Hostname: page-component-78c5997874-xbtfd Total loading time: 0 Render date: 2024-11-10T11:37:49.926Z Has data issue: false hasContentIssue false
  • English
  • Français

Isoferroplatinum-pyrrhotite-troilite intergrowth as evidence of desulfurization in the Merensky Reef at Rustenburg (western Bushveld Complex, South Africa)

Published online by Cambridge University Press:  02 January 2018

Alexander Kawohl  and
Hartwig E. Frimmel
Alexander Kawohl*
Affiliation:
Institute of Geography and Geology, University of Würzburg, Am Hubland D-97074, Würzburg, Germany Department of Geological Sciences, University of Cape Town, Rondebosch 7700, South Africa
Hartwig E. Frimmel
Affiliation:
Institute of Geography and Geology, University of Würzburg, Am Hubland D-97074, Würzburg, Germany Department of Geological Sciences, University of Cape Town, Rondebosch 7700, South Africa
*
*E-mail: alex.kawohl@yahoo.de
Get access Rights & Permissions [Opens in a new window]

Abstract

Petrographic and mineralogical studies of samples of the Normal (or undisturbed) Merensky Reef from Frank Shaft No.1 at Rustenburg Platinum Mine revealed the presence of a Pt-Fe-alloy, probably isoferroplatinum (58 vol.% of total precious metal minerals), arsenides (21 vol.%), bismuthotellurides (10 vol.%), electrum (9 vol.%) and platinum group element- (PGE-) sulfides and stannides (2 vol.%), associated predominantly with base-metal- and iron-sulfides. A Pt-Fe-alloy-dominated facies has been known for considerable time from potholes and discordant bodies and has been attributed to fluid activity with high fO2 and low fS2. Our petrographic results indicate that the normal thin reef has also undergone hydrothermal alteration. For the first time, the rare mineral troilite (stoichiometric FeS) was found as intergrowths with masses of Pt-Fe-alloy, together with Fe-rich pyrrhotite, secondary hydrous silicates, magnetite and calcite. The observed mineral assemblage and texture is interpreted as the product of partial desulfurization, caused by migrating S-undersaturated fluids, which led to the exsolution of Pt-Fe-alloy from pyrrhotite (Fex–1S) with the latter approaching a stoichiometric composition. Overall our new observations provide convincing support for the importance of metasomatism in the secondary modification of ore mineralogy and textures even in the undisturbed Merensky Reef.

Keywords

Merensky ReefBushveld Complexplatinum-group mineralstroiliteisoferroplatinumPt-Fe-alloydesulfurization
Type
Research Article
Information
Mineralogical Magazine , Volume 80 , Issue 6 , October 2016 , pp. 1041 - 1053
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 2016

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ballhaus, C.G. (1988) Potholes of the Merensky Reef at Brakspruit Shaft, Rustenburg Platinum Mines: Primary disturbances in the magmatic stratigraphy. Economic Geology, 83, 11401158.CrossRefGoogle Scholar
Ballhaus, C.G. and Ryan, C.G. (1995) Platinum-group elements in the Merensky reef. I. PGE in solid solution in base metal sulphides and the down-temperature equilibration history of Merensky ores. Contributions to Mineralogy and Petrology, 122, 241251.CrossRefGoogle Scholar
Ballhaus, C.G. and Stumpfl, E.F. (1986) Sulfide and platinum mineralisation in the Merensky Reef: evidence from hydrous silicates and fluid inclusions. Contributions to Mineralogy and Petrology, 122, 193—204.CrossRefGoogle Scholar
Ballhaus, C.G. and Sylvester, P. (2000) Noble metal enrichment processes in the Merensky Reef, Bushveld Complex. Journal of Petrology, 94, 545561.CrossRefGoogle Scholar
Ballhaus, C.G. and Ulmer, P. (1995) Platinum-group elements in the Merensky reef: II. Experimental solubilities of platinum and palladium in Fe1—xS from 950 to 450°C under controlle. fS and fH . Geochimica et Cosmochimica Acta, 59, 4881S24888.Google Scholar
Barnes, S-J. and Maier, W.D. (2002) Platinum-group element distributions in the Rustenberg Layered Suite of the Bushveld Complex, South Africa. pp. 431-458 in: The Geology, Geochemistry, Mineralogy and Mineral Beneficiation of Platinum-Group Elements, (L.J. Cabri, editor). Canadian Institute of Mining, Metallurgy and Petroleum, Special Volume 54, Montreal, Quebec Canada.Google Scholar
Borisov, A. and Palme, H. (1997) Experimental deter-mination of the solubility of platinum in silicate melts. Geochimica et Cosmochimica Acta, 61, 43494357.CrossRefGoogle Scholar
Boudreau, A.E. (1988) Investigations of the Stillwater Complex: VI. The role of volatiles in the petrogenesis of the J-M Reef, Minneapolis adit section. The Canadian Mineralogist, 26, 193—208.Google Scholar
Boudreau, A.E. (1992) Volatile fluid overpressure in layered intrusions and the formation of potholes. Australian Journal of Earth Sciences, 26, 277287.CrossRefGoogle Scholar
Boudreau, A.E. (2008) Modelling the Merensky Reef, Bushveld Complex, Republic of South Africa. Contributions to Mineralogy and Petrology, 156, 431–37.CrossRefGoogle Scholar
Boudreau, A.E. and Meurer, W.P. (1999) Chromatographic separation of the platinum-group elements, gold, base metals and sulfur during degassing of a compacting and solidifying igneous crystal pile. Contributions to Mineralogy and Petrology, 134, 174185.CrossRefGoogle Scholar
Boudreau, A.E. and McCallum, I.S. (1992) Concentration of platinum-group elements by magmatic fluids in layered intrusions. Economic Geology, 87, 18301848.CrossRefGoogle Scholar
Brenan, J.M. and Andrews, D. (2001) High-temperature stability of laurite and Ru-Os-Ir alloy and their role in PGE fractionation in mafic magmas. The Canadian Mineralogist, 39, 341360.CrossRefGoogle Scholar
Cabri, L.J. and Feather, C.E. (1975) Platinum—iron alloys: a nomenclature based on a study of natural and synthetic alloys. The Canadian Mineralogist, 13, 117126.Google Scholar
Campbell, I.H., Naldrett, A.J. and Barnes, S.-J. (1983) A model for the origin of the platinum-rich sulfide horizons in the Bushveld and Stillwater Complexes. Journal of Petrology, 24, 133165.CrossRefGoogle Scholar
Cawthorn, R.G. (1999) Platinum-group element mineralization in the Bushveld Complex — a critical assessment of geochemical models. South African Journal of Geology, 102, 268281.Google Scholar
Cawthorn, R.G. (2005) Pressure fluctuations and the formation of the PGE rich Merensky and chromitite reefs, Bushveld Complex. Mineralium Deposita, 20, 231235.CrossRefGoogle Scholar
Cawthorn, R.G. (2010) Geological interpretations from the PGE distribution in the Bushveld Merensky and UG2 chromitite reefs. The 4th International Platinum Conference, Platinum in transition ‘Boom or Bust'.The Southern African Institute of Mining and Metallurgy, Abstract pp. 57—70.Google Scholar
Cawthorn, R.G. and Boerst, K. (2006) Origin of the pegmatitic pyroxenite in the Merensky Unit, Bushveld Complex, South Africa. Journal of Petrology, 47, 15091530.CrossRefGoogle Scholar
Cawthorn, R.G. and Walraven, F. (1998) Emplacement and crystallization time for the Bushveld Complex. Journal of Petrology, 47, 16691687.CrossRefGoogle Scholar
Cawthorn, R.G. and Webb, S.J. (2013) Cooling of the Bushveld Complex, South Africa: implications for paleomagnetic reversals. Geology, 47, 687—690.CrossRefGoogle Scholar
Cawthorn, R.G., Lee, C.A., Schouwstra, R.P. and Mellowship, P. (2002) Relationship between PGE and PGM in the Bushveld Complex. The Canadian Mineralogist, 40, 311328.CrossRefGoogle Scholar
Cawthorn, R.G., Barnes, S.-J., Ballhaus, C.G. and Malitch, K.N. (2005) Platinum group element, chromium, and vanadium deposits in mafic and ultramafic rocks. Economic Geology[SEG 100th Anniversary Volume], 215—249.CrossRefGoogle Scholar
Eales, H.V. and Cawthorn, R.G. (1996) The Bushveld Complex. pp. 181—230 in: Layered Intrusions, (R.G. Cawthorn, editor). Developments in Petrology, 15. Elsevier, Amsterda Netherlands.CrossRefGoogle Scholar
Finnigan, G.S., Brenan, J.M., Mungall, J.E. and McDonough, W.F. (2008) Experiments and models bearing on the role of chromite as a collector of platinum group minerals by local reduction. Journal of Petrology, 49, 16471665.CrossRefGoogle Scholar
Gain, S.B. (1985) The geological setting of the platinifer-ous UG2 chromitite layer on the farm Maandagshoek, eastern Bushveld Complex. Economic Geology, 77, 13951404.CrossRefGoogle Scholar
Godel, B. and Barnes, S.-J. (2008) Image analysis and composition of platinum-group minerals in the J-M Reef, Stillwater Complex. Economic Geology, 103, 637651.CrossRefGoogle Scholar
Godel, B., Barnes, S.-J. andMaier, W.D. (2007) Platinum-group elements in sulphide minerals, platinum-group minerals, and whole-rocks of the Merensky Reef (Bushveld Complex, South Africa): implications for the formation of the reef. Journal of Petrology, 103, 15691604.CrossRefGoogle Scholar
Hatton, C.J. (1995) Mantle plume origin for the Bushveld and Ventersdorp magmatic provinces. Journal of African Earth Sciences, 21, 571—577.CrossRefGoogle Scholar
Helmy, H.M., Ballhaus, C.G., Berndt, J., Bockrath, C. and Wohlgemuth-Ueberwasser, C. (2007) Formation of Pt, Pd and Ni tellurides: experiments in sulfide-telluride systems. Contributions to Mineralogy and Petrology, 153, 577591.CrossRefGoogle Scholar
Helmy, H.M., Ballhaus, C.G., Fonseca, R.O.C.., Wirth, R., Nagel, T. and Tredoux, M. (2013) Noble metal nanoclusters and nanoparticles precede mineral formation in magmatic sulphide melts. Nature Communications, 4, 2405.CrossRefGoogle ScholarPubMed
Hiemstra, S.A. (1979) The role of collectors in the formation of the platinum deposits in the Bushveld Complex. The Canadian Mineralogist, 17, 469482.Google Scholar
Holwell, D.A. and McDonald, I. (2010) A review of the behaviour of platinum group elements within natural magmatic sulfide ore systems. Platinum Metals Review, 54, 2636.CrossRefGoogle Scholar
Hutchinson, D., Foster, J., Prichard, H. and Gilbert, S. (2015) Concentration of particulate platinum-group minerals during magma emplacement; a case study from the Merensky Reef, Bushveld Complex. Journal of Petrology, 56, 113159.CrossRefGoogle Scholar
Junge, M., Wirth, R., Oberthür, T., Melcher, F. and Schreiber, A. (2015) Mineralogical siting of platinum-group elements in pentlandite from the Bushveld Complex, South Africa. Mineralium Deposita, 50, 4154.CrossRefGoogle Scholar
Kamenetsky, V.S., Park, J.-W., Mungall, J.E., Pushkarev, E.V., Ivanov, A.V., Kamenetsky, M.B. and Yaxley, G.M. (2015) Crystallization of platinum-group minerals from silicate melt: Evidence from Cr-spinel—hosted inclusions in volcanic rocks. Geology, 1, 903—906.CrossRefGoogle Scholar
Kanitpanyacharoen, W. and Boudreau, A.E. (2013) Sulfide-associated mineral assemblages in the Bushveld Complex, South Africa: platinum-group element enrichment by vapor refining by chloride-carbonate fluids. Mineralium Deposita, 43, 193—210.CrossRefGoogle Scholar
Kingston, G.A. and El-Dosuky, B.T. (1982) A contribution on the platinum-group mineralogy of the Merensky Reef at the Rustenburg platinum mine. Economic Geology, 77, 13671384.CrossRefGoogle Scholar
Kinloch, E.D. (1982) Regional trends in the platinum-group mineralogy of the critical zone of the Bushveld Complex, South Africa. Economic Geology, 77, 13281347.CrossRefGoogle Scholar
Kinloch, E.D. and Peyerl, W. (1990) Platinum-group minerals in various rock types of the Merensky Reef: genetic implications. Economic Geology, 85, 537555.CrossRefGoogle Scholar
Kruger, F.J. (2005) Filling the Bushveld Complex magma chamber: lateral expansion, roof and floor interaction, magmatic unconformities, and the formation of giant chromitite, PGE and Ti-V-magnetite deposits. Mineralium Deposita, 40, 451—472.CrossRefGoogle Scholar
Lee, C.A. (1996) A review of mineralisation in the Bushveld Complex and some other layered intrusions, pp. 103-146 in: Layered Intrusions, (R.G. Cawthorn, editor). Developments in Petrology, 15. Elsevier, Amsterda Netherlands.Google Scholar
Letts, S., Torsvik, T.H., Webb, S.J. and Ashwal, L.D. (2009) Palaeomagnetism of the 2054 Ma Bushveld Complex (South Africa): implications for emplace-ment and cooling. Geophysical Journal International, 179, 850872.CrossRefGoogle Scholar
Li, C. and Ripley, E.M. (2006) Formation of Pt-Fe alloy by desulfurization of Pt-sulfide in the J-M Reef of the Stillwater Complex, Montanaa. The Canadian Mineralogist, 44, 895903.CrossRefGoogle Scholar
Li, C., Barnes, S.-J., Makovicky, E., Rose-Hansen, J. and Makovicky, M. (1996) Partitioning of nickel, copper, iridium, rhodium, platinum, and palladium between monosulfide solid solution and sulfide liquid: effects of composition and temperature. Geochimica et Cosmochimica Acta, 60, 12311238.CrossRefGoogle Scholar
Li, C., Ripley, E.M., Merino, E. and Maier, W.D. (2004) Replacement of base metal sulfides by actinolite, epidote, calcite, and magnetite in the UG2 and Merensky Reef of the Bushveld Complex, South Africa. Economic Geology, 99, 173—184.Google Scholar
Li, C., Ripley, E.M., Oberthür, T., Miller, J.D. Jr. and Joslin, G.D. (2008) Textural, mineralogical and stable isotope studies of hydrothermal alteration in the main sulfide zone of the Great Dyke, Zimbabwe and the precious metals zone of the Sonju Lake Intrusion, Minnesota, USA. Mineralium Deposita, 43, 97110.CrossRefGoogle Scholar
Maier, W.D., Barnes, S.-J. and Groves, D.I. (2013) The Bushveld Complex, South Africa: formation of platinum-palladium, chrome- and vanadium-rich layers via hydrodynamic sorting of a mobilized cumulate slurry in a large, relatively slowly cooling, subsiding magma chamber. Mineralium Deposita, 48, 156.CrossRefGoogle Scholar
Majzlan, J., Makovicky, M., Makovicky, E. and Rose-Hansen, J. (2002) The system Fe-Pt-S at 1100 °C. The Canadian Mineralogist, 40, 509517.CrossRefGoogle Scholar
Makovicky, E., Karup-Møller, S., Makovicky, M. and Rose-Hansen, J. (1990) Experimental studies on the phase systems Fe-Ni-Pd-S and Fe-Pt-Pd-As-S applied to PGE deposits. Mineralogy and Petrology, 42, 307319.CrossRefGoogle Scholar
Makovicky, M., Makovicky, E. and Rose-Hansen, J. (1986) Experimental studies on the solubility and distribution of platinum-group elements in base metal sulphides in platinum deposits. pp. 415—425 in: Metallogeny of Basic and Ultrabasic Rocks, (M.J. Gallagher R.A. Ixer C.R.Neary and H.M. Prichard ,editors). Institution of Mining and Metallurgy London UK.Google Scholar
Merkle, R.K.W.. (1992) Platinum-group minerals in the middle group of chromitite layers at Marikana, western Bushveld Complex: indications for collection mechanism and postmagmatic modification. Canadian Journal of Earth Science, 29, 209221.CrossRefGoogle Scholar
Naldrett, A.J. and Lehmann, J. (1988) Spinel Non-stoichiometry as the Explanation for Ni-, Cu- and PGE-enriched Sulphides in Chromitites. pp. 113—143 in: Geo-Platinum 87 (H.M. , Prichard P.J.Potts|J.F.W. Bowles, and S.J. Cribb, editors). Elsevier, London UK.Google Scholar
Naldrett, A.J. and von Gruenewaldt, G. (1989) The association of PGE with chromitite in layered intru-sions and ophiolite complexes. Economic Geology, 15, 180187.CrossRefGoogle Scholar
Naldrett, A.J., Kinnaird, J., Wilson, A. and Chunnett, G. (2008) Concentration of PGE in the earth's crust with special reference to the Bushveld Complex. Earth Science Frontiers, 48, 264297.CrossRefGoogle Scholar
Naldrett, A.J., Wilson, A., Kinnaird, J. and Chunnett, G. (2008) PGE tenor and metal ratios within and below the Merensky Reef, Bushveld Complex: implications for its genesis. Journal of Petrology, 50, 625659.CrossRefGoogle Scholar
Naldrett, A.J., Kinnaird, J., Wilson, A., Yudovskaya, M. and Chunnett, G. (2011) Genesis of the PGE-enriched Merensky Reef and chromitite seams of the Bushveld Complex. Pp. 235—296 in: Magmatic Ni-Cu and PGE Deposits, (C. Li and E.M. Ripley, editors). Reviews in Economic Geology, 17, Littleton, ColoradoUSA.Google Scholar
Osbahr, I., Klemd, R., Oberthür, T., Brätz, H. and Schouwstra, R.P. (2013) Platinum-group element distribution in base-metal sulfides of the Merensky Reef from eastern and western Bushveld Complex, South Africa. Mineralium Deposita, 48, 211—232.CrossRefGoogle Scholar
Peregoedova, A., Barnes, S.-J. and Baker, D.R. (2004) The formation of Pt—Ir alloys and Cu—Pd-rich sulfide melts by partial desulfurization of Fe-Ni-Cu sulfides: results of experiments and implications for natural systems. Chemical Geology, 208, 247264.CrossRefGoogle Scholar
Peregoedova, A., Barnes, S.-J. and Baker, D.R. (2006) An experimental study of mass transfer of platinum-group elements, gold, nickel and copper in sulfur-dominated vapour at magmatic temperatures. Chemical Geology, 235, 5975.CrossRefGoogle Scholar
Rose, D., Viljoen, F., Knoper, M. and Rajesh, H. (2011) Detailed assessment of platinum-group minerals associated with chromitite stringers in the Merensky Reef of eastern Bushveld Complex, South Africa. The Canadian Mineralogist, 49, 13851396.CrossRefGoogle Scholar
SACS [South African Committee for Stratigraphy] (1980) Stratigraphy of South Africa. Part 1. in: Lithostratigraphy of the Republic of South Africa, (L.E. Kent, editor). Geological Survey of South Africa Handbook 8. Pretoria South Africa.Google Scholar
Schönberg, R., Kruger, F.J., Nägler, T.F., Meisel, T. and Kramers, J.D. (1999) PGE enrichment in chromitite layers and the Merensky Reef of the western Bushveld Complex; a Re—Os and Rb—Sr isotope study. Earth and Planetary Science Letters, 172, 49—64.CrossRefGoogle Scholar
Schouwstra, R.P., Kinloch, E.D. and Lee, C.A. (2000) A short geological review of the Bushveld Complex. Platinum Metals Review, 44, 3339.Google Scholar
Scoates, J.S., Wall, C.J., Friedman, R. and Chamberlain, K (2011) Revisiting the age of the Merensky Reef, Bushveld Complex. Mineralogical Magazine, 75, 1831.Google Scholar
Scoon, R.N. and Mitchell, A.A. (2011) The principal geological features of the Mooihoek platiniferous dunite pipe, eastern limb of the Bushveld Complex, and similarities with replaced Merensky Reef at the Amandelbult Mine, South Africa. South African Journal of Geology, 114, 15—40.CrossRefGoogle Scholar
Tredoux, M., Lindsay, N.M., Davies, G. and McDonald, I. (1995) The fractionation of platinum-group elements in magmatic systems, with the suggestion of a novel causal mechanism. South African Journal of Geology, 98, 157167.Google Scholar
U.S. Geological Survey (2015) Mineral commodity summaries 2015. U.S. Geological Survey, 196 pp.Google Scholar
Vermaak, C.F. and Hendriks, L.P. (1976) A review of the mineralogy of the Merensky Reef, with specific reference to new data on the precious metal mineralogy. Economic Geology, 71, 1244—1269.CrossRefGoogle Scholar
Viljoen, M.J. and Hieber, R. (1986) The Rustenburg Section of Rustenburg Platinum Mines Limited, with reference to the Merensky Reef. Pp. 1107—1134 in: Mineral deposits of southern Africa, (C.R. Anhaeusser and S. Maske, editors). Geological Society of South Africa Special Publication, 2. Johannesbur South Africa.Google Scholar
Vukmanovic, Z., Barnes, S.-J., Reddy, S.M., Godel, B. and Fiorentini, M.L. (2013) Morphology and micro-structure of chromite crystals in the Merensky Reef (Bushveld Complex, South Africa). Contributions to Mineralogy and Petrology, 165, 10311050.CrossRefGoogle Scholar
Webb, S.J., Ashwal, L.D. and Cawthorn, R.G. (2011) Continuity between eastern and western Bushveld Complex, South Africa, confirmed by xenoliths from kimberlite. Contributions to Mineralogy and Petrology, 162, 101107.CrossRefGoogle Scholar
Willmore, C.C., Boudreau, A.E. and Kruger, F.J. (2000) The halogen geochemistry of the Bushveld Complex, Republic of South Africa: implications for chalcophile element distribution in the Lower and Critical zones. Journal of Petrology, 182, 15171539.CrossRefGoogle Scholar
Willmore, C.C., Boudreau, A.E., Spivack, A. and Kruger, F.J. (2002) Halogens of Bushveld Complex, South Africa δ37Cl and Cl/F evidence for hydration melting of the source region in a back-arc setting. Chemical Geology, 182, 503511.CrossRefGoogle Scholar
Xiao, Z. and Laplante, A.R. (2004) Characterizing and recovering the platinum group minerals - a review. Minerals Engineering, 17, 961—979.CrossRefGoogle Scholar
Zeh, A., Ovtcharova, M., Wilson, A.H. and Schaltegger, U. (2015) The Bushveld Complex was emplaced and cooled in less than one million years - results of zirconology and geotectonic implications. Earth and Planetary Science Letters, 418, 103114.CrossRefGoogle Scholar