Abstract
We have found a new source of information about what lies beneath the Kalahari sands. The Kheis and Rehoboth Provinces of southern Africa were thought to be underlain by either an ~1800Ma orogenic belt, or a northern branch of the ~1200Ma Namaqua-Natal Province. Glacial diamictites of the Permocarboniferous Dwyka Group exposed at Rietfontein west of the Kalahari sands carry cobbles plucked from the bedrock by the ice sheet which covered the Gondwana supercontinent about 300Ma ago. Despite altered mineralogy, the cobbles are not severely altered geochemically. Their normative mineral compositions give classifications as trondhjemites and granites, supported by rare earth element diagrams. Microbeam U-Pb zircon dating of the granitic cobbles shows that they contain no evidence of crustal growth or orogeny at either 1800 or 1200Ma. Rather they testify to the presence of 2500 to 2900Ma Archaean trondhjemitic and granitic crust beneath the Kalahari, with a lesser ~2050Ma granite component. The pebble assemblages from the diamictites we sampled lack the diagnostic banded iron formation (BIF), stromatolitic limestone and other supracrustal pebbles which characterise diamictites derived from the Kaapvaal Craton, thus we envisage shorter transport distances and derivation from the region now beneath the Kalahari sands. Three of the Archaean granite cobbles have unusual less-than-mantle zircon oxygen isotope values around +3 (δ18O VSMOW), which may reflect interaction of their source with high-temperature, originally meteoric water before melting to produce the granites. The mafic cobbles described in a companion paper are much younger and are related to intrusions of the 1.1Ga Umkondo Large Igneous Province, probably located on the Kalahari Line or Rehoboth Province.Five trondhjemitic granites from the westernmost outcrops of the Kaapvaal Craton were dated, the oldest being 3061 ± 9. Ma and four others between 2882 ± 7. Ma and 2854 ± 7. Ma, reflecting the cratonisation of the Kimberley Terrane. Four of the Archaean Dwyka cobbles we dated are younger than the 2.7. Ga Kaapvaal cover sequence and are thus too young to be derived from the craton.All the Dwyka cobbles described here are most likely derived from either the Rehoboth Province or the Kalahari Line with origins from the Kheis Province, Kaapvaal Craton, or further afield considered unlikely. We envisage the Rehoboth Province to consist of an Archaean core supplemented by Palaeoproterozoic granitoids, which was joined to the Kaapvaal Craton at an early stage of crustal development and played an important role during later tectonic events. This has important implications not only for the tectonic framework and assembly of Southern Africa, but also for exploration for diamonds and other ore deposits.
Original language | English |
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Pages (from-to) | 482-502 |
Number of pages | 21 |
Journal | Lithos |
Volume | 125 |
Issue number | 1-2 |
DOIs | |
Publication status | Published - Jul 2011 |
Bibliographical note
Funding Information:This paper is dedicated to the memory of Gawie Moen, a gentle giant who contributed greatly to the Kheis Province debate. DHC acknowledges a Swedish National Research Council grant no. 2006–2402 . OI received a travel grant from the University of Iceland Research Fund. The careful reviews by R. Mapeo and W. Altermann improved the quality of this paper. Martin Whitehouse and the NordSIM team are gratefully acknowledged for their help with ion probe dating and important contributions regarding the method and quality control of oxygen isotope analysis of zircon. The NordSIM facility is supported by the research councils in Denmark Norway and Sweden and the Geological Survey of Finland, together with the Swedish Museum of Natural History. This is Nordsim contribution no. 287 and a contribution to IGCP project 509, Palaeoproterozoic Supercontinents and Global Evolution.
Other keywords
- Dwyka Formation
- Ion probe zircon dating
- Kaapvaal Craton
- Kalahari
- Rehoboth Province
- Zircon oxygen isotope