부영 금-은광상은 백악기 고성층 내에 발달된 NS단층대의 열극을 충진한 석영맥광상이다. 이들 석영맥의 광화작용은 hypogene 시기와 supergene 시기로 구분된다. Hypogene 시기의 광물은 견운모, 황철석, 녹니석 및 녹염석으로 구성된 열수변질광물과 황철석, 자류철석, 섬아연석, 백철석, 황동석, 방연석 및 갈레노비스무타이트로 구성된 황화광물이 관찰된다. Supergene 시기에는 공작석, 침철석, 휘동석 및 섬아연석 산화물 등이 생성되었다. 유체포유물 자료에 의하면, 광화시기의 균일화온도와 염농도는 각각 $112{\sim}340^{\circ}C$, 0.2~7.9 wt.% NaCl 로서 광화유체가 천수의 혼입에 의한 냉각과 희석이 있었음을 지시한다. 황(3.2~3.9‰) 기원은 주로 화성기원과 일부 모암내의 황에서 유래된 것으로 해석된다. 산소(4.3~6.0‰)와 수소(-60~-64‰) 동위원소값의 자료로 볼 때, 이 광상의 광화유체는 천수 기원의 유체가 주종을 이룬 것으로 보이며 광화작용이 진행됨에 따라 기원이 다른 천수의 혼입이 작용한 것으로 해석할 수 있다.

The Buyeong gold-silver deposit consists of quartz veins that fill along the NS fault zone within Cretaceous Goseong formation. Mineralization can be divided into hypogene and supergene stages. Hypogene stage is associated with hydrothermal alteration minerals such as sericite, pyrite, chlorite, epidote and sulfides such as pyrite, pyrrhotite, marcasite, sphalerite, chalcopyrite, galena and galenobismutite. Supergene stage is composed of malachite, goethite, chalcocite, and sphalerite oxide. Fluid inclusion data indicate that homogenization temperatures and salinities range from 112 to $340^{\circ}C$ and from 0.2 to 7.9 wt.% NaCl, respectively. Sulfur(3.2~3.9‰) isotope composition indicates that ore sulfur was derived from mainly magmatic source as well as partly host rocks. The calculated oxygen(4.3~6.0‰) and hydrogen(-60~-64‰) isotope compositions indicate that hydrothermal fluids may be meteoric origin with some degree of mixing of another meteoric water for paragenetic time.

1 유봉철, "해외 금속자원에 대한 광상유형별 자료 분석을 통한 효과적인 자원개발" 대한자원환경지질학회 41 (41): 773-795, 2008

2 최선규, "한국 경상분지 백악기 비철금속 광화작용과 그 성인적 의의 : 함안-군북-고성(-창원) 및 의성 광상구를 중심으로" 대한자원환경지질학회 36 (36): 257-268, 2003

3 백인성, "경상분지 남부에 발달된 유천층군 고성층: 산상 및 층서" 대한지질학회 42 (42): 483-505, 2006

4 Barret, T.J, "The solubility of sphalerite and galena in 1-5m NaCl solutions to 300oC" 52 : 813-820, 1988

5 Gammons, C.H, "The solubility of Au−Ag alloy+AgCl in HCl/NaCl solutions at 300oC. New data on the stability of Au(I) chloride complexes in hydrothermal fluids" 59 : 3453-3468, 1995

6 Choi, S.G, "The origin and evolution of mineralizing fluids in the Cretaceous Gyeongsang basin" 89 : 61-64, 2006

7 Hass, J.L, "The effect of salinity on the maximum thermal gradient of a hydrothermal system at hydrostatic pressure" 66 : 940-946, 1971

8 Choi, S.G, "Tectonics, shallow magmatism, and mineralization in the Southern part of the Korean peninsula"

9 Sterner, S.M, "Synthetic fluid inclusions. V. conditions" 52 : 989-1005, 1988

10 Ohmoto, H, "Stable isotope geochemistry of ore deposits" 16 : 491-560, 1986

11 Marignac, C, "Sphalerite stars in chalcopyrite: Are they always the result of an unmixing process?" 24 : 176-182, 1989

12 Linke, W.F, "Solubilities of inorganic and metalorganic compounds. 4th ed." Am. Chem. Soc. 1914-, 1965

13 Luzhnaya, N.P, "Sodium, calcium, magnesium chlorides in aqueous solutions at −57 to +25oC(polythermal solubility)" 19 : 723-733, 1946

14 KIGAM, "Resource information (monthly)"

15 Chi, S.J, "Reflectance and microhardness characteristics of sulfide minerals from the Sambong copper mine" 17 : 115-139, 1984

16 Jwa, Y.J, "Petrology of the igneous rocks in the Goseong area, Gyeongsang basin: II. Trace element geochemistry and Rb-Sr radiometric age" 31 : 473-483, 1998

17 Matsuhisa, Y, "Oxygen isotope fractionation in the system quartzalbite-anorthite-water" 43 : 1131-1140, 1979

18 Korea Mining Promotion Corporation, "Ore deposit of Korea"

19 Korea Mining Promotion Corporation, "Ore deposit of Korea" 930-931, 1987

20 Korea Mining Promotion Corporation, "Ore deposit of Korea"

21 Park, H.I, "Ore and fluid inclusions of the Tongyeong gold-silver deposits" 16 : 245-251, 1983

22 Choi, S.H, "Mineralogical, stable isotope and fluid inclusion studies of copperbearing hydrothermal vein deposits in Goseong mining district, Gyeongsang basin, Korea" 102 : 123-133, 1993

23 Koh, S.M, "Mineralization characteristics and structural controls of hydrothermal deposits in the Gyeongsang basin, South Korea" 53 : 175-192, 2003

24 Park, E.Y, "Mineral, fluid inclusion and stable isotope studies of the Jangan Cu deposit in the Geojae area" Chungnam national Univ. 2000

25 Kim, C.J, "Mineral paragenesis and fluid inclusions of Geoje copper ore deposits" 17 : 245-258, 1984

26 Park, T.H, "Local variation of magnetic susceptibility of Cretaceous to Tertiary granitoids in the Gyeongsang basin - magnetite-/illmenite-series revisited" 36 : 487-498, 2000

27 Kim, K.H, "Isotopic compositions of precipitations and groundwaters in South Korea" 24 : 37-46, 1988

28 Ohmoto, H, "Isotopes of sulfur and carbon in Geochemistry of Hydrothermal Ore Deposits" Wiley and Sons 509-567, 1979

29 Bodnar, R.J, "Interpretation of microthermometric data for H2O-NaCl fluid inclusion in Fluid inclusions in minerals: Method and applications" Short Course International Mineralogical Assoc. 117-130, 1994

30 Lee, J.H, "Hydrothermal copper mineralization in the Goseong district, Korea" Korea Univ. 1992

31 Jeong, K.C, "Geophysical exploration and drilling results of Samsan Jeil copper mine" 3 : 223-229, 1970

32 Kim, J.D, "Geology and ore deposits of the Donghae mine, Goseong area" 20 : 213-221, 1987

33 Shelton, K.L, "Geochemical studies of the Tongyoung gold-silver deposits, Republic of Korea; Evidence of meteoric water dominance in a Te-bearing epithermal system" 85 : 1114-1132, 1990

34 Park, H.I, "Genesis of the Copper deposits in Goseong district, Gyeongnam area" 16 : 135-147, 1983

35 Hall, D.L, "Freezing point depression of NaCl-KCl-H2O solutions" 83 : 197-202, 1988

36 Chi, J.M, "Explanatory text of the geological map of Samcheonpo sheet"

37 Chang, T.W, "Explanatory text of the geological map of Chung Mu sheet"

38 Korea Mining Promotion Corporation, "Drilling survey report of ore deposits"

39 Korea Mining Promotion Corporation, "Drilling survey report of ore deposits"

40 Korea Mining Promotion Corporation, "Drilling survey report of ore deposits" 184-185, 1979

41 Sheppard, S.M.F, "Characterization and isotope variations in natural waters" 16 : 165-183, 1986

42 Jeong, G.S, "Characteristics and geophysical exploration methods of Gyeongnam copper depsotis" 6 : 171-193, 1973

43 Cook, D.R, "Australian and western Pacific porphyry Cu-Au deposits" 17 : 97-104, 1998

44 Kim, S.U, "A regional study for developments of Kyeongnam copper metallogenic province" 6 : 133-170, 1973

45 Bodnar, R.J, "A method of calculating fluid inclusion volumes based on vapor bubble diameters and P-V-TX properties of inclusion fluids" 78 : 535-542, 1983