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Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japani
Regional Level Types
Sapporo CityCity
Ishikari SubprefectureSubprefecture
Hokkaidō PrefecturePrefecture
JapanCountry

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PhotosMapsSearch
03836490016547253697619.jpg
Toyoha Mine, Japan

Toyoha mine, Minami-ku, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
03012930014963628805251.jpg
Teineite

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
09572290014977206852304.jpg
Tellurite

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
01617130016547250162180.jpg
Toyoha Mine, Japan

Toyoha mine, Minami-ku, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
03012930014963628805251.jpg
Teineite

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
02022030014946259814346.jpg
Tellurite

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
02658320016547258542070.jpg
Toyoha Mine, Japan

Toyoha mine, Minami-ku, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
03012930014963628805251.jpg
Teineite

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Neighbouring regions:
Date City, Iburi Subprefecture, Hokkaidō Prefecture, Japan
Ishikari City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Abuta District, Iburi Subprefecture, Hokkaidō Prefecture, Japan
Kimobetsu, Shiribeshi Subprefecture, Hokkaidō Prefecture, Japan
Koryu mine (Kohryu mine), Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Ebetsu City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Eniwa City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Ishikari District, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Kitahiroshima City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Otaru-Matsukura deposit (Otarumatsukura), Shiribeshi Subprefecture, Hokkaidō Prefecture, Japan
Yoichi District, Shiribeshi Subprefecture, Hokkaidō Prefecture, Japan
Otaru City, Shiribeshi Subprefecture, Hokkaidō Prefecture, Japan
Date mine, Iburi Subprefecture, Hokkaidō Prefecture, Japan
Kimobetsu mine, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Abuta District, Shiribeshi Subprefecture, Hokkaidō Prefecture, Japan
Chitose City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Locality type:
City
Largest Settlements:
PlacePopulation
Sapporo1,883,027 (2018)
Other Languages:
View 119 more...
French:
Sapporo, sous-préfecture d'Ishikari, Hokkaidō, Japon
German:
Sapporo, Unterpräfektur Ishikari, Präfektur Hokkaido, Japan
Italian:
Sapporo, Sottoprefettura di Ishikari, prefettura di Hokkaidō, Giappone
Japanese:
札幌市, 石狩振興局, 北海道, 日本
Russian:
Саппоро, Исикари, Хоккайдо, Япония
Simplified Chinese:
札幌市, 石狩振興局, 北海道, 日本
Spanish:
Sapporo, Subprefectura de Ishikari, Prefectura de Hokkaidō, Japón
Achinese:
Sapporo, Jeupun
Adyghe:
Саппоро, Японие
Afrikaans:
Sapporo, Japan
Amharic:
ሳፖሮ, ጃፓን
Arabic:
سابورو, مقاطعة إيشيكاري, هوكايدو, اليابان
Armenian:
Սապորո, Հոկայդո, Ճապոնիա
Aromanian:
Sapporo, Japonia
Asturian:
Sapporo, subprefeutura d'Ishikari, prefeutura de Hokkaidō, Xapón
Azeri:
Sapporo, Hokkaydo , Yaponiya
Bambara:
Sapporo, Zapɔn
Bashkir:
Саппоро, Япония
Basque:
Sapporo, Ishikari suprefetura, Japonia
Belarusian:
Сапара, Губернатарства Хакайда, Японія
Bengali:
সাপোরু, ইশিকারি উপ-প্রশাসনিক অঞ্চল, জাপান
Bosnian:
Sapporo, Japan
Breton:
Sapporo, Japan
Bulgarian:
Сапоро, Япония
Catalan:
Sapporo, Subprefectura d'Ishikari, Prefectura d'Hokkaidō, Japó
Cebuano:
Sapporo-shi, Hokkaidō , Hapon
Chamorro:
Sapporo, Chapan
Chechen:
Саппоро, Япон
Cherokee:
ᏌᏉᏬ, ᏣᏩᏂᏏ
Chewa:
Sapporo
Cheyenne:
Sapporo, Japan
Classical Chinese:
札幌市, 日本
Cree:
ᓴᐳᐅ
Croatian:
Sapporo, Hokkaido, Japan
Czech:
Sapporo, prefektura Hokkaidó, Japonsko
Danish:
Sapporo, Ishikari Subprefecture, Japan
Dutch:
Sapporo, Ishikari, Prefectuur Hokkaidō, Japan
Erzya:
Саппоро, Япония Мастор
Esperanto:
Sapporo, Iŝikari-subgubernio, Hokajdo, Japanio
Estonian:
Sapporo, Hokkaidō prefektuur, Jaapan
Ewe:
Sapporo, Japan
Faroese:
Sapporo, Japan
Farsi/Persian:
ساپورو, ژاپن
Finnish:
Sapporo, Ishikarin kaupunki, Japani
Galician:
Sapporo, Subprefectura de Ishikari, Xapón
Georgian:
საპორო, იაპონია
Greek:
Σαππόρο, Ισικάρι, Ιαπωνία
Greenlandic:
Sapporo, Japani
Gujarati:
સાપોરો, ઇશિકારી સબપ્રેફેક્ચર, જાપાન
Hakka:
Sapporo, Ngi̍t-pún
Hebrew:
סאפורו, יפן
Hindi:
साप्पोरो, इशिकारी उपप्रीफेक्चर, जापान
Hungarian:
Szapporo, Isikari alprefektúra, Hokkaidó prefektúra, Japán
Icelandic:
Sapporo, Japan
Ido:
Sapporo, Hokkaido, Japonia
Iloko:
Sapporo, Subprepektura ti Ishikari, Hapon
Indonesian:
Sapporo, Subprefektur Ishikari, Prefektur Hokkaido, Jepang
Interlingue:
Sapporo, Japan
Inuktitut:
ᓴᑉᐳᕈ, ᓃᑉᐊᓐ
Inupiaq:
Sapporo, Japan
Irish Gaelic:
Sapporo, An tSeapáin
Javanese:
Sapporo, Hokkaido, Jepang
Kannada:
ಸಪ್ಪೋರೊ, ಇಶಿಕರಿ ಸಬ್ಪ್ರೆಕ್ಚರ್, ಜಪಾನ್
Kazakh (Cyrillic Script):
Саппоро, Жапония
Kikuyu:
Sapporo, Japan
Korean:
삿포로시, 이시카리 진흥국, 홋카이도, 일본
Latin:
Sapporia, Iaponia
Latvian:
Saporo, Išikari apakšprefektūra, Hokaido prefektūra, Japāna
Lithuanian:
Saporas, Išikario subprefektūra, Japonija
Lower Sorbian:
Sapporo, Japańska
Luganda:
Sapporo, Japani
Luxembourgish:
Sapporo, Japan
Malay:
Sapporo, Ishikari Subprefecture, Jepun
Malayalam:
സാപ്പൊറൊ, ജപ്പാൻ
Maori:
Sapporo, Nipono
Marathi:
सप्पोरो, इशिकारी सुब्बाचिटिअर, जपान
Mazanderani:
ساپورو, جاپون
Mingrelian:
საპორო, ჰოკაიდოშ პრეფექტურა, იაპონია
Minnan / Hokkien-Taiwanese:
Sapporo-chhī, Isikari Chìn-heng-kio̍k, Ji̍t-pún
Nahuatl:
Sapporo, Xapon
Norwegian:
Sapporo, Ishikari Subprefecture, Japan
Norwegian (Nynorsk):
Sapporo, Japan
Occitan:
Sapporo, Japon
Ossetian:
Саппоро, Япон
Picard:
Sapporo, Japon
Polish:
Sapporo, Podprefektura Ishikari, prefektura Hokkaido, Japonia
Pontic Greek:
Σαππόρο
Portuguese:
Sapporo, Ishikari Subprefecture, Japão
Quechua:
Sapporo, Nihun
Romanian:
Sapporo, Prefectura Hokkaidō, Japonia
Russia Buriat:
Саппоро, Япон Улас
Scots:
Sapporo, Japan
Serbian:
Сапоро, Хокаидо, Јапан
Serbo-Croatian:
Saporo, Japan
Silesian:
Sapporo, Japůńijo
Sinhalese:
සැපොරෝ, ඉෂිකාරි උප ප්‍රාන්තය, ජපානය
Slovak:
Sapporo, Japonsko
Slovenian:
Saporo, Japonska
South Azerbaijani:
ساپورو, ژاپون
Sundanese:
Sapporo, Jepang
Swahili:
Sapporo, Japani
Swedish:
Sapporo, Ishikari Subprefecture, Hokkaido prefektur, Japan
Tagalog:
Sapporo, Subprepektura ng Ishikari, Hapon
Tajik (Cyrillic Script):
Саппоро, Префектураи Ҳоккайдо, Ҷопон
Tamil:
சப்போரோ, இஷிகாரி சுப்ப்ரேபெக்ட்டுர், யப்பான்
Tatar:
Саппоро, Япония
Telugu:
సపోరో, ఇషికారి సబ్‌ప్రిఫెక్చర్, జపాన్
Thai:
ซัปโปโระ, กิ่งจังหวัดอิชิกะริ, ประเทศญี่ปุ่น
Traditional Chinese:
札幌市, 北海道, 日本
Tumbuka:
Sapporo, Japan
Turkish:
Sapporo, Ishikari, Japonya
Turkmen:
Sapporo, Ýaponiýa
Twi:
Sapporo, Yapan
Ukrainian:
Саппоро, Округ Ісікарі, Префектура Хоккайдо, Японія
Urdu:
ساپورو, اشیکاری سوبپریفیکتوری, جاپان
Uzbek (Latin Script):
Sapporo, Yaponiya
Venetian:
Sapporo, Giapòn
Veps:
Sapporo, Japonii
Vietnamese:
Sapporo, Khu Ishikari, Nhật Bản
Volapük:
Sapporo, Yapän
Waray:
Sapporo, Hapon
Welsh:
Sapporo, is-dalaith Ishikari, Japan
West Frisian:
Sapporo, Japan
Western Punjabi:
سیپورو, جپان
Wolof:
Sapporo, Sapoŋ
Yakut:
Саппоро, Дьоппуон


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Select Mineral List Type

Standard Detailed Gallery Strunz Chemical Elements

Commodity List

This is a list of exploitable or exploited mineral commodities recorded from this region.


Mineral List

Mineral list contains entries from the region specified including sub-localities

122 valid minerals. 4 (TL) - type locality of valid minerals.

Rock Types Recorded

Note: data is currently VERY limited. Please bear with us while we work towards adding this information!

Rock list contains entries from the region specified including sub-localities

Select Rock List Type

Alphabetical List Tree Diagram

Detailed Mineral List:

Acanthite
Formula: Ag2S
Reference: Econ Geol (1985) 80:1415-1424; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Kase, K. (1987). Tin-bearing chalcopyrite from the Izumo vein, Toyoha mine, Hokkaido, Japan. Canadian Mineralogist, 25, 9-13.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Aikinite
Formula: PbCuBiS3
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Alabandite
Formula: MnS
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
trans.png
Altaite

Kobetsuzawa mine, Nishi-ku, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Altaite
Formula: PbTe
Reference: Dr Yohachiro Okamoto collection (curated at Geological Survey of Japan); Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.); 石橋正夫. (1956). Some Tellurium Minerals from the Kobetsuzawa Mine, Sapporo, Hokkaido. 鉱物学雜誌, 2(6), 447-457.; 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92.; Nakata et al (1989) Mineralogical Magazine, 53, 387-388 Yuningsih, E. T., Matsueda, H., & Syafrie, I. (2018). Ore–microscopy and Geochemistry of Gold–Silver Telluride Mineralization in Southwestern Hokkaido, Japan. Journal of Mineralogical and Petrological Sciences, 171017.
Alunite
Formula: KAl3(SO4)2(OH)6
Reference: Toru Shimizu,(2013) Oxygen isotopic study of vein quartz in Neogene-Quaternary overprinting hydrothermal systems in the Toyoha-Muine area, Hokkaido, Japan. Bull. Geol. Surv. Japan, vol. 64 (7/8), p. 191-200
Anatase
Formula: TiO2
Reference: Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Anglesite
Formula: PbSO4
Reference: 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92.
Ankerite
Formula: Ca(Fe2+,Mg)(CO3)2
Reference: www.mineralmundi.com/japan.htm (USGS)
Antlerite
Formula: Cu3(SO4)(OH)4
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
'Apatite'
Formula: Ca5(PO4)3(Cl/F/OH)
Reference: Min. Jour. (Japan): 15:222-232.
Arsenic
Formula: As
Reference: 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Arsenopyrite
Formula: FeAsS
Reference: Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Azurite
Formula: Cu3(CO3)2(OH)2
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Baryte
Formula: BaSO4
Reference: Ryoichi SADANAGA and Michiaki BUNNO (1974) THE WAKABAYASHI MINERAL COLLECTION Bulletin No. 7 The University Museum, The University of Tokyo; 田中崇裕・濱根大輔: "北海道手稲鉱山産 kalgoorlieite."; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Berndtite
Formula: SnS2
Reference: The Mineral Species of Japan (5th ed) Matsubara; Min. Jour. (Japan): 15:222-232.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Berthierite
Formula: FeSb2S4
Reference: 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Bismuth
Formula: Bi
Reference: Shimizu, M., Kato, A., Matsubara, S., Criddle, A. J., & Stanley, C. J. (1993). Watanabeite, Cu4 (As, Sb) 2S5, a new mineral from the Teine mine, Sapporo, Hokkaido, Japan. Mineralogical Magazine, 57(389), 643-650.; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Bismuthinite
Formula: Bi2S3
Reference: Minerals in Japan, p. 247 (Field Best Encyclopedia, vol. 15) ; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Bornite
Formula: Cu5FeS4
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Bournonite
Formula: PbCuSbS3
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999) Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Calcite
Formula: CaCO3
Reference: Min. Jour. (Japan): 15:222-232.; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Toru Shimizu,(2013) Oxygen isotopic study of vein quartz in Neogene-Quaternary overprinting hydrothermal systems in the Toyoha-Muine area, Hokkaido, Japan. Bull. Geol. Surv. Japan, vol. 64 (7/8), p. 191-200; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Calcite var. Manganese-bearing Calcite
Formula: (Ca,Mn)CO3
Reference: Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Canfieldite
Formula: Ag8SnS6
Reference: Min. Jour. (Japan): 15:222-232.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295 . Ohta, E. (1979) New occurrence of canfieldite and berthierite from the Toyoha Mine. Abst. Joint Meet. Soc. Mining Geol. Japan, Mineral. Soc. Japan, and Japan Assoc. Mineral. Petrol. Econ. Geol.: 96.
Cassiterite
Formula: SnO2
Reference: Min. Jour. (Japan): 15:222-232.; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Kase, K. (1987). Tin-bearing chalcopyrite from the Izumo vein, Toyoha mine, Hokkaido, Japan. Canadian Mineralogist, 25, 9-13.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Cerussite
Formula: PbCO3
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Chalcanthite
Formula: CuSO4 · 5H2O
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Chalcocite
Formula: Cu2S
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Chalcopyrite
Formula: CuFeS2
Reference: Min. Jour. (Japan): 15:222-232.; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Chalcopyrite var. Stannian Chalcopyrite
Formula: Cu(Fe,Sn)S2
Reference: Kase, K. (1987). Tin-bearing chalcopyrite from the Izumo vein, Toyoha mine, Hokkaido, Japan. Canadian Mineralogist, 25, 9-13.
Chlorargyrite
Formula: AgCl
Reference: 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92.
'Chlorite Group'
Reference: www.mineralmundi.com/japan.htm (USGS); Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; Toru Shimizu,(2013) Oxygen isotopic study of vein quartz in Neogene-Quaternary overprinting hydrothermal systems in the Toyoha-Muine area, Hokkaido, Japan. Bull. Geol. Surv. Japan, vol. 64 (7/8), p. 191-200
Clausthalite
Formula: PbSe
Reference: 田中崇裕・濱根大輔: "北海道手稲鉱山産 kalgoorlieite."; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Coloradoite
Formula: HgTe
Reference: 田中崇裕・濱根大輔: "北海道手稲鉱山産 kalgoorlieite."
Colusite
Formula: Cu13VAs3S16
Reference: AmMin 85:628 Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Copper
Formula: Cu
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Covellite
Formula: CuS
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Cupropavonite
Formula: Cu0.9Ag0.5Pb0.6Bi2.5S5
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Devilline
Formula: CaCu4(SO4)2(OH)6 · 3H2O
Reference: Shimizu, M., Kato, A,, Matsubara, S., Criddle, A.J., Stanley, C.J. (1993) Watanabeite, Cu4(As,Sb)2S5, a new mineral from the Teine mine, Sapporo, Hokkaido, Japan. Mineralogical Magazine, 57, 643-649; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Dickite
Formula: Al2(Si2O5)(OH)4
Reference: Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; Toru Shimizu,(2013) Oxygen isotopic study of vein quartz in Neogene-Quaternary overprinting hydrothermal systems in the Toyoha-Muine area, Hokkaido, Japan. Bull. Geol. Surv. Japan, vol. 64 (7/8), p. 191-200
Dolomite
Formula: CaMg(CO3)2
Reference: www.mineralmundi.com/japan.htm (USGS)
Dyscrasite
Formula: Ag3Sb
Reference: Ishibashi (1956) Koubutsugaku Zasshi, 2, 447-457.; Nakata et al (1989) Mineralogical Magazine, 53, 387-388
Emmonsite
Formula: Fe3+2(TeO3)3 · 2H2O
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Emplectite
Formula: CuBiS2
Reference: Shimizu, M., Kato, A., Matsubara, S., Criddle, A. J., & Stanley, C. J. (1993). Watanabeite, Cu4 (As, Sb) 2S5, a new mineral from the Teine mine, Sapporo, Hokkaido, Japan. Mineralogical Magazine, 57(389), 643-650.; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Enargite
Formula: Cu3AsS4
Reference: Minerals in Japan, p. 247 (Field Best Encyclopedia, vol. 15) ; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Famatinite
Formula: Cu3SbS4
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
'Famatinite-Luzonite Series'
Reference: Polymetallic mineralization at the Shin-Ohtoyo Deposit, Harukayama District, Hokkaido, Japan, Imai, Akira; Matsueda, Hiroharu; Yamada, Ryoichi; Masuta, Kenzo, Resource Geology (Tokyo 1998), vol.49, no.2, pp.75-88, 1999
Fischesserite
Formula: Ag3AuSe2
Reference: 田中崇裕・濱根大輔: "北海道手稲鉱山産 kalgoorlieite."
'Freibergite Subgroup'
Formula: (Ag6,[Ag6]4+)(Cu4 C2+2)Sb4S12S0-1
Reference: 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Friedrichite
Formula: Pb5Cu5Bi7S18
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999) Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
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Frohbergite, etc.

Kobetsuzawa mine, Nishi-ku, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Frohbergite
Formula: FeTe2
Reference: Nakata et al (1989) Mineralogical Magazine, 53, 387-388.; 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92. Yuningsih, E. T., Matsueda, H., & Syafrie, I. (2018). Ore–microscopy and Geochemistry of Gold–Silver Telluride Mineralization in Southwestern Hokkaido, Japan. Journal of Mineralogical and Petrological Sciences, 171017.
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Galena, etc.

Toyoha mine, Minami-ku, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Galena
Formula: PbS
Reference: Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Geigerite
Formula: Mn2+5(AsO4)2(HAsO4)2 · 10H2O
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
'Germanite Group'
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88.
Goethite
Formula: α-Fe3+O(OH)
Reference: Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
Gold
Formula: Au
Reference: Kamitani, M., Okumura, K., Teraoka, Y., Miyano, S., and Watanabe, Y. (2007): Mineral Resources Map of East Asia. Geological Survey of Japan.; Harada, Zyunpéi (1954) Chemical Analyses of Japanese Minerals (III) Journal of the Faculty of Science, Hokkaido University. Series 4, Geology and mineralogy = 北海道大學理學部紀要, 8(4):289-348; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Gold var. Electrum
Formula: (Au,Ag)
Reference: Econ Geol (1985) 80:1415-1424; Kase, K. (1987). Tin-bearing chalcopyrite from the Izumo vein, Toyoha mine, Hokkaido, Japan. Canadian Mineralogist, 25, 9-13.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Goldfieldite
Formula: (Cu42)(Cu4Cu+2)Te4S12S
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88.
Graphite
Formula: C
Reference: Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Gustavite
Formula: AgPbBi3S6
Reference: Min. Jour. (Japan): 15:222-232.
Gypsum
Formula: CaSO4 · 2H2O
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Hakite-(Hg)
Formula: Cu6(Cu4Hg2)Sb4Se12Se
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Hematite
Formula: Fe2O3
Reference: Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Herzenbergite
Formula: SnS
Reference: Min. Jour. (Japan): 15:222-232.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Hessite
Formula: Ag2Te
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.); 石橋正夫. (1956). Some Tellurium Minerals from the Kobetsuzawa Mine, Sapporo, Hokkaido. 鉱物学雜誌, 2(6), 447-457.; 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92.; Nakata et al (1989) Mineralogical Magazine, 53, 387-388 Yuningsih, E. T., Matsueda, H., & Syafrie, I. (2018). Ore–microscopy and Geochemistry of Gold–Silver Telluride Mineralization in Southwestern Hokkaido, Japan. Journal of Mineralogical and Petrological Sciences, 171017.
Hocartite
Formula: Ag2(Fe2+,Zn)SnS4
Reference: Kojima et al (1979) Kouzan Chishitsu, 29, 197-206.; Min. Jour. (Japan): 15:222-232.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Hodrušite
Formula: Cu8Bi12S22
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Jamesonite
Formula: Pb4FeSb6S14
Reference: Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Kalgoorlieite
Formula: As2Te3
Reference: 田中崇裕・濱根大輔: "北海道手稲鉱山産 kalgoorlieite."
Kaolinite
Formula: Al2(Si2O5)(OH)4
Reference: AmMin 85:628; Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic mineralization at the Shin-Ohtoyo deposit, Harakayama district, Hokkaido, Japan. Resource Geol.: 49: 75–88; in: Jambor, J.L., Puziewicz, J., Roberts, A.C. (2000): New mineral names. Am. Min.: 85: 628.
Kësterite
Formula: Cu2ZnSnS4
Reference: Min. Jour. (Japan): 15:222-232.
'K Feldspar'
Formula: KAlSi3O8
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88.
'K Feldspar var. Adularia'
Formula: KAlSi3O8
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Koritnigite
Formula: Zn(AsO3OH) · H2O
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Krautite
Formula: Mn(HAsO4) · H2O
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Laforêtite
Formula: AgInS2
Reference: Ishihara, S., Matsueda, H. (2011) Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan: 62(3/4): 131-142.
'Limonite'
Reference: 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92.
Löllingite
Formula: FeAs2
Reference: Kase, K. (1987). Tin-bearing chalcopyrite from the Izumo vein, Toyoha mine, Hokkaido, Japan. Canadian Mineralogist, 25, 9-13.
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Luzonite

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Luzonite
Formula: Cu3AsS4
Reference: Gramaccioli, C. M., 1985. Conoscere i minerali. I solfosali. Istituto Geografico De Agostini, Novara, 96 pp; Huang, C. K. (1965) Proceedings of the Geological Society of China 11:31-42; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Magnetite
Formula: Fe2+Fe3+2O4
Reference: Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Malachite
Formula: Cu2(CO3)(OH)2
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Marcasite
Formula: FeS2
Reference: Min. Jour. (Japan): 15:222-232.; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Matildite
Formula: AgBiS2
Reference: Min. Jour. (Japan): 15:222-232.
Mawsonite
Formula: Cu6Fe2SnS8
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Melonite
Formula: NiTe2
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.); 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92.
Miargyrite
Formula: AgSbS2
Reference: 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; Toru Shimizu,(2013) Oxygen isotopic study of vein quartz in Neogene-Quaternary overprinting hydrothermal systems in the Toyoha-Muine area, Hokkaido, Japan. Bull. Geol. Surv. Japan, vol. 64 (7/8), p. 191-200
Muscovite var. Sericite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; Toru Shimizu,(2013) Oxygen isotopic study of vein quartz in Neogene-Quaternary overprinting hydrothermal systems in the Toyoha-Muine area, Hokkaido, Japan. Bull. Geol. Surv. Japan, vol. 64 (7/8), p. 191-200
Naumannite
Formula: Ag2Se
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Nekrasovite
Formula: Cu26V2(Sn,As,Sb)6S32
Reference: Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
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Orpiment

Jozankei, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Orpiment
Formula: As2S3
Reference: Ryoichi SADANAGA and Michiaki BUNNO (1974) THE WAKABAYASHI MINERAL COLLECTION Bulletin No. 7 The University Museum, The University of Tokyo
Paratellurite
Formula: TeO2
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Petzite
Formula: Ag3AuTe2
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.); 石橋正夫. (1956). Some Tellurium Minerals from the Kobetsuzawa Mine, Sapporo, Hokkaido. 鉱物学雜誌, 2(6), 447-457.; 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92.; Nakata et al (1989) Mineralogical Magazine, 53, 387-388 Yuningsih, E. T., Matsueda, H., & Syafrie, I. (2018). Ore–microscopy and Geochemistry of Gold–Silver Telluride Mineralization in Southwestern Hokkaido, Japan. Journal of Mineralogical and Petrological Sciences, 171017.
Pirquitasite
Formula: Ag2ZnSnS4
Reference: Kojima et al (1979) Kouzan Chishitsu, 29, 197-206.; Min. Jour. (Japan): 15:222-232.
Plumbogummite
Formula: PbAl3(PO4)(PO3OH)(OH)6
Reference: Matsubara et al (1997) Ganko-Gakkai Kou'en-Youshi, 159.
Polybasite
Formula: [Cu6Sb2S7][Ag9CuS4]
Reference: 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Poubaite
Formula: PbBi2(Se,Te,S)4
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Poughite
Formula: Fe3+2(TeO3)2(SO4)(H2O)2 · H2O
Proustite
Formula: Ag3AsS3
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Pyrargyrite
Formula: Ag3SbS3
Reference: Kase, K. (1987). Tin-bearing chalcopyrite from the Izumo vein, Toyoha mine, Hokkaido, Japan. Canadian Mineralogist, 25, 9-13.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Pyrite
Formula: FeS2
Reference: Econ Geol (1985) 80:1415-1424; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; Toru Shimizu,(2013) Oxygen isotopic study of vein quartz in Neogene-Quaternary overprinting hydrothermal systems in the Toyoha-Muine area, Hokkaido, Japan. Bull. Geol. Surv. Japan, vol. 64 (7/8), p. 191-200; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Pyrophyllite
Formula: Al2Si4O10(OH)2
Reference: Min. Jour. (Japan): 15:222-232.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; Toru Shimizu,(2013) Oxygen isotopic study of vein quartz in Neogene-Quaternary overprinting hydrothermal systems in the Toyoha-Muine area, Hokkaido, Japan. Bull. Geol. Surv. Japan, vol. 64 (7/8), p. 191-200
Pyroxmangite
Formula: Mn2+SiO3
Reference: Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
Pyrrhotite
Formula: Fe1-xS
Reference: Min. Jour. (Japan): 15:222-232.; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Quartz
Formula: SiO2
Reference: Ryoichi SADANAGA and Michiaki BUNNO (1974) THE WAKABAYASHI MINERAL COLLECTION Bulletin No. 7 The University Museum, The University of Tokyo; Harada, Zyunpéi (1954) Chemical Analyses of Japanese Minerals (III) Journal of the Faculty of Science, Hokkaido University. Series 4, Geology and mineralogy = 北海道大學理學部紀要, 8(4):289-348; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Quartz var. Chalcedony
Formula: SiO2
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999) Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88.
Realgar
Formula: As4S4
Reference: Ryoichi SADANAGA and Michiaki BUNNO (1974) THE WAKABAYASHI MINERAL COLLECTION Bulletin No. 7 The University Museum, The University of Tokyo
Rhodochrosite
Formula: MnCO3
Reference: Min. Jour. (Japan): 15:222-232.; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Rhodostannite
Formula: Cu1+(Fe2+0.5Sn4+1.5)S4
Reference: Min. Jour. (Japan): 15:222-232.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Richelsdorfite
Formula: Ca2Cu5Sb(AsO4)4(OH)6Cl · 6H2O
Reference: Matsubara et al (2003) Koubutsu-Gakkai Kou'en-Youshi, 46.; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
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Rickardite

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Rickardite
Formula: Cu7Te5
Reference: Watanabe (1934) Ganseki-Koubutsu-Koshogaku Zasshi, 11, 213-220.; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Roquesite
Formula: CuInS2
Reference: Yajima, J., Ohta, E., Kanazawa, Y. (1991) Toyohaite, Ag2FeSn3S8, a new mineral. Mineralogical Journal: 15: 222-232.
Rutile
Formula: TiO2
Reference: Min. Jour. (Japan): 15:222-232.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Sakuraiite
Formula: (Cu,Zn,Fe)3(In,Sn)S4
Reference: Yajima, J., Ohta, E., Kanazawa, Y. (1991) Toyohaite, Ag2FeSn3S8, a new mineral. Mineralogical Journal: 15: 222-232.; Ishihara, S., Matsueda, H. (2011) Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan: 62(3/4): 131-142.
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Silver

Toyoha mine, Minami-ku, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Silver
Formula: Ag
Reference: 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Sphalerite
Formula: ZnS
Reference: Min. Jour. (Japan): 15:222-232.; Econ Geol (1985) 80:1415-1424; Makoto Watanabe (1983) Journal of Science of the Hiroshima University, Series C, 8, #1, 67-94.; Togari, Kenji (1978) Colour of Sphalerite. Jour. Fac. Sci., Hokkaido Univ., Ser. IV, vol. 18, no. 3, Mar., 1978, pp. 283-290.; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Sphalerite var. Indium-bearing Sphalerite
Reference: Ohta, E. (1989): Occurrence and chemistry of indium-containing minerals from the Toyoha mine, Hokkaido, Japan. Mining Geol.: 39(6): 355-372; in: Jambor, J.L., Puziewicz, J., Roberts, A.C. (1995): New mineral Names. American Mineralogist: 80: 406
Stannite
Formula: Cu2FeSnS4
Reference: Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; Kase, K. (1987). Tin-bearing chalcopyrite from the Izumo vein, Toyoha mine, Hokkaido, Japan. Canadian Mineralogist, 25, 9-13.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Stannoidite
Formula: Cu+6Cu2+2(Fe2+,Zn)3Sn2S12
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic mineralization at the Shin-Ohtoyo deposit, Harakayama district, Hokkaido, Japan. Resource Geol.: 49: 75–88; in: Jambor, J.L., Puziewicz, J., Roberts, A.C. (2000): New mineral names. Am. Min.: 85: 628. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Stephanite
Formula: Ag5SbS4
Reference: 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.
Stibiocolusite
Formula: Cu13V(Sb,Sn,As)3S16
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Stibnite
Formula: Sb2S3
Reference: Kamitani, M., Okumura, K., Teraoka, Y., Miyano, S., and Watanabe, Y. (2007): Mineral Resources Map of East Asia. Geological Survey of Japan.; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Stützite
Formula: Ag5-xTe3, x = 0.24-0.36
Reference: 田中崇裕・濱根大輔: "北海道手稲鉱山産 kalgoorlieite."; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Sulphur
Formula: S8
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88.
Sylvanite
Formula: AgAuTe4
Reference: Zemann, A., and Zemann, J. (1960): Contributions to Mineralogy and Petrology 7, 436-438.; Yosimura, T. (1939): Teineite, a new tellurate mineral from the Teine mine, Hokkaido, Japan. J. Fac. Sci. Hokkaido Univ. IV 4, 465.
Szmikite
Formula: MnSO4 · H2O
Reference: Encyclopedia of Minerals, 2nd. edition: 842.
Teallite
Formula: PbSnS2
Reference: Min. Jour. (Japan): 15:222-232.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
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Teineite

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Teineite (TL)
Formula: Cu2+(Te4+O3) · 2H2O
Reference: Zemann, A., and Zemann, J. (1960): Contributions to Mineralogy and Petrology 7, 436-438.; Yosimura, T. (1939): Teineite, a new tellurate mineral from the Teine mine, Hokkaido, Japan. J. Fac. Sci. Hokkaido Univ. IV 4, 465.
Tellurantimony
Formula: Sb2Te3
Reference: Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.); 中田正隆, 鄭在一, 本間久英, & 櫻井欽一. (1985). On tellurantimony from the Kobetsuzawa mine, Sapporo, Hokkaido. 鉱物学雜誌, 17(2), 79-83.; 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92.; Nakata et al (1989) Mineralogical Magazine, 53, 387-388 Yuningsih, E. T., Matsueda, H., & Syafrie, I. (2018). Ore–microscopy and Geochemistry of Gold–Silver Telluride Mineralization in Southwestern Hokkaido, Japan. Journal of Mineralogical and Petrological Sciences, 171017.
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Tellurite

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Tellurite
Formula: TeO2
Reference: Zemann, A., and Zemann, J. (1960): Contributions to Mineralogy and Petrology 7, 436-438.; Yosimura, T. (1939): Teineite, a new tellurate mineral from the Teine mine, Hokkaido, Japan. J. Fac. Sci. Hokkaido Univ. IV 4, 465.
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Tellurium, etc.

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Tellurium
Formula: Te
Reference: Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; 井伊博行, & 岡田昭彦. (1991). 北海道札幌市小別沢鉱山産のテルル鉱物 (Poughite, Frohbergite, Melonite) について. 鉱物学雜誌, 20(3), 89-92.; Nakata et al (1989) Mineralogical Magazine, 53, 387-388 Yuningsih, E. T., Matsueda, H., & Syafrie, I. (2018). Ore–microscopy and Geochemistry of Gold–Silver Telluride Mineralization in Southwestern Hokkaido, Japan. Journal of Mineralogical and Petrological Sciences, 171017.
Tellurobismuthite
Formula: Bi2Te3
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
'Tennantite Series'
Reference: Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
'Tennantite Subgroup'
Formula: Cu6(Cu4C2+2)As4S12S
Reference: Shimizu, M., Kato, A., Matsubara, S., Criddle, A. J., & Stanley, C. J. (1993). Watanabeite, Cu4 (As, Sb) 2S5, a new mineral from the Teine mine, Sapporo, Hokkaido, Japan. Mineralogical Magazine, 57(389), 643-650.; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Tetradymite
Formula: Bi2Te2S
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
Tetrahedrite-(Mn) (TL)
Formula: Cu6(Cu4Mn2)Sb4S12S
Type Locality:
Reference: Momma, K., Shimizu, M., Kusaba, Y., Ohki, Y.: Tetrahedrite-(Mn), IMA 2021-098, in: CNMNC Newsletter 65, Eur. J. Mineral.: 34, https://doi.org/10.5194/ejm-34-143-2022
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Tetrahedrite Subgroup

Teine mine, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
'Tetrahedrite Subgroup'
Formula: Cu6(Cu4C2+2)Sb4S12S
Reference: Palache, C., Berman, H., & Frondel, C. (1951), The System of Mineralogy of James Dwight Dana and Edward Salisbury Dana, Yale University 1837-1892, Volume II: 636.; Harada, Zyunpéi (1954) Chemical Analyses of Japanese Minerals (III) Journal of the Faculty of Science, Hokkaido University. Series 4, Geology and mineralogy = 北海道大學理學部紀要, 8(4):289-348; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35. Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226.
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Toyohaite, etc.

Toyoha mine, Minami-ku, Sapporo City, Ishikari Subprefecture, Hokkaidō Prefecture, Japan
Toyohaite (TL)
Formula: Ag1+(Fe2+0.5Sn4+1.5)S4
Type Locality:
Reference: Min. Jour. (Japan): 15:222-232.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
'UM1989-24-S:CuFeZn'
Formula: (Zn,Fe,Cu)S
Reference: Ohta, E. (1989): Occurrence and chemistry of indium-containing minerals from the Toyoha mine, Hokkaido, Japan. Mining Geol.: 39(6): 355-372; in: Jambor, J.L., Puziewicz, J., Roberts, A.C. (1995): New mineral Names. American Mineralogist: 80: 406
'UM1994-20-S:AgSn'
Formula: (Ag,Pb)12Sn2S11
Reference: Ono, S., Sato, J. (1994): Ore minerals and fluid inclusions from veins in the northwestern part of the Toyoha PbZn-Ag mining district, Hokkaido, Japan. Resource Geology: 44(5): 369-378; in: Jambor, J.L., Roberts, A.C (1995): New mineral Names. American Mineralogist: 80: 1075
'UM1999-23-S:CuFeSnZn'
Formula: Cu6(Fe,Cu,Zn)Sn3S10
Reference: Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic mineralization at the Shin-Ohtoyo deposit, Harakayama district, Hokkaido, Japan. Resource Geol.: 49: 75–88; in: Jambor, J.L., Puziewicz, J., Roberts, A.C. (2000): New mineral names. Am. Min.: 85: 628.
'Unnamed (Sb-analogue of Watanabeite)'
Formula: Cu4(Sb,As)2S5
Reference: Shimizu, M., Kato, A., Matsubara, S., Criddle, A. J., Stanley, C. J. (1993): Watanabeite, Cu4(As,Sb)2S5, a new mineral from the Teine mine, Sapporo, Hokkaido, Japan. Mineralogical Magazine 57, 643-649.
'Wad'
Reference: 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
Watanabeite (TL)
Formula: Cu4(As,Sb)2S5
Type Locality:
Reference: Shimizu, M., Kato, A,, Matsubara, S., Criddle, A.J., Stanley, C.J. (1993) Watanabeite, Cu4(As,Sb)2S5, a new mineral from the Teine mine, Sapporo, Hokkaido, Japan. Mineralogical Magazine, 57, 643-649; 島倉広至, 三浦貴生, 浜根大輔, 松枝大治, & 三浦裕行. (2015). 北海道手稲鉱山産 Te, Bi, As 鉱物. 北海道大学地球物理学研究報告, 78, 19-35.
'Wolframite Group'
Reference: Kase, K. (1987). Tin-bearing chalcopyrite from the Izumo vein, Toyoha mine, Hokkaido, Japan. Canadian Mineralogist, 25, 9-13.; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
Wurtzite
Formula: (Zn,Fe)S
Reference: Min. Jour. (Japan): 15:222-232.; Ishihara, S., & Matsueda, H. (2011). Chemical characteristics of the indium-polymetallic ores from the Toyoha mine, Hokkaido, Japan. Bulletin of the Geological Survey of Japan, 62(3/4), 131-142.; Shimizu, T. Evolution of subaerial magmatic-hydrothermal systems: A comparative study between Koryu Au-Ag deposit and Toyoha polymetallic deposit at Sapporo-Iwanai district, Hokkaido, Japan. AUSIMM; 矢島淳吉, & 太田英順. (1979). Two-stage mineralization and formation process of the Toyoha deposits, Hokkaido, Japan. 鉱山地質, 29(157), 291-306.

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
Arsenic1.CA.05As
Bismuth1.CA.05Bi
Copper1.AA.05Cu
Gold1.AA.05Au
var. Electrum1.AA.05(Au,Ag)
Graphite1.CB.05aC
Silver1.AA.05Ag
Sulphur1.CC.05S8
Tellurium1.CC.10Te
Group 2 - Sulphides and Sulfosalts
Acanthite2.BA.35Ag2S
Aikinite2.HB.05aPbCuBiS3
Alabandite2.CD.10MnS
Altaite2.CD.10PbTe
Arsenopyrite2.EB.20FeAsS
Berndtite2.EA.20SnS2
Berthierite2.HA.20FeSb2S4
Bismuthinite2.DB.05Bi2S3
Bornite2.BA.15Cu5FeS4
Bournonite2.GA.50PbCuSbS3
Canfieldite2.BA.70Ag8SnS6
Chalcocite2.BA.05Cu2S
Chalcopyrite2.CB.10aCuFeS2
var. Stannian Chalcopyrite2.CB.10aCu(Fe,Sn)S2
Clausthalite2.CD.10PbSe
Coloradoite2.CB.05aHgTe
Colusite2.CB.30Cu13VAs3S16
Covellite2.CA.05aCuS
Cupropavonite2.JA.05aCu0.9Ag0.5Pb0.6Bi2.5S5
Dyscrasite2.AA.35Ag3Sb
Emplectite2.HA.05CuBiS2
Enargite2.KA.05Cu3AsS4
Famatinite2.KA.10Cu3SbS4
Fischesserite2.BA.75Ag3AuSe2
'Freibergite Subgroup'2.GB.05(Ag6,[Ag6]4+)(Cu4 C2+2)Sb4S12S0-1
Friedrichite2.HB.05aPb5Cu5Bi7S18
Frohbergite2.EB.10aFeTe2
Galena2.CD.10PbS
Goldfieldite2.GB.05(Cu42)(Cu4Cu+2)Te4S12S
Gustavite2.JB.40aAgPbBi3S6
Hakite-(Hg)2.GB.05Cu6(Cu4Hg2)Sb4Se12Se
Herzenbergite2.CD.05SnS
Hessite2.BA.60Ag2Te
Hocartite2.CB.15aAg2(Fe2+,Zn)SnS4
Hodrušite2.JA.10cCu8Bi12S22
Jamesonite2.HB.15Pb4FeSb6S14
Kalgoorlieite2.FA.40As2Te3
Kësterite 2.CB.15aCu2ZnSnS4
Laforêtite2.CB.10aAgInS2
Luzonite2.KA.10Cu3AsS4
Löllingite2.EB.15aFeAs2
Marcasite2.EB.10aFeS2
Matildite2.JA.20AgBiS2
Mawsonite2.CB.20Cu6Fe2SnS8
Melonite2.EA.20NiTe2
Miargyrite2.HA.10AgSbS2
Naumannite2.BA.55Ag2Se
Nekrasovite2.CB.30Cu26V2(Sn,As,Sb)6S32
Orpiment2.FA.30As2S3
Petzite2.BA.75Ag3AuTe2
Pirquitasite2.CB.15aAg2ZnSnS4
Polybasite2.GB.15[Cu6Sb2S7][Ag9CuS4]
Poubaite2.GC.40cPbBi2(Se,Te,S)4
Proustite2.GA.05Ag3AsS3
Pyrargyrite2.GA.05Ag3SbS3
Pyrite2.EB.05aFeS2
Pyrrhotite2.CC.10Fe1-xS
Realgar2.FA.15aAs4S4
Rhodostannite2.DA.10Cu1+(Fe2+0.5Sn4+1.5)S4
Rickardite2.BA.30Cu7Te5
Roquesite2.CB.10aCuInS2
Sakuraiite2.CB.05b(Cu,Zn,Fe)3(In,Sn)S4
Sphalerite2.CB.05aZnS
var. Indium-bearing Sphalerite2.CB.05aZnS
Stannite2.CB.15aCu2FeSnS4
Stannoidite2.CB.15cCu+6Cu2+2(Fe2+,Zn)3Sn2S12
Stephanite2.GB.10Ag5SbS4
Stibiocolusite2.CB.30Cu13V(Sb,Sn,As)3S16
Stibnite2.DB.05Sb2S3
Stützite2.BA.65Ag5-xTe3, x = 0.24-0.36
Sylvanite2.EA.05AgAuTe4
Teallite2.CD.05PbSnS2
Tellurantimony2.DC.05Sb2Te3
Tellurobismuthite2.DC.05Bi2Te3
'Tennantite Subgroup'2.GB.05Cu6(Cu4C2+2)As4S12S
Tetradymite2.DC.05Bi2Te2S
'Tetrahedrite Subgroup'2.GB.05Cu6(Cu4C2+2)Sb4S12S
Tetrahedrite-(Mn) (TL)2.GB.Cu6(Cu4Mn2)Sb4S12S
Toyohaite (TL)2.DA.10Ag1+(Fe2+0.5Sn4+1.5)S4
Watanabeite (TL)2.GC.15Cu4(As,Sb)2S5
Wurtzite2.CB.45(Zn,Fe)S
Group 3 - Halides
Chlorargyrite3.AA.15AgCl
Group 4 - Oxides and Hydroxides
Anatase4.DD.05TiO2
Cassiterite4.DB.05SnO2
Emmonsite4.JM.10Fe3+2(TeO3)3 · 2H2O
Goethite4.00.α-Fe3+O(OH)
Hematite4.CB.05Fe2O3
Magnetite4.BB.05Fe2+Fe3+2O4
Paratellurite4.DE.25TeO2
Poughite4.JN.10Fe3+2(TeO3)2(SO4)(H2O)2 · H2O
Quartz4.DA.05SiO2
var. Chalcedony4.DA.05SiO2
Rutile4.DB.05TiO2
Teineite (TL)4.JM.20Cu2+(Te4+O3) · 2H2O
Tellurite4.DE.20TeO2
'Wolframite Group'4.DB.30 va
Group 5 - Nitrates and Carbonates
Ankerite5.AB.10Ca(Fe2+,Mg)(CO3)2
Azurite5.BA.05Cu3(CO3)2(OH)2
Calcite5.AB.05CaCO3
var. Manganese-bearing Calcite5.AB.05(Ca,Mn)CO3
Cerussite5.AB.15PbCO3
Dolomite5.AB.10CaMg(CO3)2
Malachite5.BA.10Cu2(CO3)(OH)2
Rhodochrosite5.AB.05MnCO3
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Alunite7.BC.10KAl3(SO4)2(OH)6
Anglesite7.AD.35PbSO4
Antlerite7.BB.15Cu3(SO4)(OH)4
Baryte7.AD.35BaSO4
Chalcanthite7.CB.20CuSO4 · 5H2O
Devilline7.DD.30CaCu4(SO4)2(OH)6 · 3H2O
Gypsum7.CD.40CaSO4 · 2H2O
Szmikite7.CB.05MnSO4 · H2O
Group 8 - Phosphates, Arsenates and Vanadates
Geigerite8.CE.05Mn2+5(AsO4)2(HAsO4)2 · 10H2O
Koritnigite8.CB.20Zn(AsO3OH) · H2O
Krautite8.CB.15Mn(HAsO4) · H2O
Plumbogummite8.BL.10PbAl3(PO4)(PO3OH)(OH)6
Richelsdorfite8.DK.Ca2Cu5Sb(AsO4)4(OH)6Cl · 6H2O
Group 9 - Silicates
Dickite9.ED.05Al2(Si2O5)(OH)4
Kaolinite9.ED.05Al2(Si2O5)(OH)4
Muscovite9.EC.15KAl2(AlSi3O10)(OH)2
var. Sericite9.EC.15KAl2(AlSi3O10)(OH)2
Pyrophyllite9.EC.10Al2Si4O10(OH)2
Pyroxmangite9.DO.05Mn2+SiO3
Unclassified Minerals, Rocks, etc.
'Apatite'-Ca5(PO4)3(Cl/F/OH)
'Chlorite Group'-
'Famatinite-Luzonite Series'-
'Germanite Group'-
'K Feldspar'-KAlSi3O8
'var. Adularia'-KAlSi3O8
'Limonite'-
'Tennantite Series'-
'UM1989-24-S:CuFeZn'-(Zn,Fe,Cu)S
'UM1994-20-S:AgSn'-(Ag,Pb)12Sn2S11
'UM1999-23-S:CuFeSnZn'-Cu6(Fe,Cu,Zn)Sn3S10
'Unnamed (Sb-analogue of Watanabeite)'-Cu4(Sb,As)2S5
'Wad'-

List of minerals for each chemical element

HHydrogen
H TeineiteCu2+(Te4+O3) · 2H2O
H PoughiteFe23+(TeO3)2(SO4)(H2O)2 · H2O
H DickiteAl2(Si2O5)(OH)4
H Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
H SzmikiteMnSO4 · H2O
H KaoliniteAl2(Si2O5)(OH)4
H PlumbogummitePbAl3(PO4)(PO3OH)(OH)6
H RichelsdorfiteCa2Cu5Sb(AsO4)4(OH)6Cl · 6H2O
H PyrophylliteAl2Si4O10(OH)2
H ApatiteCa5(PO4)3(Cl/F/OH)
H Goethiteα-Fe3+O(OH)
H AluniteKAl3(SO4)2(OH)6
H DevillineCaCu4(SO4)2(OH)6 · 3H2O
H MuscoviteKAl2(AlSi3O10)(OH)2
H ChalcanthiteCuSO4 · 5H2O
H KoritnigiteZn(AsO3OH) · H2O
H AntleriteCu3(SO4)(OH)4
H MalachiteCu2(CO3)(OH)2
H EmmonsiteFe23+(TeO3)3 · 2H2O
H GeigeriteMn52+(AsO4)2(HAsO4)2 · 10H2O
H KrautiteMn(HAsO4) · H2O
H AzuriteCu3(CO3)2(OH)2
H GypsumCaSO4 · 2H2O
CCarbon
C RhodochrositeMnCO3
C Calcite var. Manganese-bearing Calcite(Ca,Mn)CO3
C AnkeriteCa(Fe2+,Mg)(CO3)2
C DolomiteCaMg(CO3)2
C CalciteCaCO3
C GraphiteC
C MalachiteCu2(CO3)(OH)2
C CerussitePbCO3
C AzuriteCu3(CO3)2(OH)2
OOxygen
O TeineiteCu2+(Te4+O3) · 2H2O
O PoughiteFe23+(TeO3)2(SO4)(H2O)2 · H2O
O QuartzSiO2
O DickiteAl2(Si2O5)(OH)4
O Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
O SzmikiteMnSO4 · H2O
O MagnetiteFe2+Fe23+O4
O HematiteFe2O3
O RhodochrositeMnCO3
O Calcite var. Manganese-bearing Calcite(Ca,Mn)CO3
O CassiteriteSnO2
O KaoliniteAl2(Si2O5)(OH)4
O BaryteBaSO4
O AnkeriteCa(Fe2+,Mg)(CO3)2
O DolomiteCaMg(CO3)2
O Quartz var. ChalcedonySiO2
O PlumbogummitePbAl3(PO4)(PO3OH)(OH)6
O RichelsdorfiteCa2Cu5Sb(AsO4)4(OH)6Cl · 6H2O
O RutileTiO2
O PyrophylliteAl2Si4O10(OH)2
O ApatiteCa5(PO4)3(Cl/F/OH)
O CalciteCaCO3
O TelluriteTeO2
O PyroxmangiteMn2+SiO3
O Goethiteα-Fe3+O(OH)
O AluniteKAl3(SO4)2(OH)6
O DevillineCaCu4(SO4)2(OH)6 · 3H2O
O K Feldspar var. AdulariaKAlSi3O8
O AnglesitePbSO4
O MuscoviteKAl2(AlSi3O10)(OH)2
O K FeldsparKAlSi3O8
O ParatelluriteTeO2
O ChalcanthiteCuSO4 · 5H2O
O KoritnigiteZn(AsO3OH) · H2O
O AntleriteCu3(SO4)(OH)4
O MalachiteCu2(CO3)(OH)2
O CerussitePbCO3
O EmmonsiteFe23+(TeO3)3 · 2H2O
O GeigeriteMn52+(AsO4)2(HAsO4)2 · 10H2O
O KrautiteMn(HAsO4) · H2O
O AzuriteCu3(CO3)2(OH)2
O GypsumCaSO4 · 2H2O
O AnataseTiO2
FFluorine
F ApatiteCa5(PO4)3(Cl/F/OH)
MgMagnesium
Mg AnkeriteCa(Fe2+,Mg)(CO3)2
Mg DolomiteCaMg(CO3)2
AlAluminium
Al DickiteAl2(Si2O5)(OH)4
Al Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
Al KaoliniteAl2(Si2O5)(OH)4
Al PlumbogummitePbAl3(PO4)(PO3OH)(OH)6
Al PyrophylliteAl2Si4O10(OH)2
Al AluniteKAl3(SO4)2(OH)6
Al K Feldspar var. AdulariaKAlSi3O8
Al MuscoviteKAl2(AlSi3O10)(OH)2
Al K FeldsparKAlSi3O8
SiSilicon
Si QuartzSiO2
Si DickiteAl2(Si2O5)(OH)4
Si Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
Si KaoliniteAl2(Si2O5)(OH)4
Si Quartz var. ChalcedonySiO2
Si PyrophylliteAl2Si4O10(OH)2
Si PyroxmangiteMn2+SiO3
Si K Feldspar var. AdulariaKAlSi3O8
Si MuscoviteKAl2(AlSi3O10)(OH)2
Si K FeldsparKAlSi3O8
PPhosphorus
P PlumbogummitePbAl3(PO4)(PO3OH)(OH)6
P ApatiteCa5(PO4)3(Cl/F/OH)
SSulfur
S ToyohaiteAg1+(Fe2+0.5Sn4+1.5)S4
S WatanabeiteCu4(As,Sb)2S5
S Tetrahedrite-(Mn)Cu6(Cu4Mn2)Sb4S12S
S PoughiteFe23+(TeO3)2(SO4)(H2O)2 · H2O
S LuzoniteCu3AsS4
S Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
S RhodostanniteCu1+(Fe2+0.5Sn4+1.5)S4
S HocartiteAg2(Fe2+,Zn)SnS4
S GalenaPbS
S TeallitePbSnS2
S HerzenbergiteSnS
S BerndtiteSnS2
S Wurtzite(Zn,Fe)S
S SphaleriteZnS
S PyriteFeS2
S EnargiteCu3AsS4
S LaforêtiteAgInS2
S PyrargyriteAg3SbS3
S SzmikiteMnSO4 · H2O
S Chalcopyrite var. Stannian ChalcopyriteCu(Fe,Sn)S2
S ChalcopyriteCuFeS2
S StanniteCu2FeSnS4
S AcanthiteAg2S
S EmplectiteCuBiS2
S Tennantite SubgroupCu6(Cu4C22+)As4S12S
S StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
S ColusiteCu13VAs3S16
S BaryteBaSO4
S RealgarAs4S4
S OrpimentAs2S3
S BismuthiniteBi2S3
S FriedrichitePb5Cu5Bi7S18
S BournonitePbCuSbS3
S AikinitePbCuBiS3
S MawsoniteCu6Fe2SnS8
S StibiocolusiteCu13V(Sb,Sn,As)3S16
S Goldfieldite(Cu42)(Cu4Cu2+)Te4S12S
S PirquitasiteAg2ZnSnS4
S GustaviteAgPbBi3S6
S RoquesiteCuInS2
S Sakuraiite(Cu,Zn,Fe)3(In,Sn)S4
S Kësterite Cu2ZnSnS4
S MarcasiteFeS2
S PyrrhotiteFe1-xS
S CanfielditeAg8SnS6
S MatilditeAgBiS2
S StibniteSb2S3
S ArsenopyriteFeAsS
S JamesonitePb4FeSb6S14
S AluniteKAl3(SO4)2(OH)6
S DevillineCaCu4(SO4)2(OH)6 · 3H2O
S Unnamed (Sb-analogue of Watanabeite)Cu4(Sb,As)2S5
S FamatiniteCu3SbS4
S SulphurS8
S BerthieriteFeSb2S4
S Polybasite[Cu6Sb2S7][Ag9CuS4]
S MiargyriteAgSbS2
S Freibergite Subgroup(Ag6,[Ag6]4+)(Cu4 C22+)Sb4S12S0-1
S StephaniteAg5SbS4
S AnglesitePbSO4
S UM1989-24-S:CuFeZn(Zn,Fe,Cu)S
S CupropavoniteCu0.9Ag0.5Pb0.6Bi2.5S5
S ChalcanthiteCuSO4 · 5H2O
S TetradymiteBi2Te2S
S HodrušiteCu8Bi12S22
S AlabanditeMnS
S ChalcociteCu2S
S AntleriteCu3(SO4)(OH)4
S ProustiteAg3AsS3
S CovelliteCuS
S PoubaitePbBi2(Se,Te,S)4
S BorniteCu5FeS4
S GypsumCaSO4 · 2H2O
S UM1994-20-S:AgSn(Ag,Pb)12Sn2S11
S UM1999-23-S:CuFeSnZnCu6(Fe,Cu,Zn)Sn3S10
S NekrasoviteCu26V2(Sn,As,Sb)6S32
ClChlorine
Cl RichelsdorfiteCa2Cu5Sb(AsO4)4(OH)6Cl · 6H2O
Cl ApatiteCa5(PO4)3(Cl/F/OH)
Cl ChlorargyriteAgCl
KPotassium
K Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
K AluniteKAl3(SO4)2(OH)6
K K Feldspar var. AdulariaKAlSi3O8
K MuscoviteKAl2(AlSi3O10)(OH)2
K K FeldsparKAlSi3O8
CaCalcium
Ca Calcite var. Manganese-bearing Calcite(Ca,Mn)CO3
Ca AnkeriteCa(Fe2+,Mg)(CO3)2
Ca DolomiteCaMg(CO3)2
Ca RichelsdorfiteCa2Cu5Sb(AsO4)4(OH)6Cl · 6H2O
Ca ApatiteCa5(PO4)3(Cl/F/OH)
Ca CalciteCaCO3
Ca DevillineCaCu4(SO4)2(OH)6 · 3H2O
Ca GypsumCaSO4 · 2H2O
TiTitanium
Ti RutileTiO2
Ti AnataseTiO2
VVanadium
V ColusiteCu13VAs3S16
V StibiocolusiteCu13V(Sb,Sn,As)3S16
V NekrasoviteCu26V2(Sn,As,Sb)6S32
MnManganese
Mn Tetrahedrite-(Mn)Cu6(Cu4Mn2)Sb4S12S
Mn SzmikiteMnSO4 · H2O
Mn RhodochrositeMnCO3
Mn Calcite var. Manganese-bearing Calcite(Ca,Mn)CO3
Mn PyroxmangiteMn2+SiO3
Mn AlabanditeMnS
Mn GeigeriteMn52+(AsO4)2(HAsO4)2 · 10H2O
Mn KrautiteMn(HAsO4) · H2O
FeIron
Fe ToyohaiteAg1+(Fe2+0.5Sn4+1.5)S4
Fe PoughiteFe23+(TeO3)2(SO4)(H2O)2 · H2O
Fe RhodostanniteCu1+(Fe2+0.5Sn4+1.5)S4
Fe HocartiteAg2(Fe2+,Zn)SnS4
Fe Wurtzite(Zn,Fe)S
Fe PyriteFeS2
Fe Chalcopyrite var. Stannian ChalcopyriteCu(Fe,Sn)S2
Fe ChalcopyriteCuFeS2
Fe StanniteCu2FeSnS4
Fe MagnetiteFe2+Fe23+O4
Fe HematiteFe2O3
Fe LöllingiteFeAs2
Fe StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Fe AnkeriteCa(Fe2+,Mg)(CO3)2
Fe FrohbergiteFeTe2
Fe MawsoniteCu6Fe2SnS8
Fe Sakuraiite(Cu,Zn,Fe)3(In,Sn)S4
Fe MarcasiteFeS2
Fe PyrrhotiteFe1-xS
Fe Goethiteα-Fe3+O(OH)
Fe ArsenopyriteFeAsS
Fe JamesonitePb4FeSb6S14
Fe BerthieriteFeSb2S4
Fe UM1989-24-S:CuFeZn(Zn,Fe,Cu)S
Fe EmmonsiteFe23+(TeO3)3 · 2H2O
Fe BorniteCu5FeS4
Fe UM1999-23-S:CuFeSnZnCu6(Fe,Cu,Zn)Sn3S10
NiNickel
Ni MeloniteNiTe2
CuCopper
Cu WatanabeiteCu4(As,Sb)2S5
Cu TeineiteCu2+(Te4+O3) · 2H2O
Cu Tetrahedrite-(Mn)Cu6(Cu4Mn2)Sb4S12S
Cu LuzoniteCu3AsS4
Cu Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
Cu RhodostanniteCu1+(Fe2+0.5Sn4+1.5)S4
Cu EnargiteCu3AsS4
Cu Chalcopyrite var. Stannian ChalcopyriteCu(Fe,Sn)S2
Cu ChalcopyriteCuFeS2
Cu StanniteCu2FeSnS4
Cu EmplectiteCuBiS2
Cu Tennantite SubgroupCu6(Cu4C22+)As4S12S
Cu StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Cu ColusiteCu13VAs3S16
Cu FriedrichitePb5Cu5Bi7S18
Cu BournonitePbCuSbS3
Cu AikinitePbCuBiS3
Cu MawsoniteCu6Fe2SnS8
Cu StibiocolusiteCu13V(Sb,Sn,As)3S16
Cu Goldfieldite(Cu42)(Cu4Cu2+)Te4S12S
Cu RichelsdorfiteCa2Cu5Sb(AsO4)4(OH)6Cl · 6H2O
Cu RoquesiteCuInS2
Cu Sakuraiite(Cu,Zn,Fe)3(In,Sn)S4
Cu Kësterite Cu2ZnSnS4
Cu RickarditeCu7Te5
Cu DevillineCaCu4(SO4)2(OH)6 · 3H2O
Cu Unnamed (Sb-analogue of Watanabeite)Cu4(Sb,As)2S5
Cu FamatiniteCu3SbS4
Cu Polybasite[Cu6Sb2S7][Ag9CuS4]
Cu Freibergite Subgroup(Ag6,[Ag6]4+)(Cu4 C22+)Sb4S12S0-1
Cu UM1989-24-S:CuFeZn(Zn,Fe,Cu)S
Cu CupropavoniteCu0.9Ag0.5Pb0.6Bi2.5S5
Cu ChalcanthiteCuSO4 · 5H2O
Cu HodrušiteCu8Bi12S22
Cu ChalcociteCu2S
Cu AntleriteCu3(SO4)(OH)4
Cu MalachiteCu2(CO3)(OH)2
Cu CovelliteCuS
Cu AzuriteCu3(CO3)2(OH)2
Cu BorniteCu5FeS4
Cu CopperCu
Cu Hakite-(Hg)Cu6(Cu4Hg2)Sb4Se12Se
Cu UM1999-23-S:CuFeSnZnCu6(Fe,Cu,Zn)Sn3S10
Cu NekrasoviteCu26V2(Sn,As,Sb)6S32
ZnZinc
Zn HocartiteAg2(Fe2+,Zn)SnS4
Zn Wurtzite(Zn,Fe)S
Zn SphaleriteZnS
Zn StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Zn PirquitasiteAg2ZnSnS4
Zn Sakuraiite(Cu,Zn,Fe)3(In,Sn)S4
Zn Kësterite Cu2ZnSnS4
Zn UM1989-24-S:CuFeZn(Zn,Fe,Cu)S
Zn KoritnigiteZn(AsO3OH) · H2O
Zn UM1999-23-S:CuFeSnZnCu6(Fe,Cu,Zn)Sn3S10
AsArsenic
As WatanabeiteCu4(As,Sb)2S5
As LuzoniteCu3AsS4
As EnargiteCu3AsS4
As LöllingiteFeAs2
As Tennantite SubgroupCu6(Cu4C22+)As4S12S
As ColusiteCu13VAs3S16
As RealgarAs4S4
As OrpimentAs2S3
As StibiocolusiteCu13V(Sb,Sn,As)3S16
As RichelsdorfiteCa2Cu5Sb(AsO4)4(OH)6Cl · 6H2O
As ArsenopyriteFeAsS
As Unnamed (Sb-analogue of Watanabeite)Cu4(Sb,As)2S5
As ArsenicAs
As KalgoorlieiteAs2Te3
As KoritnigiteZn(AsO3OH) · H2O
As ProustiteAg3AsS3
As GeigeriteMn52+(AsO4)2(HAsO4)2 · 10H2O
As KrautiteMn(HAsO4) · H2O
As NekrasoviteCu26V2(Sn,As,Sb)6S32
SeSelenium
Se FischesseriteAg3AuSe2
Se ClausthalitePbSe
Se NaumanniteAg2Se
Se PoubaitePbBi2(Se,Te,S)4
Se Hakite-(Hg)Cu6(Cu4Hg2)Sb4Se12Se
AgSilver
Ag ToyohaiteAg1+(Fe2+0.5Sn4+1.5)S4
Ag HocartiteAg2(Fe2+,Zn)SnS4
Ag SilverAg
Ag LaforêtiteAgInS2
Ag PyrargyriteAg3SbS3
Ag AcanthiteAg2S
Ag Gold var. Electrum(Au,Ag)
Ag DyscrasiteAg3Sb
Ag PirquitasiteAg2ZnSnS4
Ag GustaviteAgPbBi3S6
Ag CanfielditeAg8SnS6
Ag MatilditeAgBiS2
Ag SylvaniteAgAuTe4
Ag HessiteAg2Te
Ag PetziteAg3AuTe2
Ag Polybasite[Cu6Sb2S7][Ag9CuS4]
Ag MiargyriteAgSbS2
Ag Freibergite Subgroup(Ag6,[Ag6]4+)(Cu4 C22+)Sb4S12S0-1
Ag StephaniteAg5SbS4
Ag ChlorargyriteAgCl
Ag StütziteAg5-xTe3, x = 0.24-0.36
Ag FischesseriteAg3AuSe2
Ag CupropavoniteCu0.9Ag0.5Pb0.6Bi2.5S5
Ag NaumanniteAg2Se
Ag ProustiteAg3AsS3
Ag UM1994-20-S:AgSn(Ag,Pb)12Sn2S11
InIndium
In LaforêtiteAgInS2
In RoquesiteCuInS2
In Sakuraiite(Cu,Zn,Fe)3(In,Sn)S4
SnTin
Sn ToyohaiteAg1+(Fe2+0.5Sn4+1.5)S4
Sn RhodostanniteCu1+(Fe2+0.5Sn4+1.5)S4
Sn HocartiteAg2(Fe2+,Zn)SnS4
Sn TeallitePbSnS2
Sn HerzenbergiteSnS
Sn BerndtiteSnS2
Sn Chalcopyrite var. Stannian ChalcopyriteCu(Fe,Sn)S2
Sn StanniteCu2FeSnS4
Sn CassiteriteSnO2
Sn StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Sn MawsoniteCu6Fe2SnS8
Sn StibiocolusiteCu13V(Sb,Sn,As)3S16
Sn PirquitasiteAg2ZnSnS4
Sn Sakuraiite(Cu,Zn,Fe)3(In,Sn)S4
Sn Kësterite Cu2ZnSnS4
Sn CanfielditeAg8SnS6
Sn UM1994-20-S:AgSn(Ag,Pb)12Sn2S11
Sn UM1999-23-S:CuFeSnZnCu6(Fe,Cu,Zn)Sn3S10
Sn NekrasoviteCu26V2(Sn,As,Sb)6S32
SbAntimony
Sb WatanabeiteCu4(As,Sb)2S5
Sb Tetrahedrite-(Mn)Cu6(Cu4Mn2)Sb4S12S
Sb Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
Sb TellurantimonySb2Te3
Sb PyrargyriteAg3SbS3
Sb DyscrasiteAg3Sb
Sb BournonitePbCuSbS3
Sb StibiocolusiteCu13V(Sb,Sn,As)3S16
Sb RichelsdorfiteCa2Cu5Sb(AsO4)4(OH)6Cl · 6H2O
Sb StibniteSb2S3
Sb JamesonitePb4FeSb6S14
Sb Unnamed (Sb-analogue of Watanabeite)Cu4(Sb,As)2S5
Sb FamatiniteCu3SbS4
Sb BerthieriteFeSb2S4
Sb Polybasite[Cu6Sb2S7][Ag9CuS4]
Sb MiargyriteAgSbS2
Sb Freibergite Subgroup(Ag6,[Ag6]4+)(Cu4 C22+)Sb4S12S0-1
Sb StephaniteAg5SbS4
Sb Hakite-(Hg)Cu6(Cu4Hg2)Sb4Se12Se
Sb NekrasoviteCu26V2(Sn,As,Sb)6S32
TeTellurium
Te TeineiteCu2+(Te4+O3) · 2H2O
Te PoughiteFe23+(TeO3)2(SO4)(H2O)2 · H2O
Te TellurantimonySb2Te3
Te AltaitePbTe
Te TelluriumTe
Te FrohbergiteFeTe2
Te Goldfieldite(Cu42)(Cu4Cu2+)Te4S12S
Te RickarditeCu7Te5
Te TelluriteTeO2
Te SylvaniteAgAuTe4
Te HessiteAg2Te
Te PetziteAg3AuTe2
Te MeloniteNiTe2
Te KalgoorlieiteAs2Te3
Te StütziteAg5-xTe3, x = 0.24-0.36
Te ColoradoiteHgTe
Te TellurobismuthiteBi2Te3
Te ParatelluriteTeO2
Te TetradymiteBi2Te2S
Te EmmonsiteFe23+(TeO3)3 · 2H2O
Te PoubaitePbBi2(Se,Te,S)4
BaBarium
Ba BaryteBaSO4
AuGold
Au Gold var. Electrum(Au,Ag)
Au SylvaniteAgAuTe4
Au GoldAu
Au PetziteAg3AuTe2
Au FischesseriteAg3AuSe2
HgMercury
Hg ColoradoiteHgTe
Hg Hakite-(Hg)Cu6(Cu4Hg2)Sb4Se12Se
PbLead
Pb GalenaPbS
Pb TeallitePbSnS2
Pb AltaitePbTe
Pb FriedrichitePb5Cu5Bi7S18
Pb BournonitePbCuSbS3
Pb AikinitePbCuBiS3
Pb PlumbogummitePbAl3(PO4)(PO3OH)(OH)6
Pb GustaviteAgPbBi3S6
Pb JamesonitePb4FeSb6S14
Pb AnglesitePbSO4
Pb ClausthalitePbSe
Pb CupropavoniteCu0.9Ag0.5Pb0.6Bi2.5S5
Pb CerussitePbCO3
Pb PoubaitePbBi2(Se,Te,S)4
Pb UM1994-20-S:AgSn(Ag,Pb)12Sn2S11
BiBismuth
Bi EmplectiteCuBiS2
Bi BismuthBi
Bi BismuthiniteBi2S3
Bi FriedrichitePb5Cu5Bi7S18
Bi AikinitePbCuBiS3
Bi GustaviteAgPbBi3S6
Bi MatilditeAgBiS2
Bi TellurobismuthiteBi2Te3
Bi CupropavoniteCu0.9Ag0.5Pb0.6Bi2.5S5
Bi TetradymiteBi2Te2S
Bi HodrušiteCu8Bi12S22
Bi PoubaitePbBi2(Se,Te,S)4

Fossils

There are 2 fossil localities from the PaleoBioDB database within this region.

BETA TEST - These data are provided on an experimental basis and are taken from external databases. Mindat.org has no control currently over the accuracy of these data.

Occurrences5
Youngest Fossil Listed5.33 Ma (Miocene)
Oldest Fossil Listed145 Ma (Late Jurassic)
Fossils from RegionClick here to show the list.
Accepted NameHierarchy Age
Eomunidopsis
genus		Animalia : Arthropoda : Malacostraca : Decapoda : Galatheidae : Eomunidopsis145 - 66 Ma
Cretaceous
Hoploparia kamuy
species		Animalia : Arthropoda : Malacostraca : Decapoda : Nephropidae : Hoploparia : Hoploparia kamuy145 - 66 Ma
Cretaceous
Paki rurkonsimpu
species		Animalia : Arthropoda : Malacostraca : Decapoda : Micheleidae : Paki : Paki rurkonsimpu145 - 66 Ma
Cretaceous
Luisogalathea tomitai
species		Animalia : Arthropoda : Malacostraca : Decapoda : Galatheidae : Luisogalathea : Luisogalathea tomitai145 - 66 Ma
Cretaceous
Tymolus ingens
species		Animalia : Arthropoda : Malacostraca : Decapoda : Cyclodorippidae : Tymolus : Tymolus ingens23.03 - 5.333 Ma
Miocene
Fossil LocalitiesClick to show 2 fossil localities

Other Databases

Wikipedia:https://en.wikipedia.org/wiki/Sapporo
Wikidata ID:Q37951
GeoNames ID:2128291

Localities in this Region

Japan

Other Regions, Features and Areas that Intersect

Okhotsk PlateTectonic Plate

This page contains all mineral locality references listed on mindat.org. This does not claim to be a complete list. If you know of more minerals from this site, please register so you can add to our database. This locality information is for reference purposes only. You should never attempt to visit any sites listed in mindat.org without first ensuring that you have the permission of the land and/or mineral rights holders for access and that you are aware of all safety precautions necessary.
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