References
- Abrams, M.J. and Brown, D. (1984) Silver Bell, Arizona, porphyry copper test site report, in the Joint NASA/Geosat Test Case Project, final report, chapter 4, p. 4-1 to 4-73. The American Association of Petroleum Geologists, Tulsa, Okla.
- Abrams, M.J., Brown, L., Lepley, R. and Sadowski, P. (1983) Remote sensing for porphyry copper deposits in Southern Arizona. Economic Geology, v.78, p.591-604. https://doi.org/10.2113/gsecongeo.78.4.591
- Bowden, C.D. (2007) Epithermal systems of the Seongsan district, South Korea; an investigation on the geological setting and spatial and temporal relationship between high and low sulfidation systems. Unpublished Ph.D. thesis, James Cook University, Australia, 334p.
- Buchanan, L.J. (1981) Precious metal deposits associated with volcanic environments in the Southwest. Arizona Geological Society Digest 14, p.237-262.
- Clark, R.N., Swayze, G.A., Gallagher, A., King, T.V.V. and Calvin, W.M. (1993) The U.S. Geological Survey, Digital Spectral Library: Version 1: 0.2 to 3.0 microns: U.S. Geological Survey Open File Report 93-592, 1340 p., http://speclab.cr.usgs.gov (August 1999).
- Deyell, C.L., Rye, R.O., Landis, G.P. and Bissig, T. (2005) Alunite and the role of magmatic fluids in the Tambo high-sulfidation deposit, El Indio-Pascua belt, Chile. Chemical geology, v.215, p.185-218. https://doi.org/10.1016/j.chemgeo.2004.06.038
- Di Tommaso, I.D. and Rubinstein, N. (2007) Hydrothermal alteration mapping using ASTER data in the Infiernillo porphyry deposit, Argentina: Ore Geology Reviews, v.32, p.275-290. https://doi.org/10.1016/j.oregeorev.2006.05.004
- Fujisada, H.F. (1995) Design and performance of ASTER instrument, in Proceedings of SPIE. Paris, France, International Society Optical Engineering, v.2583, p.16-25.
- Hedenquist, J.W., Arribas R, A. and Gonzalez-Urien, E. (2000) Exploration for epithermal gold deposits. in Hagemann, S.G. and Brown, P.E., eds., Gold in 2000. Reviews in Economic Geology, v.13, p.245-277.
- Hunt, G.R. (1977) Spectral signatures of particulate minerals in the visible and near infrared. Geophysics, v.42, n.3, p.501-513. https://doi.org/10.1190/1.1440721
- Hunt, G.R. and Ashley, R.P. (1979) Spectra of altered rocks in the visible and near infrared. Economic Geology, v.74, p.1613-1629. https://doi.org/10.2113/gsecongeo.74.7.1613
- Hunt, G.R., Salisbury, J.W., and Lenhoff, C.J. (1971) Visible and near-infrared spectra of minerals and rocks: III. Oxides and hydroxides: Modern Geology, v. 2, p. 195-205.
- KIGAM (2009) Technical development on the life cycle of the Haenam epithermal gold mineralized area and hydrothermal clay resources. Korea Institute of Geoscience and Mineral Resources, 182p.
- Kim, C.S. and Choi, S.G. (2009) Potassium-Argon ages of the epithermal gold-silver mineralization in the Haenam-Jindo area, Southwestern Korea. Resource Geology, v.59, p.415-421. https://doi.org/10.1111/j.1751-3928.2009.00108.x
- Kim, C.S. (2011) Genesis of the Cretaceous low-sulfidation epithermal Au-Ag deposit in the Haenam district, Republic of Korea: Implication for Se type (Eunsan) and Te type (Moisan). Unpublished Ph.D. thesis, Korea University, Korea, 177p.
- Kim, I.J. (1992) Alteration zoning, mineral assemblage and geochemistry of the hydrothermal clay deposits related to Cretaceous felsic magmatism in the Haenam area, southwest Korea. Journal of Korean Institute of Mining Geology, v.25, p.397-416.
- Kim, I.J. and Nagao, K. (1992) K-Ar ages of the hydrothermal clay deposits and the surrounding igneous rocks in southwest Korea. Journal of Petrological Society of Korea, v.1, p.58-70.
- Kirwin, D.J. and Spadafora, M.J. (1994) Progress report concerning the precious metal potential of clayalunite deposits in southwest Korea. Indochina Goldfields Ltd. company report, unpublished.
- Koh, S.M. (1996) Geochemical characteristics of the Cretaceous volcanic rocks and Bukok hydrothermal deposits in the Haenam volcanic field, Chollanamdo, Korea. Unpublished Ph.D. thesis, Seoul National University, Korea, 181p.
- Lowell, J.D. and Guilbert, J.M. (1970) Lateral and vertical alteration-mineralization zoning in porphyry ore deposits. Economic Geology, v.65, p.373-408. https://doi.org/10.2113/gsecongeo.65.4.373
- Mars, J.C. and Rowan, L.C. (2006) Regional mapping of phyllic- and argillic-altered rocks in the Zagros magmatic arc, Iran, using Advanced Spaceborn Thermal Emission and Reflection Radiometer (ASTER) data and logical operator algorithms. Geosphere, v.2, p.161-186. https://doi.org/10.1130/GES00044.1
- Ninomiya, Y. (2003) Rock type mapping with indices defined for multispectral thermal infrared aster data: case studies. Proceedings of SPIE, the International Society for Optical Engineering, v.4886, p.123-132.
- Panther, C.A., Rovillos, J.B. and Kim, W.J. (2000) The geology and gold-silver potential of high sulfidation mineralization at the Seongsan clay mine, South Korea. Ivanhoe Mines Ltd. company report, unpublished, 56p.
- Rowan, L.C. and Mars, J.C. (2003) Lithologic mapping in the Mountain Pass, California area using Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) data: Remote Sensing of Environment, v.84, n.3, p. 350-366. https://doi.org/10.1016/S0034-4257(02)00127-X
- Rowan, L.C., Hook, S.J., Abrams, J.J. and Mars, J.C. (2003) Mapping hydrothermally altered rocks at Cuprite, Nevada using the Advanced Spaceborne Thermal Emissivity and Reflection Radiometer ASTER. A new satellite-imaging system. Economic Geology, v.98, p.1019-1027. https://doi.org/10.2113/gsecongeo.98.5.1019
- Rowan, L.C., Schmidt, R.G. and Mars, J.C. (2006) Distribution of hydrothermally altered rocks in the Reko Diq, Pakistan mineralized area based on spectral analysis of ASTER data: Remote Sensing of Environment, v.104, p.74-87. https://doi.org/10.1016/j.rse.2006.05.014
- Rye, R.O., Bethke, P.M. and Wasserman, M.D. (1992) The stable isotope geochemistry of acid-sulfate alteration. Economic Geology, v.87. p.225-262. https://doi.org/10.2113/gsecongeo.87.2.225
- Sillitoe, R.H. (1993) Epithermal models: Genetic types, geometrical controls, and shallow features. Geological Associatioin of Canada Special paper 40, p.403-417.
- Spatz, D.M. and Wilson, R.T. (1995) Remote sensing characteristics of porphyry copper system, western America Cordillera, in Pierce, F.W. and Bolm, J.G., eds., Arizona Geological Society Digest, v.20, p.94-108.
- Steven, T.A. and Ratt, J.C. (1960) Geology of ore deposits of the Summitville district, San Juan Mountains, Colorado. U.S. Geological Survey Professional Paper 343, 70p.
- Stoffregen, R.E. (1987) Genesis of acid-sulfate alteration and Au-Cu-Ag mineralization at Summitville, Colorado. Economic Geology, v.82, p.1575-1591. https://doi.org/10.2113/gsecongeo.82.6.1575
Cited by
- Analysis of Landslide locations using Spectral Reflectance of Clay Mineral and ASTER Satellite Image vol.24, pp.3, 2014, https://doi.org/10.9720/kseg.2014.3.411
- Research on Hyperspectral Identification of Altered Minerals in Yemaquan West Gold Field, Xinjiang vol.11, pp.2, 2019, https://doi.org/10.3390/su11020428