The object of the present study includes grains of platinum-group minerals (PGMs) from a concentrate, which was obtained during mining of a technogenic gold placer near the Pervomaisky dunite-harzburgite massif (Central Urals). The inner structure and chemical composition of grains were studied using scanning electron microscopy and electron microprobe analysis. Grains of primary Ru-Os-Ir minerals are overgrown by concentric-zonal rims of secondary PGMs of two types: 1) “corrosive” PGMs, which replace the primary PGMs, and 2) overprinted PGMs, which formed after “corrosive” PGMs. The “corrosive” PGMs comprise areas of fne- or course-grained aggregates of subgraphic (symplectite) structure and include solid solutions of the ruarsite-osarsite-irarsite series (RuAsS-OsAsS-IrAsS) and As-bearing laurite (Ru(S,As)₂) after native ruthenium, As-bearing erlichmanite (Os(S,As)₂) and irarsite (IrAsS) after rutheniridosmine and Fe-bearing iridium (Ir,Os,Fe), tolovkite (IrSbS) and irarsite (IrAsS) after native iridium. Aggregates of overprinted PGMs have monolithic structure and form an outer rim on the grains of primary PGMs. The overprinted PGMs include Fe-bearing native iridium (Ir,Os,Fe) and osmium (Os,Ir,Fe), Ir-Ni-Fe alloys, including garutiite (Ni,Fe,Ir), Rh-bearing tolovkite and irarsite, and Ru-bearing cobaltpentlandite ((Ni,Co,Ru)₉S₈). It is suggested that secondary “corrosive” and overprinted PGMs formed under conditions of decompression, pressure drop and change from reducing to oxidative regime, when ultramafc bodies moved toward the surface. The formation of secondary native PGMs was caused by low temperatures and reducing fuid regime. Arsenides, sulfoarsenides, stibnides and sulfdes of platinum group elements formed under conditions of increased fugacity of S, As and Sb and due to the change from reducing to oxidizing conditions in the upper parts of the crust.

Keywords: primary and secondary platinum-group minerals, placers, formation conditions, serpentinization, ophiolites, Pervomaisky massif, Central Urals.

Funding. This study was supported by state contract of the Institute of Geology and Geochemistry UB RAS (№ 122022600107-1).

Confict of interest. The authors declare that they have no conficts of interest.

Author contribution. V.V. Murzin, K.N. Malitch – conceptualization, investigation; A.Yu. Kissin – investigation, visualization; V. V. Murzin – writing original draft; K.N. Malitch, A.Yu. Kissin – writing – review & editing. All the authors approved the fnal version of the manuscript prior to publication.

For citation: Murzin V.V., Malitch K.N., Kisin A.Yu. Secondary platinum-group minerals from a placer of the Bolshoy Sap river (Central Urals). Mineralogy, 11(1), 5–16. DOI: 10.35597/2313-545X-2025-11-1-1

Received 22.11.2024, revised 09.12.2024, accepted 22.01.2025

V.V. Murzin, Zavaritsky Institute of Geology and Geochemistry UB RAS, Russia; murzin@igg.uran.ru

K.N. Malitch, Zavaritsky Institute of Geology and Geochemistry UB RAS, Russia;

A.Yu. Kisin, Zavaritsky Institute of Geology and Geochemistry UB RAS, Russia

1. Airiyants E.V., Kiseleva O.N., Zhmodik S.M., Belyanin D.K., Ochirov Y.C. (2022) Platinum-group minerals in the placer of the Kitoy River, East Sayan, Russia. Minerals, 12, 21. https://doi.org/10.3390/min12010021

2. Barkov A.Y., Shvedov G.I., Silyanov S.A., Martin R.F. (2018) Mineralogy of platinum-group elements and gold in the ophiolite-related placer of the River Bolshoy Khailyk, western Sayans, Russia. Minerals, 8, 247.
   https://doi.org/10.3390/min8060247

3. Barkov A.Y., Tolstykh N.D., Martin R.F., Tamura N., Chi Ma, Nikiforov A.A. (2022) Kuvaevite, Ir5Ni10S16, a new mineral species, its associations and genetic features, from the Sisim river placer zone, Eastern Sayans. Russian Geology and Geophysics, 63(12), 1373–1387.
   https://doi.org/10.2113/RGG20224455

4. Cabri L.J., Oberthür T., Keays R.R. (2022) Origin and depositional history of platinum-group minerals in placers –
   a critical review of facts and fiction. Ore Geology Reviews, 144, 104733. https://doi.org/10.1016/j.oregeorev. 2022.104733

5. Chashchukhin I.S. (2019) About genetic types of dunites in ultramafic rocks of fold areas (the Urals as example). Izvestiya UGGU (News of the Ural State Mining University), 2(54), 42–48. https://doi.org/10.21440/2307-2091-2019-2-42-48 (in Russian)

6. Chashchukhin I. S., Bulykin L.D., Chashchukhina V.A. (2005) About the nature of chromite mineralization in rocks of the dunite-clinopyroxenite complex of ophiolites of the Middle Urals. In: Ezhegodnik-2004, vypusk 152 Yearbook-2004 (Proceedings of the Institute of Geology and Geochemistry UB RAS), is. 152). Yekaterinburg, IGG UrO RAN, 353–358. (in Russian)

7. Chashchukhin I.S., Mamina V.M., Surganov A.V., Chashchukhina V.A., Bulykin L.D., Gmyra V.G. (2004) Regularities of composition of accessory and ore-forming spinel in ultramafic rocks of the Pervomaisky massif. In: Ezhegodnik-2003, vypusk 151 (Yearbook-2003 (Proceedings of the Institute of Geology and Geochemistry UB RAS), is. 151). Yekaterinburg, IGG UrO RAN, 206–217. (in Russian)

8. Farré-de-Pablo Júlia, Proenza J.A., González-Jiménez J.M., Aiglsperger T., Torró L., Domènech C., Garcia-Casco A. (2022) Low-temperature hydrothermal Pt mineralization in uvarovite-bearing ophiolitic chromitites from the Dominican Republic. Mineralium Deposita, 57, 955–976. https://doi.org/10.1007/s00126-021-01079-8

9. Garuti G., Zaccarini F. (1997) In situ alteration of platinum-group minerals at low temperature: evidence from serpentinised and weathered chromitite of the Vourinos complex, Greece. The Canadian Mineralogist, 35, 611–626.

10. Kiseleva O., Airiyants E., Belyanin D., Zhmodik S. (2019) Hydrothermal remobilization of platinum group elements and their secondary minerals in chromitite deposits of the Eastern Sayan ophiolites (Russia). E3S Web of Conferences, 98, 08014. https://doi.org/10.1051/e3sconf/20199808014

11. Kiseleva O., Airiyants E., Belyanin D., Zhmodik S. (2020) Podiform chromitites and PGE mineralization in the Ulan-Sar’dag ophiolite (East Sayan, Russia). Minerals, 10, 141. https://doi.org/10.3390/min10020141

12. McDonald A.M., Proenza J.A., Zaccarini F., Rudashevsky N.S., Cabri L.J., Stanley C.J., Rudashevs­ky V.N., Melgarejo J.C., Lewis J.F., Longo F., Bakker R.J. (2010) Garutiite, (Ni,Fe,Ir), a new hexagonal polymorph of native Ni from Loma Peguera, Dominican Republic. European Journal of Mineralogy, 22, 293–304. https://doi.org/10.1127/0935-1221/2010/0022-2007

13. Murzin V.V., Malitch К.N., Badanina I.Yu., Varlamov D.A., Chashchukhin I.S. (2023b) Mineral assemblages from chromitites of the Alapaevsk dunite-harzburgite massif (Middle Urals). Litosfera (Lithosphere), 23(5), 740–765. (in Russian) https://doi.org/10.24930/1681-9004-2023-23-5-740-765

14. Murzin V.V., Sustavov S.G., Mamin N.A. (1999) Gold and platinum-group element mineralization of placer deposits of the Verkh-Neiva massif of Alpine-type ultrabamafic rocks (Central Urals). Yekaterinburg, UGGGA, 93 p. (in Russian)

15. Murzin V.V., Varlamov D.A., Karaseva E.S., Kisin A.Yu. (2023a) Mineralogy and conditions of formation genesis of aggregates of natural and sulfide minerals of the Poldnevskoe demantoid deposit (Middle Urals). Geology of Ore Deposits, 65(6), 544–566. https://doi.org/10.1134/S1075701523060065

16. Popova V.I., Belogub E.V., Rassomakhin M.A., Popov V.A., Khvorov P.V. Mineralogy of chromitites of Mount Poklonnaya of the Karabash massif, South Urals. Mineralogy (Russia), 8(4), 15–33 (In Russian)

17. Shtenberg D.S., Chashchukhin I.S., Uimin S.G. (1990) The position of chromite mineralization in the history of the formation of alpine-type hyperbasites. Geokhimiya rudnykh elementov v bazitakh i giperbazitakh. Kriterii prognoza. Irkutsk, Institute of Geochemistry SB RAS, 166-170. (In Russian).

18. Zaccarini F., Pushkarev E.V., Garuti G. (2008) Platinum-group element mineralogy and geochemistry of chromitite of the Kluchevskoy ophiolite complex, central Urals (Russia). Ore Geology Reviews, 33, 20–30. http://doi.org/10.1016/j.oregeorev.2006.05.007

19. Zoloev K.K., Volchenko Ya.A., Koroteev V.A., Malakhov I.A., Mardirosyan A.N., Khrypov V.N. (2001) Platinum-metal mineralization in geological complexes of the Urals. Yekaterinburg, UGSE, 199 p. (in Russian)