Unusual Fe-Ti-Cr spinels from discordant bodies of iron-rich ultramafic pegmatite at the Amandelbult Platinum mine, northwestern Bushveld Complex

Abstract Spinels associated with discordant bodies of iron-rich ultramafic pegmatite are described from the Amandelbult Platinum mine in the northwestern part of the Bushveld Complex. The spinels are divided into three groups, disseminated Ti-magnetite, disseminated Fe-Ti-Cr spinel and massive Fe-Ti-Cr spinel. The Fe-Ti-Cr spinels show a range of unusual compositions intermediate between chromite and Ti-magnetite. A relationship was found between stratigraphic height and spinel-type, with the Fe-Ti-Cr spinels restricted to pegmatites from the Upper Critical zone and Ti-magnetite to pegmatites from the LowerMain zone. Ilmenite is a ubiquitous component of all of the pegmatites examined here. The massive Fe-Ti-Cr oxide pegmatites are found only where earlier-formed chromitite layers are juxtaposed with sheet-like bodies of olivine-clinopyroxene pegmatite. A distinct thickening of the original chromitite layers in this situation, and compositional gradients within them, points to accretion of Fe-Ti-Cr spinels onto them prior to partial sub-solidus re-equilibration. Analytical data are presented forthese spinels and forthe Ti-magnetite. The composition of the Fe-Ti-Cr spinels is not duplicated by cumulus spinels in the Bushveld Complex, but the compositions and microtextures of the disseminated Ti-magnetite are very similar to cumulus Ti-magnetite from the Upper zone. Accordingly, it is deduced that the Ti-magnetite in the pegmatites from the Lower Main zone, together with the ilmenite, crystallized at magmatic temperatures from a suitable Fe-Ti-rich silicate-oxide melt. No evidence has been found to link the pegmatites to hydrothermal fluids. The Cr-rich nature of the disseminated spinels in pegmatites from the Upper Critical zone suggests that the pegmatite melt was richer in chromium at this stratigraphic height, although re-equilibration with earlier-formed cumulus chromite also occurred. Formation of the Fe-Ti-Cr oxide pegmatites reflects a complex process that is incompletely understood and why new oxides plate onto pre-existing chromitite layers that are juxtaposed with Fe-rich ultramafic pegmatites is a matterof conjecture.

[1]  P. Roeder,et al.  The Range of Spinel Compositions in Terrestrial Mafic and Ultramafic Rocks , 2001 .

[2]  R. N. Scoon,et al.  Discordant Iron-Rich Ultramafic Pegmatites in the Bushveld Complex and their Relationship to Iron-Rich Intercumulus and Residual Liquids , 1994 .

[3]  R. N. Scoon Comment on “Compositional convection in a reactive crystalline mush and melt differentiation” by Stephen Tait and Claude Jaupart , 1994 .

[4]  R. N. Scoon Metasomatism of cumulus magnesian olivine by iron-rich postcumulus liquids in the upper Critical Zone of the Bushveld Complex , 1987, Mineralogical Magazine.

[5]  I. Reynolds,et al.  Cryptic variations within chromitites of the upper critical zone, northwestern Bushveld Complex , 1986 .

[6]  I. Reynolds The nature and origin of titaniferous magnetite-rich layers in the upper zone of the Bushveld Complex; a review and synthesis , 1985 .

[7]  R. N. Scoon,et al.  The distribution and main geologic features of discordant bodies of iron-rich ultramafic pegmatite in the Bushveld Complex , 1985 .

[8]  H. Dick,et al.  Chromian spinel as a petrogenetic indicator in abyssal and alpine-type peridotites and spatially associated lavas , 1984 .

[9]  J. Stormer The effects of recalculation on estimates of temperature and oxygen fugacity from analyses of multicomponent iron-titanium oxides , 1983 .

[10]  J. Rucklidge,et al.  The platiniferous dunite pipes of the eastern Bushveld , 1982 .

[11]  D. Lindsley,et al.  A solution model for coexisting iron–titanium oxides , 1981 .

[12]  D. L. Buchanan A Combined Transmission Electron Microscope and Electron Microprobe Study of Bushveld Pyroxenes from the Bethal Area , 1979 .

[13]  E. Cameron,et al.  Unusual titanian-chromian spinels from the Eastern Bushveld Complex , 1973 .

[14]  E. Cameron Opaque minerals in certain lunar rocks from Apollo 11 , 1970 .

[15]  K Norrish,et al.  An accurate X-ray spectrographic method for the analysis of a wide range of geological samples , 1969 .

[16]  A. Albee,et al.  Empirical Correction Factors for the Electron Microanalysis of Silicates and Oxides , 1968, The Journal of Geology.

[17]  G. M. Brown,et al.  Layered Igneous Rocks , 1967 .

[18]  T. Irvine CHROMIAN SPINEL AS A PETROGENETIC INDICATOR: PART 2. PETROLOGIC APPLICATIONS , 1967 .

[19]  E. Cameron,et al.  Origin of certain magnetite-bearing pegmatites in the eastern part of the Bushveld complex, South Africa , 1964 .

[20]  A. M. Bateman The formation of late magmatic oxide ores , 1951 .

[21]  B. Wasserstein Some notes on the critical zone of the Bushveld Gabbro at the Swartkop Chrome Mine in the Rustenburg District , 1937 .

[22]  J. Parkinson The Platinum Deposits and Mines of South Africa , 1930, Nature.