Sericite from South Korea


South Korea
Gangwon Province Chongson-gun Nam-myon (Sindong-myon) ⓘ Kumjik-san Mine	Kinosaki, Y. (1943) Jour. Min. Soc. Korea, 26, 8.
Hongcheon County ⓘ Hongcheon Carbonatite	Kim, S. J., Lee, H. K., Yin, J., & Park, J. K. (2005). Chemistry and origin of monazites from carbonatite dikes in the Hongcheon–Jaeun district, Korea. Journal of Asian Earth Sciences, 25(1), 57-67. Lee, H. Y., Park, J. K., & Hwang, D. H. (2002). Petrography of Hongcheon Fe-REE deposits. The Journal of the Petrological Society of Korea, 11, 90-102. Lee, H. 2004. Petrology of carbonates bearing rocks occurred on Hongcheon area, S. Korea. Abstract presented at the 32nd International Geological Congress, Florence, Italy. Vol.1, 512 (106-24). Kwon, P.J. & Yeang, L.H. 2003. Petrochemistry of the Hongcheon Fe-REE ore deposit in the Honghceon area, Korea. Journal of the Petrological Society of Korea, 12, 135-153.
Imgye district ⓘ Dongmyeong mine	Park, H. I., Hwang, J., & Huh, S. D. (1992). Gold-silver mineralizations in the Imgye district. Economic and Environmental Geology, 25(4), 379-395.
ⓘ Gongyeong mine	Park, H. I., Hwang, J., & Huh, S. D. (1992). Gold-silver mineralizations in the Imgye district. Economic and Environmental Geology, 25(4), 379-395.
ⓘ Nakcheon mine	Park, H. I., Hwang, J., & Huh, S. D. (1992). Gold-silver mineralizations in the Imgye district. Economic and Environmental Geology, 25(4), 379-395.
Sangdong-gun ⓘ Sangdong Mine	(1998) International strategic mineral issues summary report: tungsten. Circular 930-O. US Geological Survey doi:10.3133/cir930o Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 196-200 (University of Tokyo Press)
Gyeonggi Province Hwaseong City ⓘ Sambo Mine	Econ Geol (1984) 79:656-670
North Chungcheong Province Boeun County ⓘ Seongdo Pb-Zn deposit	Ahn, S., & Shin, D. (2017). Mineralogy and genetic environments of the Seongdo Pb-Zn deposit, Goesan. Economic and Environmental Geology, 50(5), 325-340.
ⓘ Cheongyang Mine (Chongyang Mine; Chungchon-Chongyang Mine)	www.orientalminerals.com
Chungju City ⓘ Daehyun mine	Econ Geol (1992)87:2056-2084
ⓘ Geumsil mine	Econ Geol (1992)87:2056-2084
Joongwon-gun Mt. Eorae ⓘ Chungju deposit	Park, M.-E. (2020) The Geochronology and Geochemistry of Zircon as Evidence for the Reconcentration of REE in the Triassic Period in the Chungju Area, South Korea. Minerals 10, 49. No, S.-G.
ⓘ Wolak Mine	Park, M. E. (1993). H/F Variation in Wolframites According to Depth and Temperature of Mineralization at Ssangjeon, Weolag, Cheongyang and Sannae Mines, Korea. Economic and Environmental Geology, 26(3), 259-265.
ⓘ Hwanggangri District	Yoo, Bong Chul, Brown, Philip E., White, Noel C. (2011) Hydrothermal fluid characteristics and genesis of Cu quartz veins in the Hwanggangri metallogenic district, Republic of Korea: Mineralogy, fluid inclusion and stable isotope studies. Journal of Geochemical Exploration, 110 (3) 245-259 doi:10.1016/j.gexplo.2011.05.012
ⓘ Kwangsin	Lee, J. H., Seo, J., Choi, S. G., Oh, C. W., & Lee, Y. J. (2022). Different characteristics of barren and W–Mo–productive Cretaceous granites in the Hwanggangri mineralized district, South Korea. Ore Geology Reviews, 141, 104645.
ⓘ Namseong deposit	Yoo, Bong Chul, White, Noel C. (2013) Mineralogy, fluid inclusion and stable isotope constraints on the genesis of the Namseong Au-Ag deposit, Republic of Korea. Geochemical Journal, 47 (3) 285-307 doi:10.2343/geochemj.2.0245 47:285-307
Yeongdong County ⓘ Samdong mine	Chil-Sup So, Seong-Taek Yun, K. L. Shelton (1995) Mesothermal gold vein mineralization of the Samdong mine, Youngdong mining district, Republic of Korea. Mineralium Deposita 30:384-396
ⓘ Samhwanghak mine	Econ Geol 92 (1997) 92:60-80
ⓘ Youngbogari mine	Chil-Sup So, Seong-Taek Yun, Kevin L. Shelton and De-Quan Zhang (2002) Geochemistry of the Youngbogari deposit, Republic of Korea: An unusual mesothermal gold–silver deposit of the Youngdong area. Geochemical Journal, 36:155-171
North Gyeongsang Province Bonghwa County ⓘ Hyondong mine	Yun, S. T., Choi, S. H., Heo, C. H., So, C. S., Chae, G. T., & Kim, J. W. (1999). Hydrothermal antimony deposits of the Hyundong mine: Geochemical study. Economic and Environmental Geology, 32(5), 435-444.
Yeonhwa mines Yeonhwa I Mine ⓘ Taebaek deposit	Koh, Yong-Kwon (1993) Mineralogic, fluid inclusion, and stable isotope evidence for the genesis of carbonate-hosted Pb-Zn(-Ag) orebodies of the Taebaek Deposit, Republic of Korea. Economic Geology, 88(4), 855-872. So, Chil-Sup Yun, Seong-Taek
North Jeolla Province ⓘ Daedu mine	Economic Geology,(1996) Vol. 91-3, pp.636-646
ⓘ Imcheon mine	Shimazaki, H., Lee, M. S., Tsusue, A., & Kaneda, H. (1986). Three epochs of gold mineralization in South Korea. Mining Geology, 36(198), 265-272.
ⓘ Pungweol mine	Economic Geology,(1996) Vol. 91-3, pp.636-646
South Chungcheong Province Cheonan City ⓘ Cheonbo mine	Shimazaki, H., Lee, M. S., Tsusue, A., & Kaneda, H. (1986). Three epochs of gold mineralization in South Korea. Mining Geology, 36(198), 265-272.
ⓘ Homi mine	Shimazaki, H., Lee, M. S., Tsusue, A., & Kaneda, H. (1986). Three epochs of gold mineralization in South Korea. Mining Geology, 36(198), 265-272.
ⓘ Namchang mine	Shimazaki, H., Lee, M. S., Tsusue, A., & Kaneda, H. (1986). Three epochs of gold mineralization in South Korea. Mining Geology, 36(198), 265-272.
Cheongyang County ⓘ Gubong Mine	Yoo, B. C., Lee, H. K., White, N. C. (2006) Gold-Bearing Mesothermal Veins from the Gubong Mine, Cheongyang Gold District, Republic of Korea: Fluid Inclusion and Stable Isotope Studies. Economic Geology, 101 (4) 883-901 doi:10.2113/gsecongeo.101.4.883
ⓘ Mugug mine	Shimazaki, H., Lee, M. S., Tsusue, A., & Kaneda, H. (1986). Three epochs of gold mineralization in South Korea. Mining Geology, 36(198), 265-272.
ⓘ Yuryang deposit	Heo, C. H. (2007) Fluid Inclusion Study of Gold Mineralization at the Yuryang Mine, Korea. 한국지구시스템공학회지Vol. 44, No. 1 (2007) pp. 20-27
South Gyeongsang Province ⓘ Geochang mine	Shimazaki, H., Lee, M. S., Tsusue, A., & Kaneda, H. (1986). Three epochs of gold mineralization in South Korea. Mining Geology, 36(198), 265-272.
Jinju City ⓘ Daejang mine	Shin, H. J., Kim, M. Y., & So, C. S. (1987). Geochemistry and Genetic Environments of the Daejang Vein Deposits. Economic and Environmental Geology, 20(1), 61-75.
Miryang City Sannae-gun Yangdung ⓘ Eonyang amethyst	Seo, Jung H., Yevgeniya Kim, Tongha Lee, and Marcel Guillong. 2021. "Periodically Released Magmatic Fluids Create a Texture of Unidirectional Solidification (UST) in Ore-Forming Granite: A Fluid and Melt Inclusion Study of W-Mo Forming Sannae-Eonyang Granite, Korea" Minerals 11, no. 8: 888. https://doi.org/10.3390/min11080888
ⓘ Sannae Mine	Park, M. E. (1993). H/F Variation in Wolframites According to Depth and Temperature of Mineralization at Ssangjeon, Weolag, Cheongyang and Sannae Mines, Korea. Economic and Environmental Geology, 26(3), 259-265.
Tongyeong City Ilgwang-myon ⓘ Ilgwang Mine (Tongnae Mine; Ilkwang mine)	Econ Geol (1977) 72:753-768
ⓘ Tongyoung Mine	Econ Geol (1990) 85:1114-1132

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