References
- Ahn, S.Y. and Shin, D.B. (2017) Mineralogy and genetic environments of the Seongdo Pb-Zn deposit, Goesan. Econmic and Environmental Geology, 50, 325-340 (in Korean with English abstract).
- Beaudoin, G. and Dupuis, C. (2009) Iron-oxide trace element fingerprinting of mineral deposit types. Exploring for iron oxide copper-gold deposits: Canada and global analogues, Short Course Volume, Geological Association of Canada Annual Meeting, Quebec City, 107-121.
-
Bonazzi, P., Bindi, L., Bernardini, G., and Menchetti, S. (2003) A model for the mechanism of incorporation of Cu, Fe and Zn in the stannite-kesterite series,
$Cu_2FeSnS_4-Cu_2ZnSnS__4$ . Canadian Mineralogist, 41, 639-647. https://doi.org/10.2113/gscanmin.41.3.639 - Cheong, C.S. and Kim, N.H. (2012) Review of radiometric ages for phanerozoic granitoids in southern Korean peninsula. Joural of the Petrological Society of Korea, 21, 173-192 (in Korean with English abstract). https://doi.org/10.7854/JPSK.2012.21.2.173
- Choi, J.B. and Kim, S.J. (1991) Mineralogy and iron chemistry of garnets and clinopyroxenes in the skarn deposits, the Hambaek geosyncline belt, Korea. Journal of the Mineralogical Society of Korea, 4, 119-128.
-
Chutas, N.I., Kress, V.C., Ghiorso, M.S., and Sack, R.O. (2008) A solution model for high-temperature
$PbS-AgSbS_2-AgBiS_2$ galena. American Mineralogist, 93, 1630-1640. https://doi.org/10.2138/am.2008.2695 - Dare, S.A., Barnes, S.J., and Beaudoin, G. (2012) Variation in trace element content of magnetite crystallized from a fractionating sulfide liquid, Sudbury, Canada: implications for provenance discrimination. Geochimica et Cosmochimica Acta, 88, 27-50. https://doi.org/10.1016/j.gca.2012.04.032
- Dupuis, C. and Beaudoin, G. (2011) Discriminant diagrams for iron oxide trace element fingerprinting of mineral deposit types. Mineralium Deposita, 46, 319-335. https://doi.org/10.1007/s00126-011-0334-y
- Einaudi, M.T., Meinert, D.L., and Newberry, R.J. (1981) Skarn deposits. Economic Geology 75th Anniversary volume, 317-391.
- Foord, E.F. and Shawe, D.R. (1989) The Pb-Bi-Ag-Cu-(Hg) chemistry of galena and some associated sulfosalts: A review and some new data from Colorado, California, and Pennsylvania. Canadian Mineralogist, 27, 363-382.
- Foord, E.E., Shawe, D.R., and Conklin, N.M. (1988) Coexisting galena, PbS (sub SS) and sulfosalts: Evidence for multiple episodes of mineralization in the Round Mountain and Manhattan gold districts, Nevada. Canadian Mineralogist, 26, 355-376.
- Hall, A.J. (1986) Pyrite-pyrrhotite redox reactions in nature. Mineralogical Magazine, 50, 223-229. https://doi.org/10.1180/minmag.1986.050.356.05
- Ishihara, S., Jin, M.S., and Kajiwara, Y. (2002) Sulfur content and isotopic ratio of Cambro-Ordovician carbonate rocks from South Korea: a possible source for Mesozoic magmatic-hydrothermal ore sulfur. Resource Geology, 52, 41-48. https://doi.org/10.1111/j.1751-3928.2002.tb00115.x
- Kim, K.H. and Shin, J.S. (1987) Stable isotope and fluid inclusion studies of the Manjang copper mine, South Korea. Journal of the Korean Institute of Mining Geology, 20, 169-177 (in Korean with English abstract).
- KMPC (Korea Mining Promotion Corporation) (1981) Ore deposits in Korea. 8, 94-95 (in Korean).
- KMPC (Korea Mining Promotion Corporation) (1990) Ore deposit in Korea. 12, 144-145 (in Korean).
- Kolodziejczyk, J., Prsek, J., Melfos, V., Voudouris, P.C., Maliqi, F., and Kozub-Budzyyn, G. (2015) Bismuth minerals from the Stan Terg deposit (Trepca, Kosovo). Neues Jahrbuch fur Mineralogie Abhandlungen, 192, 317-333. https://doi.org/10.1127/njma/2015/0288
- Kretschmar, V. and Scott, S.D. (1976) Phase relations involving arsenopyrite in the system Fe-As-S and their application. Canadian Mineralogist, 14, 364-386.
- Lee, J.H. and Kim, J.H. (1972) Geological map of Korea; Goesan sheet (1:50,000), Geological Survey of Korea, Seoul Korea (in Korean).
- Lee, S.G., Shin, S.C., Kim, K,H., Lee, T., Koh, H., and Song, Y.S. (2010) Petrogenesis of three Cretaceous granites in the Okcheon metamorphic belt, South Korea: Geochemical and Nd-Sr-Pb isotopic constraints. Gondwana Research, 17, 87-101. https://doi.org/10.1016/j.gr.2009.04.012
- Lim, E.D., Yoo, B.C., and Shin, D.B. (2016) Skarnization and Fe mineralization at the Western orebody in the Manjang deposit, Goesan. Journal of the Mineralogical Society of Korea, 29, 141-153 (in Korean with English abstract). https://doi.org/10.9727/jmsk.2016.29.3.141
- Meinert, L.D., Dipple, G.M., and Nicolescu, S. (2005) World skarn deposits. Economic Geology 100th Anniversary volume, 299-336.
- Na, C.K. (1994) Genesis of granitoid batholiths of Okchon Zone, Korea and its implications for crustal evolution. Ph.D. Thesis, Tsukuba University, Japan.
- Nadoll, P., Angerer, T., Mauk, J.L., French, D., and Walshe, J. (2014) The chemistry of hydrothermal magnetite: A review. Ore Geology Reviews, 61, 1-32. https://doi.org/10.1016/j.oregeorev.2013.12.013
- Nadoll, P., Mauk, J.L., Hayes, T.S., Koenig, A.E., and Box, S.E. (2012) Geochemistry of magnetite from hydrothermal ore deposits and host rocks of the Mesoproterozoic belt supergroup, United States. Economic Geology, 107, 1275-1292. https://doi.org/10.2113/econgeo.107.6.1275
- Nakamura, Y. and Shima, H. (1982) Fe and Zn partitioning between sphalerite and stannite. Joint Meeting of Society of Mining Geology Japan, Japanese Associations of Mineralogists, Petrologists and Economic Geology, and Journal of the Mineralogical Society of Japan, A-8. (abstracts).
- Newberry, R.J., Allegro, G.L., Cutler, S.E., Hagen-Leveille, J.H., Adams, D.D., Nicholson, L.C., Weglarz, T.B., Bakke, A.A., Clautice, K.H., Coulter, G.A., Ford, M.J., Myers, G.L., and Szumigala, D.J. (1997) Skarn deposits of Alaska. Economic Geology Monograph 9, 355-395.
- Palinka, S.S., Palinka, L.A., Renca, C., Spangenberg, J.E., Luders, V., Molnar, F., and Malaqi, G. (2013) Metallogenic model of the Trepca Pb-Zn-Ag skarn deposit, Kosovo: Evidence from fluid inclusions, rare earth elements, and stable isotope data. Economic Geology, 108, 135-162. https://doi.org/10.2113/econgeo.108.1.135
- Petruk, W. (1973) Tin sulfides from the deposits of Brunswick tin mines. Canadian Mineralogist, 12, 46-54.
- Seal II, R.R. (2006) Sulfur isotope geochemistry of sulfide minerals. In: Vaughan, D.J. (ed.), Sulfide mineralogy and geochemistry. Reviews in Mineralogy & Geochemistry. Mineralogical Society of America, 61, 633-677. https://doi.org/10.2138/rmg.2006.61.12
- Sharp, T.G. and Buseck, P.R. (1993) The distributions of Ag and Sb in galena: Inclusions vs. solid solution. American Mineralogist, 78, 85-95.
- Shimizu, M., Shimizu, M., and Tsunoda, K. (2008) Physicochemical environments of formation of tin sulfide-bearing deposits in Japan. Far Eastern Studies, 7, 23-40.
- Shu, Q., Lai, Y., Sun, Y., Wang, C., and Meng, S. (2013) Ore genesis and hydrothermal evolution of the Baiyinnuo'er zinc-lead skarn deposit, northeast China: evidence from isotopes (S, Pb) and fluid inclusions. Economic Geology, 108, 835-860. https://doi.org/10.2113/econgeo.108.4.835
- Strauss, H., Banerjee, D.M., and Kumar, V. (2001) The sulfur isotopic composition of Neoproterozoic to early Cambrian seawater-evidence from the cyclic Hanseran evaporites, NW India. Chemical Geology, 175, 17-28. https://doi.org/10.1016/S0009-2541(00)00361-2
- Vaughan, D.J. and Craig, J.R. (1997) Sulfide ore mineral stabilities, morphologies, and intergrowth textures. In: Barnes, H.L., (Ed.), Geochemistry of Hydrothermal Ore Deposits, third ed., John Wiley & Sons, 367-434.
Cited by
- Geochemical and Isotopic Compositions and Geothermometry of Thermal Waters in the Magumsan Area, South Korea vol.11, pp.9, 2018, https://doi.org/10.3390/w11091774
- 지중환경 내 지질 매체가 질산염의 탈질 반응에 미치는 영향에 대한 고찰 vol.25, pp.2, 2020, https://doi.org/10.7857/jsge.2020.25.s1.016
- Regional variations of sulfur isotope compositions for metallic deposits in South Korea vol.71, pp.3, 2021, https://doi.org/10.1111/rge.12259