara sequence. The chemical composition and field relations suggest that these metavolcanic rocks were emplaced during a late orogenic collision-associated extensional collapse. This collapse affected a crust thickened during the Kibaran orogeny in the Namaqua-Natal Belt of southwest Africa.

Type
Research Article
Copyright
© 1998 Cambridge University Press

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