Kaolinite from Okhotsk Plate


Japan
Akita Prefecture Kosaka Kosaka mine ⓘ Uwamuki deposit (Uwamukai deposit)	Shikazono, N., Hoshino, M., Utada, M., Nakata, M., and Ueda, A. (1998): Mineralium Deposita 33, 346-358.
Odate ⓘ Fukasawa mine (Fukazawa mine)	Shikazono, N., Hoshino, M., Utada, M., Nakata, M., and Ueda, A. (1998): Mineralium Deposita 33, 346-358.
Aomori Prefecture Kamikita District ⓘ Kamikita mine	INOUE, A., & UTADA, M. (1991). Hydrothermal Alteration in the Kamikita Kuroko Mineralization Area. Mining Geology, 41(228), 203-218. Plumlee, Geoffrey S., Whitehouse-Veaux, Pamela Heald (1994) Mineralogy, paragenesis, and mineral zoning of the Bulldog Mountain vein system, Creede District, Colorado. Economic Geology, 89 (8). 1883-1905 doi:10.2113/gsecongeo.89.8.1883 1996 v. 91 no. 1 p. 204-212
ⓘ Oage mine (Ou'age mine)	Plumlee, Geoffrey S., Whitehouse-Veaux, Pamela Heald (1994) Mineralogy, paragenesis, and mineral zoning of the Bulldog Mountain vein system, Creede District, Colorado. Economic Geology, 89 (8). 1883-1905 doi:10.2113/gsecongeo.89.8.1883 1996 v. 91 no. 1 p. 204-212
Fukushima Prefecture Adachi District ⓘ Adachi mine	Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
Koriyama City ⓘ Takatama mine	Geological Survey of Japan, 1960.
ⓘ Tsukigata mine	Dr. Matsuo Nambu collection (curated by the Geological Survey of Japan)
Gunma Prefecture ⓘ Shima mine	Nambu ore collection (curated at Geological Survey of Japan)
Hokkaidō Prefecture Hiyama Subprefecture Hiyama District Kaminokuni ⓘ Johkoku mine (Jôkoku mine; Jokoku mine)	Nambu et al (1979) Ganseki-Koubutsu-Koshogaku Zasshi (JAMP), 74, 406-412.
Iburi Subprefecture Shiraoi District Shiraoi-cho ⓘ Minamishiraoi deposits (Minamishiraoi baryte mine)	米田哲朗. (1989). 北海道南白老重晶石・カオリン鉱床の粘土鉱物組成. 粘土科学, 29(2), 69-80.
Usu District Sobetsu ⓘ Horobetsu sulphur mine	Takeo Kato, Takeo Watanabe, Akira Nakamoto (1934) On the sulphur deposits associated with iron sulphide ore, found in the Quaternary Formation of Japan. Japan Journal of Geology and Geography, 15, 3-4, 287-324.
Ishikari Subprefecture Sapporo City Minami-ku ⓘ Toyoha Mine	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 Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295 Min. Jour. (Japan): 15:222-232.
ⓘ Shin-Ohtoyo deposit	in: Jambor, J.L., Puziewicz, J., Roberts, A.C. (2000): New mineral names. Am. Min.: 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 AmMin 85:628
Oshima Subprefecture ⓘ Mitsumori deposit	Watanabe, Y., Aoki, M., & Nakajima, N. (1996). Age and style of epithermal gold mineralization in the Minamikayabe area, southwestern Hokkaido. Shigen-Chishitsu, 46(260), 317-326.
Shiribeshi Subprefecture ⓘ Otaru-Matsukura deposit (Otarumatsukura)	Nakamoto, a., Urasima, Y., Sugiura, S., Nakano, H., Yachi, T., & Tadokoro, K. (1969). Pyromorphite-mimetite minerals from the Otaru-Matsukura barite mine in Hokkaido, Japan. Mineralogical Journal, 6(1-2), 85-101.
ⓘ Suttsu mine	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.
Ibaraki Prefecture Higashiibaraki District Shirosato-machi ⓘ Takatori mine	Masukawa, K., Nishio, Y., & Hayashi, K. I. (2013). Lithium-strontium isotope and heavy metal content of fluid inclusions and origin of ore-forming fluid responsible for tungsten mineralization at Takatori mine, Japan. Geochemical Journal, 47(3), 309-319.
Iwate Prefecture Hachimantai City ⓘ Matsuo mine	Iichiro Takahashi (1957) Studies on the Sulphur and Iron-Sulphides Deposits of the Matsuo Mine (2). Mining Geology 7:104-111
Karumai ⓘ Kokarumai mine	Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
Kuji City ⓘ Heiinokuchi mine	Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
Shimohei District Iwaizumi ⓘ Iwate mine	Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
Miyagi Prefecture Kurihara City ⓘ Hosokura mine	Urabe, T. (1977) Partition of cadmium and manganese between coexisting sphalerite and galena from some Japanese epithermal deposits. Mineralium Deposita, 12 (3) 319-330 doi:10.1007/bf00206170 Narita, E. (1961). Wall rock alteration in the kanoko vein Swarm, Hosokura Mine, Miyagi prefecture, north-east Japan. Journal of the Faculty of Science, Hokkaido University. Series 4, Geology and mineralogy= 北海道大學理學部紀要, 11(1), 59-75. Nokleberg, W.J., ed., 2010, Metallogenesis and tectonics of northeast Asia: U.S. Geological Survey Professional Paper 1765, 624 p.
ⓘ Onikobe geothermal field	Seki, Y. and Okumura, K. (1968) Yugawaralite from Onikobe active geothermal area, Northeast Japan. Jour. Japan. Assoc. Min. Pet. Economic Geology, 60, #1, 27-33.
Nagano Prefecture Chiisagata district ⓘ Shinyo mine	Fujii, N., & Inoue, H. (1971). Geologic Features and Classification of the Pyrophyllite Deposits in the Hokushin District, Central Japan. Mining Geology, 21(110), 407-417.
Niigata Prefecture Higashikambara District Aga ⓘ Igashima mine	IMAI, N., & WATANABE, K. (1972). Tosudite-bearing Clay Associated with Fluorspar Deposits of the Igashima Mine, Niigata Prefecture, Northeastern Japan. Mining Geology, 22(111), 43-66.
ⓘ Mikawa mine	K. Nagasawa (1953) Journal of Earth Sci., Nagoya Daigaku, 1, 9.
Murakami City ⓘ Asahi	Dr Yohachiro Okamoto (1876-1960) collection (curated by the Geological Survey of Japan)
Osudo ⓘ Murakami sericite deposit	Takahisa Yoshimura & Yujin Ishizuka (1989) Ferrierite in a hydrothermal alteration zone around the murakami sericite deposit. Journal of the Clay Science Society of Japan (in Japanese) 29:179-186
Tochigi Prefecture Kanuma City ⓘ Hikida mine	Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Nikko City Imaichi ⓘ Fubasami mine (Fubasamikureh mine)	Masutomi Museum specimens, Kyoto (John Rakovan photos).
Yamagata Prefecture Yonezawa City ⓘ Itaya deposit (Itaya mine)	Dr. Kameki Kinoshita collection (curated at Geological Survey of Japan)
Yamanashi Prefecture Yamanashi City ⓘ Kyonosawa	Hawthorne, F. C., Selway, J. B., Kato, A., Matsubara, S., Shimizu, M., Grice, J. D., Vajdak, J. (1999) Magnesiofoitite, ◻(Mg₂Al)Al₆(Si₆O₁₈)(BO₃)₃(OH)₄, a new alkali-deficient tourmaline. The Canadian Mineralogist, 37 (6) 1439-1443

Russia
Kamchatka Krai Bystrinsky District Central Kamchatka mining district ⓘ Aginskoe Au deposit (Aginskoye deposit)	Okrugina, V. and Elena Andreeva (2014) Volcanic-related epithermal deposits in Kamchatka volcanic arc (North-East of Pacific region). in Abstract Volume IAGR Conference Series No. 20, pp.107–109 Andreeva, E. D., Matsueda, H., Okrugin, V. M., Takahashi, R., & Ono, S. (2013). Au–Ag–Te Mineralization of the Low‐Sulfidation Epithermal Aginskoe Deposit, Central Kamchatka, Russia. Resource Geology, 63(4), 337-349.
Koryak Okrug Karaginsky District ⓘ Maletoyvayam ore field	Sidorov, Evgeny G., Borovikov, Andrey A., Tolstykh, Nadezhda D., Bukhanova, Daria S., Palyanova, Galina A., Chubarov, Valery M. (2020) Gold Mineralization at the Maletoyvayam Deposit (Koryak Highland, Russia) and Physicochemical Conditions of Its Formation. Minerals, 10 (12) 1093 doi:10.3390/min10121093 Плутахина, Е. Ю., & Шишканова, К. О. СЕРНЫЕ РУДЫ–ОДИН ИЗ ПЕРСПЕКТИВНЫХ ВИДОВ СЫРЬЯ ГОРНОРУДНОЙ ПРОМЫШЛЕННОСТИ КАМЧАТСКОГО КРАЯ. Sidorov, E.G. Borovikov, A.A. Tolstykh, N.D. Bukhanova, D.S. Palyanova, G.A.
ⓘ Ozernovskoe deposit	V.A. Kovalenker, O.Yu. Plotinskaya (2005): Te and Se mineralogy of Ozernovskoe and Prasolovskoe epithermal gold deposits, Kuril – Kamchatka volcanic belt. Geochemistry, Mineralogy and Petrology 43, 118-123. [http://www.geology.bas.bg/mineralogy/gmp_files/gmp43/Kovalenker.pdf]
Ust-Bolsheretsky District ⓘ Pauzhetskaya hydrothermal field	Rychagov, S. N., Sergeeva, A. V., & Chernov, M. S. (2017, November). Specific mineral associations of hydrothermal shale (South Kamchatka). In Doklady Earth Sciences (Vol. 477, pp. 1301-1306). Pleiades Publishing.
Yelizovsky District ⓘ Asachinskoe deposit	Ono, Shuji (2007): Epithermal gold-silver mineralization of the Asachinskoe deposit in southern Kamchatka, Russia. Resource Geology 57(4), 354-373. Takahashi, Ryohei Natsueda, Hiroharu Okrugin, Victor M.
Kronotsky Reserve ⓘ Uzon Caldera	Active Volcanoes of Kamchatka, vol 2, p 140, S.A. Fedotov
ⓘ Fumarol'noye Lake	Kirichenko, Ivan S., Lazareva, Elena V., Zhmodik, S.M., Dobrezov, N.L., Belyanin, D.K., Miroshnichenko, L.V. (2019) Modern Mineral Formation in the Thermal Lake Fumarolnoe (Uzon Caldera, Kamchatka) as a Key to Paleoreconstruction. Geology of Ore Deposits: 61: 747-755.
ⓘ Valley of Geysers	Sergeeva, A., & Kiryukhin, A. (2019). Secondary minerals in the geyserites of the Geysers Valley (Kamchatka). In E3S Web of Conferences (Vol. 98, p. 08019). EDP Sciences.
ⓘ Bolshoy geyser	Sergeeva, A., & Kiryukhin, A. (2019). Secondary minerals in the geyserites of the Geysers Valley (Kamchatka). In E3S Web of Conferences (Vol. 98, p. 08019). EDP Sciences.
ⓘ Mutnovskoe	Okrugin, V. M. (2004). Miocene to Quaternary center volcanic, hydrothermal and ore-forming activity in the Southern Kamchatka. In Metallogeny of the Pacific Northwest (Russian Far East)-Tectonics, Magmatism and Metallogeny of Active Continental Margin, Interim IAGOD Conference, Excursion Guidebook, Dalnauka, Vladivostok, 2004 (pp. 147-176). Okrugin, V., & Chernev, I. Correlation of Epithermal and Geothermal Deposits (an Example of Mutnovsky Geothermal Area, Southern Kamchatka). Proceedings World Geothermal Congress 2015
ⓘ Mutnovsky volcano	Bortnikova, S. B., Bortnikova, S. P., Manstein Yu, A., Kiryuhin, A. V., Vernikovskaya, I. V., & Palchik, N. A. (2009, February). Thermal springs hydrogeochemistry and structure at North-Mutnovskoe fumarole field (South Kamchatka, Russia). In Proceedings, thirty–fourth workshop on geothermal reservoir engineering. Stanford University, Stanford, CA, pp SGP-TR-187.
ⓘ Donnoe fumarole field	Zhitova, Elena S., Khanin, Dmitry A., Nuzhdaev, Anton A., Nazarova, Maria A., Ismagilova, Rezeda M., Shilovskikh, Vladimir V., Kupchinenko, Anastasia N., Kuznetsov, Ruslan A., Zhegunov, Pavel S. (2022) Efflorescent Sulphates with M+ and M2+ Cations from Fumarole and Active Geothermal Fields of Mutnovsky Volcano (Kamchatka, Russia) Minerals, 12 (5) 600 doi:10.3390/min12050600
ⓘ Severo‐Mutnovsky thermal fields	Frolova, J. V., Ladygin, V. M., & Rychagov, S. N. (2010, April). Petrophysical alteration of volcanic rocks in hydrothermal systems of the Kuril-Kamchatka Island Arc. In Proceedings World Geothermal Congress (pp. 1-7).
ⓘ Rodnikovoe	Tolstykh, Nadezhda, Shapovalova, Maria, Shaparenko, Elena, Bukhanova, Daria (2022) The Role of Selenium and Hydrocarbons in Au-Ag Ore Formation in the Rodnikovoe Low-Sulfidation (LS) Epithermal Deposit, Kamchatka Peninsula, Russia. Minerals, 12 (11) 1418 doi:10.3390/min12111418 Okrugin, V. M. (2004). Miocene to Quaternary center volcanic, hydrothermal and ore-forming activity in the Southern Kamchatka. In Metallogeny of the Pacific Northwest (Russian Far East)-Tectonics, Magmatism and Metallogeny of Active Continental Margin, Interim IAGOD Conference, Excursion Guidebook, Dalnauka, Vladivostok, 2004 (pp. 147-176). Takahashi, R., Matsueda, H., & Okrugin, V. M. (2002). Hydrothermal gold mineralization at the Rodnikovoe deposit in South Kamchatka, Russia. Resource Geology, 52(4), 359-369.
Magadan Oblast ⓘ Karamken deposit	Sidorov, A. A., & Eremin, R. A. (1994). Metallogeny and gold lode deposits of northeastern Russia. ICAM-94 proceedings, 247-256.
Omchak gold field ⓘ Natalka Au deposit	Goryachev, N.A., Vikent’eva, O.V., Bortnikov, N.S., Prokof’ev, V.Y., Alpatov, V.A., and Golub, V.V. (2008): Geology of Ore Deposits 50(5), 362-390.
Omsukchansky District Engteri ore cluster ⓘ Julietta deposit	Palyanova, G.A., Savva, N.E., Zhuravkova, T.V., Kolova, E.E. (2016): Gold and silver minerals in low-sulfidaton ores of the Julietta deposit (northeastern Russia). Russian Geology and Geophysics: 57: 1171-1190
Sakhalin Oblast Sakhalin Island ⓘ Pugachev Mud Volcano	Sokol, Ella V., Kokh, Svetlana N., Nekipelova, Anna V., Abersteiner, Adam, Seryotkin, Yurii V., Ershov, Valeriy V., Nikitenko, Olga A., Deviatiiarova, Anna S. (2021) Ge-Hg-Rich Sphalerite and Pb, Sb, As, Hg, and Ag Sulfide Assemblages in Mud Volcanoes of Sakhalin Island, Russia: An Insight into Possible Origin. Minerals, 11 (11) 1186 doi:10.3390/min11111186
ⓘ South Sakhalin Mud Volcano	Sokol, Ella V., Kokh, Svetlana N., Nekipelova, Anna V., Abersteiner, Adam, Seryotkin, Yurii V., Ershov, Valeriy V., Nikitenko, Olga A., Deviatiiarova, Anna S. (2021) Ge-Hg-Rich Sphalerite and Pb, Sb, As, Hg, and Ag Sulfide Assemblages in Mud Volcanoes of Sakhalin Island, Russia: An Insight into Possible Origin. Minerals, 11 (11) 1186 doi:10.3390/min11111186

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