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Berger, B.R., 1983, The Relationship of Alteration And Trace-Element Patterns in Epithermal Precious-Metal-Bearing, Fossil Geothermal Systems in the Great Basin. Geoth. Res. Council, Special Report 13, p.255.

Berger, B.R., and Eimon, P.L., 1982, Comparative Genetic Model Charateristics of Epithermal Gold-Silver Deposits, (abstract). Program of American Institute of Mining Engineers, Dallas, p.27, and Preprint, 20 p.

Berger, B.R., and Eimon, P.L., 1982, Comparative Models of Epithermal Precious Metals Deposits. American Institute of Mining Engineers Preprint, 82-13, 36 p.

Berger, B.R., and Tingley, J.V., 1980, Geology and Geochemistry of The Round Mountain Gold Deposits, Nye County, Nevada, (abstract). Nevada Bureu of Mines and Geology Precious Metals Symposium, Reno, 1980, Abstracts, p.18c.

Berger, B.R., and Tingley, J.V., Filipek, L.H., and Neighbor, J., 1981, Origin of Pathfinder Trace-Element Patterns associated with Gold-Silver Mineralization in Late Oligocene Volcanic Rocks, Round Mountain, Nye County, Nevada, (abstract). Association of Exploration Geochemists Precious Metals Symposium, Vancouver, British Columbia, Canada, 1981, Abstracts, p.207.

Bonham, H.F. Jr., and Giles, D.L., 1983, Epithermal Gold-Silver Deposits:: The Geothermal Connection. Geothermal Res. Council Special Report 13.

Browne, P.R.L., 1969. Sulphide Mineralization in Broadlands Geothermal Drill Hole, Taupo Volcanic Zone, New Zealand. Econ. Geol., 64, 156-159.

Browne, P.R.L., 1971. Mineralization in The Broadland Geothermal Field, Taupo Volcanic Zone, New Zealand. Soc. Mining Geol., Japan, Spec. Issue 2, 64-75.

Browne, P.R.L., 1978. Hydrothermal Alteration in Active Geothermal Fields. Ann. Rev. Earth Planet Sci., 6, p. 229-250.

Browne, P.R.L., and Ellis, A.J., 1970. The Ohaaki-Broadlands Hydrothermal Area, New Zealand: Mineralogy and Related Geochemistry. Ann. Rev. Earth Planet Sci., 6, p229-250.

Buchanan, L.J., 1980. Ore Controls of Vertically Stacked Deposits, Guanjuato, Mexico. Amer. Inst. Mining Metall. Engineers, Preprint 80-82, 26 p.

Buchanan, L.J., 1981. Precious Metals Deposits associated with Volcanic Environtments in the Southwest: in W.R. Dickson and W.D. Payne (eds.), Relations of Tectonics to Ore Deposits in the Southern Cordillera, Arizona. Geol. Soc. Digest, 14, 237-262.

Buchanan, L.J., 1980. Ore Controls of Vertically Stacked Deposits, Guanjuato, Mexico. Amer. Inst. Mining Metall. Engineers, Preprint 80-82, 26 p.

Cathias, L.M., 1981. Fluid Flow and Genesis of Hydrothermal Ore Deposits. Econ. Geol. 75th Ann. Volume, 424-457.

Cathias, L.M., 1983. An Analysis of Hydrothermal System responsible for Massive Sulphide Deposition in The Hokuroko Basin of Japan. Econ. Geol., Monograph 5, 439-488.

Criss, R.W., and Taylor, H.P., Champion, D.E., and McIntyre, D.H., 1985. Aeromagnetic and Gravity Anomalies associated with Hydrothermal-Altered Zones in Yankee Fork Mining District, Custer County, Idaho. Econ.. Geol. In press.

Drummond, S.E., Jr., 1981, Boiling and Mixing of Hydrothermal Fluids: Geochemical Effects On Mineral Precipitation. Univ. Park, Pennsylvania State Univ., Ph. D. thesis, 380 p.

Elders, W.A., Hoagland, J.R., and McDowell, S.D., 1979. Hydrothermal Mineral Zones in the Geothermal Reservoir of Cerro Prieto. Geothermics, 8, 201-209.

Ellis, A.J. 1969. Present-Day Hydrothermal Systems and Mineral Deposition. 9th Common Min. Metall Congress, Inst. Min. Metall, 1-30.

Ellis, A.J. 1979. Explored Geothermal Systems in Geochemistry of Hydrothermal Ore Deposits, 2nd, by H.L. Barnes (ed.). John Wiley and Sons, New York, 632-683.

Ellis, A.J., and Mahon, W.A.J., 1977. Chemistry and Geothermal Systems, Academic Press, New York, 392.

Emmon, W.H. 1937. Gold Deposits of the World. McGraw-Hill Book Co., New York, 392 p.

Ewer, G.R. and Keays, R.R., 1977. Volatile and Precious Metal Zoning in the Broadlands Geothermal Field, New Zealand. Econ. Geol., 72, 1337-1254.

Giles, D.L. and Nelson, C.E., 1982. Principal Features of Epithermal Lode Gold Deposits of the Circum-Pacific Rim. Circum-Pacific Energy and Minerals Resources Conference, Hawaii, August 1982, 17 p.

Giles, J.B., 1981. Orogenic Andesites and Plate-Tectonics. Springer-Verlag, Berlin, Heidelberg, New York, 390 p.

Grindley, G.W., 1965. The Geology, Structure, and Exploitation of Wairaki Geothermal Field, Taupo, New Zealand. N.Z. Geol. Survey Bulletin 75, 131 p.

Grindley, G.W., and Browne, 1976. Structure and Hydrological Factors Controlling the Permeability of some Hot Water Geothermal Field. 2nd U.N. Symp. On the Development and Use of Geothermal Resources, San Francisco, 377-386.

Hedenquist, J.W., 1984. Studies on Active Gold Mineralization in the Waitopu Geothermal System, New Zealand. Aus. I.M.M. Perth and Kalgoorlie Regional Conference, October 1984, 9 p.

Hedenquist, J.W., 1985. Geothermal System in the Taupo Volcanic Zone, New Zealand: Their Characteristics, and Relation too Volcanism and Mineralization. Royal Society of N.Z.

Hedenquist, J.W., and Henley R.W., 1985a. Effect of CO2 On Freezing Point Depression Measurements of Fluid Inclusion - Evidence from Active Systems and Implications for Epithermal Mineralization. Econ. Geol., 64, 599-612.

Hedenquist, J.W., and Henley R.W., 1985b. Hydrothermal Eruptions in the Waitopu Geothermal System, New Zealand: Origin, Breccia Deposits and Effect on Precious Metal Mineralization.. Econ. Geol..

Henley, R.W. and Ellis A.J., 1983. Geothermal Systems: Ancient and Modern. Earth Science Reviews, 19, 1-50.

Henley, R.W., 1985. The Geothermal Framework of Epithermal Deposits: in Geology and Geocehmistry of Epithermal Deposits. Short Course presented at Orlando, Florida, October 1985, Soc. of Eco. Geologists, Reviews In Economic Geology, v. 2.

Jensen, M.L., Ashley, R.P., and Albers, J.P., 1971. Primary and Secondary Sulfates at Goldfield, Nevada. Econ. Geol., 66, 618-626.

Meyer, C. and Hemley J.J., 1967. Wall Rocks Alteration. in Geochemistry of Hydrothermal Ore Deposits, by H.L. Barnes (ed.), Holt, Rinehart, and Winston, 166-235.

Nelson, C.E., and Giles, D.L., 1985. Hydrothermal Eruption and Gold Deposits. Econ. Geol.

Ohmoto, H., and Skinner, (eds.), 1983. The Kuroko and Related Volcanogenic Massive Sulphide Deposits. Econ. Geol. Monograph 5, 604 p.

Rye, R.O., . A Model for the Formation of Carbonate-hosted Disseminated Gold Deposits as indicated by Geologic, Fluid Inclusion, Geochemical and Stable Isotope Studies of the Carlin and Cortez Deposits, Nevada, in E.W. Tooker (ed.), Geologic Characteristics of the Dissemineted Sediment- and Volcanic-Hosted Types of Gold Deposits. U.S. Geol. Survey Bulletin.

Rytuba, J. J., 1981. Relation of Calderas to Ore Deposits in the Western United States, in W.R. Dickinson and W.D. Payne (eds.), Relations to Tectonics of Ore Deposits of Southern Cordillera. Arizona Geol. Soc. Digest, v. 14, 227-236.

Rytuba, J. J., 1985. Development of Disseminated Gold Deposits of Cortez, Horse Canyon and Gold Acres, Nevada, at the End Stage of Caldera-Related Volcanism. U.S. Geol. Survey Research on Mineral Resources, Circular 949, 47.

Silberman, M.L., 1982, Hot-spring Type, Large Tonnage, Low-Grade Gold Deposits, in R.L. Erickson (compiler), Characteristics of Mineral Deposit Occurrences. U.S. Geological Survey Open-File Report 82-795, p.131-143.

Silberman, M.L., 1983. Geochronology of Hydrothermal Alteration and Mineralization. Geoth. Res. Council Special Report 13, 287-303.

Sillitoe, R.H., 1973. The tops and bottoms of Phorpyry Copper Deposits. Econ. Geol. 68, 799-815.

Sillitoe, R.H., 1980. Are Porphyry Copper and Kuroko-Type Massive Sulphide Deposits incompatible? Geol. 8, 11-14.

Webster, J.G., and Mann, A.W., 1984. The Influnced of Climate, Geomorhology and Primary Geology on the Supergene Migration of Gold and Silver. Journal Geochem. Expl. 22, 21-42.


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Last revised: July 06, 2000