Abstract
M.Sc.
High-grade hematite ores at the Thabazimbi Mine, Limpopo Province, occur as stratabound bodies in
the Early Paleoproterozoic Penge Iron Formation of the Transvaal Supergroup. Iron ores occur at
three distinct positions in the Penge Iron Formation (i) basal ore bodies located immediately above a
thin oxidised shale unit that marks the base of the Penge Iron Formation in the Thabazimbi area and
that may be interpreted as a structural contact towards the underlying dolostones of the Malmani
Subgroup; (ii) ore bodies developed immediately above a prominent mafic sill in the Penge Iron
Formation; (iii) small, lenticular ore bodies developed in the iron-formation without apparent
structural control. Ore bodies in all three stratigraphic positions formed on the expense of the Penge
Iron Formation protore, they share very similar mineralogical and textural attributes and can be
subdivided into three major ore types with respect to their mineralogy and physical characteristics,
namely, (a) carbonate-hematite ore; (b) hard hematite ore; (c) supergene modified ore. Further
subdivision into subtypes is possible based on textural attributes. The first stage of iron ore formation
at the Thabazimbi deposit is marked by oxidation of ferrous minerals (carbonates and grunerite) and
their replacement by hematite. Efficient leaching and replacement of chert in the iron-formation to
produce high-grade hematite ores characterizes the second stage of alteration. Stable isotope and fluid
inclusion evidence point to a hydrothermal origin of the iron ores. Two hydrothermal fluids were
identified, namely a highly saline Ca-Mg-rich brine (S = 27 wt% NaClequiv, TH = 160ºC) and a Nadominated
fluid of intermediate salinity (S = 10 wt% NaClequiv, TH = 130ºC) that is possibly of meteoric
origin. The results obtained in this study are used to propose the following sequence of mineralising
events for the Thabazimbi iron ore deposit: (i) Deposition of iron-formation and diagenesis; (ii)
contact metamorphic alteration related to the intrusion of the Bushveld igneous complex; (iii)
metasomatic oxidation, leaching and residual upgrading that is tentatively linked to structurallycontrolled
hydrothermal fluid flow; (iv) supergene modification of existing high-grade ore bodies in
post-Gondwana times along the old African land surface.