Germanocolusite, Colusite and Stibiocolusite from Calcite-Sphalerite Veins of the Koshka Carbonatite Massif, Eastern Taimyr

Мұқаба

Дәйексөз келтіру

Толық мәтін

Ашық рұқсат Ашық рұқсат
Рұқсат жабық Рұқсат берілді
Рұқсат жабық Рұқсат ақылы немесе тек жазылушылар үшін

Аннотация

For the first time on the Taimyr Peninsula, germanium mineralization, including its own mineral phases — minerals of the germanite group, namely germanocolusite, colusite and stibiocolusite, has been found and described. These minerals were discovered in calcite-sphalerite veins of the Koshka carbonatite massif, which belongs to the Middle-Late Triassic volcano-plutonic carbonate belt of the Taimyr Peninsula. In this members of the germanite group variations in the composition in the ratios of Ge, As, Sb and Sn are wide. Members of the colusite–germanocolusite isomorphous series are common whereas stibiocolusite is rare. These minerals form zonal crystals 5–50 µm in size in association with complex zonal sphalerite, chalcopyrite, pyrite, and less common galena. Colusite crystals exhibit both zoning with enrichment of the marginal parts by Sb and Sn, and oscillatory zoning, with rhytmic varying of the contents of many species-defining components. Germanocolusite contains up to 11 wt. % Ge (5.1 apfu Ge); colusite – up to 11.5 wt. % As (5.99 apfu As); stibiocolusite – up to 6.9 wt. % Sb (1.92 apfu Sb); the Sn content does not exceed 4.1 wt. % (1.19 apfu Sn). Reflectance spectra and unit-cell parameter of these minerals were also determined.

Авторлар туралы

N. Sidorova

Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry RAS

Email: nsidorova989@mail.ru
Moscow, Russia

Yu. Gritsenko

Moscow State University; Fersman Mineralogical Museum RAS

д. чл. Moscow, Russia; Moscow, Russia

A. Grigorieva

Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry RAS

Moscow, Russia

L. Levitskaya

Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry RAS

Moscow, Russia

V. Taskaev

Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry RAS

Moscow, Russia

L. Ivanova

Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry RAS

Moscow, Russia

V. Proskurnin

Karpinsky Russian Geological Research Institute

д. чл. Saint Petersburg, Russia

Әдебиет тізімі

  1. Anisimova G. S., Zayakina N. V., Kondratyeva L. A., Popova S. K. Zn-bearing nekrasovite — mineral of the colusite group. Zapiski RMO (Proc. Russian Miner. Soc.). 2002. Vol. 131. N 6. P. 65–68 (in Russian).
  2. Ayupova N. R., Maslennikov V. V., Tseluyko A. S., Artemyev D. A., Belogub E. V., Kotlyarov V. A., Stepanov A. V., Butnyakov A. V. Arsenocolusite in pyrite ores of the Saum copper–zinc massive sulfide deposit, North Urals. Geol. Ore Deposits. 2021. Vol. 63. N 1. P. 79–86.
  3. Frank-Kamenetskaya O. V., Rozhdestvenskaya I. V., Yanulova L. A. New data on the crystal structures of colusites and arsenosulvanites. J. Struct. Chem. 2002. Vol. 43. N 1. P. 89–100.
  4. Guelou G., Lemoine P., Raveau B., Guilmeau E. Recent developments in high-performance thermoelectric sulphides: an overview of the promising synthetic colusites. J. Materials Chem. 2020. Vol. 9. N 3. P. 1–50.
  5. Komuro K., Kajiwara Y. Germanium-bearing colusite in Siliceous black ore from the Ezuri Kuroko Deposit, Hokuroku District, Japan. Resour. Geol. 2004. Vol. 54. N 4. P. 447–452.
  6. Kovalenker V. A., Evstigneeva T. L., Malov V. S., Trubkin N. V., Gorshkov A. I., Geynke V. R. Nekrasovite Cu26V2Sn6S32—a new mineral of the colusite group. Mineral. Zh. 1984. Vol. 6. N 2. P. 88–97 (in Russian).
  7. Landon R. E., Moglinor A. H. Colusite, a new mineral of the sphalerite group. Amer. Miner. 1933. Vol. 18. P. 528–533.
  8. Nenasheva S. N., Pautov L. A. On Germanocolusite from Kipushi (Katanga), New Data on Minerals. 2003. Vol. 38. P. 41–44.
  9. Orlandi P., Merlino S., Duchi G., Vezzalini G. Colusite: a new occurrence and crystal chemistry. Canad. Miner. 1981. Vol. 19. N 3. P. 423–427.
  10. Petrov O. V., Proskurnin V. F., Gavrish A. V., Mozoleva I. N., Lohov K. I., Tolmacheva E. V., Petrushkov B. S., Bagaeva A. A. The Early Mesozoic carbonatite zone of Taimyr Peninsula. Regional Geol. Metallogeny. 2010. N 44. P. 5–22 (in Russian).
  11. Proskurnin V. F., Petrov O. V., Gavrish A. V., Paderin P. G., Mozoleva I. N., Petrushkov B. S., Bagaeva A. A. The Early Mesozoic carbonatite zone of Taimyr Peninsula. Lithosphere. 2010a. N 3. P. 95–102 (in Russian).
  12. Proskurnin V. F., Petrov O. V., Bagdasarov E. A., Rozinov M. I., Tolmacheva E. V., Larionov A. N., Bil'skaya I. V., Gavrish A. V., Mozoleva I. N., Petrushkov B. S. About origin of carbonatites at Eastern Taimyr on the base of isotope-geochemical study of zircons Zapiski RMO (Proc. Russian Miner. Soc.). 2010. N 1. P. 19–36. (in Russian, English translation: Geol. Ore Deposits. 2010. Vol. 52. N 8. P. 711–724).
  13. Proskurnin V. F., Gavrish A. V., Mezhubovsky V. V. State geological map of the Russian Federation. Scale 1:1000000 (third generation). The Taimyrsko-Severo-zemelskaya series. List S-49. Khatanga Bay. An explanatory note. Saint Petersburg: VSEGEI, 2013. 275 p. (in Russian).
  14. Pufahl O. Germanit ein germanium-mineral und -Erz von Tsumeb, Südwest-Afrika, Metall und Erz. 1922. N 19. P. 324--325.
  15. Repstock A., Voudouris P. and Kolitsch U. New occurrences of watanabeite, colusite, "arsenosulvanite" and "Cu-excess" tetrahedrite-tennantite at the Pefka high-sulfidation epithermal deposit, northeastern Greece. Neues Jahr. Miner.--Abhandlungen J. Miner. Geochem. 2015. Vol. 192. P. 135--149.
  16. Rosenberg E. Germanium: Environmental occurrence, importance and speciation. Rev. Envir. Sci. Bio/Technology. 2008. Vol. 8. N 1. P. 29--57.
  17. Silaev V. I., Proskurnin V. F., Gavrish A. V., Salmanov V. A. Vasil'ev E. A., Remizov D. N. Carbonatite complex unusual rocks and mineralization in Eastern Taimyr. In: Scientific readings in memory of P. N. Chirvinsky, Permian University. 2016. N 19. P. 119--136 (in Russian).
  18. Spiridonov E. M., Kachalovskaya V. M., Kovachev V. V., Krapiva L. Y. Germanocolusite Cu26V2(Ge, As)6S32: a new mineral. Moscow University Geol. Bull. 1992a. N 6. P. 50--54 (in Russian).
  19. Spiridonov E. M., Badalov A. S., Kovachev V. V. Stibiccolusite Cu26V2(Sb, Sn, As)6S32: a new mineral. Doklady USSR Acad. Sci. 1992b. Vol. 324. N 2. P. 411--414 (in Russian).
  20. Spiridonov E. M. Maikainite Cu20(Fe, Cu)6Mo2Ge6S32 and ovamboite Cu20(Fe, Cu, Zn)6W2Ge6S32: New minerals in massive sulfide base metal ores. Doklady Earth Sci. 2003. Vol. 393A. P. 1329--1332.
  21. Spiridonov E. M., Murashko M. N., Yapaskurt V. O., Kulikova I. M., Korotaeva N. N. Germanoclusite and colusite of volcanogenic sulphide-pollmetal Tsumeb deposits in Namibia. New Data on Minerals. 2023. Vol. 57. N 3. P. 81--90.
  22. Spry P. G., Merlino S., Wang Su, Zhang Xiaomao, Buseck P. R. New occurrences and refined crystal chemistry of colusite, with comparisons to arsenosulvanite. Amer. Miner. 1994. Vol. 79. 750--762.
  23. Wagner T., Monecke T. Germanium-bearing colusite from the Waterloo volcanic-rock-hosted massive sulfide deposit, Australia: crystal chemistry and formation of colusite-group minerals. Canad. Miner. 2005. Vol. 43. P. 655--669.
  24. Warr L. N. IMA--CNMNC approved mineral symbols. Miner. Mag. 2021. Vol. 55. N 3. P. 291--320.

Қосымша файлдар

Қосымша файлдар
Әрекет
1. JATS XML
Жүктеу

© Russian Academy of Sciences, 2025