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Stannoidite from Amur Plate

07963900014949318721701.jpg
Stannoidite, etc.

Konjo mine, Miyahara, Mimasaka city, Okayama Prefecture, Japan
00425270014946699537716.jpg
Stannoidite, etc.

Akenobe mine, Oya-cho, Yabu City, Hyogo Prefecture, Japan
08619680014948891258191.jpg
Stannoidite, etc.

Tada mine, Inagawa-cho, Kawabe District, Hyogo Prefecture, Japan
05659190015648256171517.jpg
Stannoidite, etc.

Konjo mine, Miyahara, Mimasaka city, Okayama Prefecture, Japan
04454570014963684312551.jpg
Stannoidite, etc.

Konjo mine, Miyahara, Mimasaka city, Okayama Prefecture, Japan
07650480014963955477532.jpg
Stannoidite, etc.

Akenobe mine, Oya-cho, Yabu City, Hyogo Prefecture, Japan
01397610014962963727851.jpg
Stannoidite, etc.

Tada mine, Inagawa-cho, Kawabe District, Hyogo Prefecture, Japan
06113110014965598113038.jpg
Stannoidite, etc.

Konjo mine, Miyahara, Mimasaka city, Okayama Prefecture, Japan
07963900014949318721701.jpg
Stannoidite, etc.

Konjo mine, Miyahara, Mimasaka city, Okayama Prefecture, Japan
00425270014946699537716.jpg
Stannoidite, etc.

Akenobe mine, Oya-cho, Yabu City, Hyogo Prefecture, Japan
08619680014948891258191.jpg
Stannoidite, etc.

Tada mine, Inagawa-cho, Kawabe District, Hyogo Prefecture, Japan
06936320014955954109693.jpg
Stannoidite, etc.

Konjo mine, Miyahara, Mimasaka city, Okayama Prefecture, Japan
Japan
 
  • Fukui Prefecture
    • Ono City
Canadian Mineralogist Vol. 25, pp,229-236 (1987)
  • Hiroshima Prefecture
    • Inland Sea (Setonaikai)
      • Ikuchi Island
Canadian Mineralogist Vol. 25, pp,229-236 (1987)
Soeda, A., Takeno, S., & Watanabe, M. (1979). Mineralogical study on the wolframite series from the Chugoku district, Southwest Japan (I) Relationships between lattice parameters and chemical compositions. The Journal of the Japanese Association of Mineralogists, Petrologists and Economic Geologists, 74(10), 357-375.
  • Hyogo Prefecture
    • Asago City
      • Ikuno-cho-ono
Canadian Mineralogist Vol. 25, pp,229-236 (1987)
Sadanaga, Ryoichi, Bunno, Michiaki (1974) The Wakabayashi Mineral Collection. Bulletin 7. The University Museum, The University of Tokyo
    • Kawabe District
      • Inagawa-cho
Shimizu, M., Shimizu, M., & Tsunoda, K. (2008). Physicochemical Environment of Formation of Tin Sulfide-Bearing. Far Eastern Studies 7:23-40
Canadian Mineralogist Vol. 25, pp,229-236 (1987)
Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.
Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
    • Shisou City
Canadian Mineralogist Vol. 25, pp,229-236 (1987)
    • Yabu City
      • Oya-cho
Canadian Mineralogist Vol. 25, pp,229-236 (1987)
Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.
Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Am Min 61:3-4 pp 260-265
  • Kyoto Prefecture
    • Fukuchiyama City
Canadian Mineralogist Vol. 25, pp,229-236 (1987)
Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
  • Okayama Prefecture
    • Mimasaka city
      • Miyahara
Shimizu, M., Shikazono, N. (1987) Stannoidite-bearing tin ore: mineralogy, texture and physicochemical environment of formation. The Canadian Mineralogist: 25: 229–236.
Kato, A. (1969) Stannoidite, Cu5(Fe, Zn)2SnS8, a new stannite-like mineral from the Konjo mine, Okayama Prefecture, Japan. Bulletin National Science Museum, Tokyo: 12: 165-172.
  • Shimane Prefecture
    • Masuda City
Soeda, A., & Hirowatari, F. (1978). Arsenian hauchecornite from the Tsumo mine, Shimane Prefecture, Japan. Mineralogical Journal, 9(4), 199-209.
  • Yamaguchi Prefecture
    • Mine City
Nagashima, M., Akasaka, M., & Morifuku, Y. (2016). Ore and Skarn Mineralogy of the Yamato Mine, Yamaguchi Prefecture, Japan, with Emphasis on Silver‐, Bismuth‐, Cobalt‐, and Tin‐bearing Sulfides. Resource Geology, 66(1), 37-54.
Nagashima, M., Akasaka, M., & Morifuku, Y. (2016). Ore and Skarn Mineralogy of the Yamato Mine, Yamaguchi Prefecture, Japan, with Emphasis on Silver‐, Bismuth‐, Cobalt‐, and Tin‐bearing Sulfides. Resource Geology, 66(1), 37-54.
Soeda, A., Takeno, S., & Watanabe, M. (1979). Mineralogical study on the wolframite series from the Chugoku district, Southwest Japan (I) Relationships between lattice parameters and chemical compositions. The Journal of the Japanese Association of Mineralogists, Petrologists and Economic Geologists, 74(10), 357-375.
Russia
 
  • Khabarovsk Krai
    • Badzhalski ore District
Fersman Mineraloical Museum Russian Academy of Sciences, Dimitriy Belakovskiy, Curator Leninskiy prospekt 18-2, Moscow 117071, Russia
Alekseev, V. I. (2023, February). Sulfostannates of Zwitter-Tourmalinite Complexes Accompanying the Lithium-Fluoric Granites (On the Example of Pravourmiysky Rare-Metal-Tin Deposit). In XIII General Meeting of the Russian Mineralogical Society and the Fedorov Session (pp. 133-139). Cham: Springer International Publishing.
Chikisheva, T. A., Prokopyev, S. A., & Prokopyev, E. S. (2020). MINERALOGICAL EVIDENCE OF THE INEVITABLE LOSSES OF TIN DURING ORE PROCESSING AT THE PRAVOURMIYSKY DEPOSIT (KHABAROVSK REGION). Вестник института геологии Коми научного центра Уральского отделения РАН, (6 (306)), 15-19.
Terleev, A. A., Simonov, V. A., Kanygin, A. V., Tokarev, D. A., Stupakov, S. I., & Kotlyarov, A. V. (2014). Unique location of hydrothermal biota in the Lower Cambrian sedimentary-volcanogenic complex of the Kyzyl–Tashtyg ore field (Eastern Tuva). Russian Geology and Geophysics, 55(1), 54-61.
 
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