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Recent advances in the geology of Koffiefontein Mine, Free State Province, South Africa |
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| Authors: | P Naidoo J Stiefenhofer M Field R Dobbe |
| Institution: | a De Beers Koffiefontein Mine, South Africa b De Beers Mineral Resource Management, CHQ, South Africa c De Beers Geoscience Centre, South Africa d De Beers Central Mines, South Africa e De Beers Mineral Resource Management R&D Group, Wells, UK |
| Abstract: | The complex internal geology of the Koffiefontein pipe has contributed to the marginal nature of the mine. The key to this is the presence of a large zone dominated by down-rafted country rock Karoo sediment and dolerite xenoliths. Recent work indicates that the kimberlite pipe at Koffiefontein consists of precursor dykes (the West and East Fissures), and the main pipe, in which two main eruptive phases have been recognized. Groundmass spinel compositions have been used to provide a chemical fingerprint of each lithology. There is evidence for at least three magma batches, each with its own chemical signature. Cross-cutting contact relationships were used to determine the emplacement sequence. The characterization of the different internal geological units permitted the development of a three-dimensional (3D) model of the pipe. Both main eruptive phases, viz., the Speckled west kimberlite and the Speckled east kimberlite comprise volcaniclastic kimberlite. They are separated by a large irregular mass of kimberlite that contains abundant country rock xenoliths comprising varying proportions of Karoo mudstone and dolerite, as well as probable bedded crater–facies fragments. This zone of contamination dilutes the grade of the kimberlites, affects the geotechnical stability and adversely affects the economics of the mine. |
| Keywords: | Kimberlite Emplacement Spinel Contamination |
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