Bibliography

ALTERATION BIBLIOGRAPHY

This bibliography is a comprehensive compilation of references which deal primarily with epithermal gold and porphyry copper alterations systems. Any additions, corrections to it would be appreciated and will be included.

Aagaard, P. and Helgeson, H.C., 1983, Activity/composition relations among silicates and aqueous solutions: 11. Chemical and thermodynamic consequences of ideal mixing of atoms on homological sites in montmorillonites, illites, and mixed-layer clays: Clays and Clay Minerals, v. 31, p.207-217.

Abercrombie, H.J., Skippen, G.B. and Marshall, D.D., 1987, F-OH substitution in natural tremolite, talc, and phlogopite: Contributions to Mineralogy and Petrology, v. 97, p. 305-312.

Abercrombie, H.J., Hutcheon, I.E., Block, J.D. and Caritat de, P., 1994, Silica activity and the smectite-illite reaction: Submitted to Geology.

Abu-Abed, 1. and Friedrich, G.H., 1974, Geochernical dispersion in the vicinity of the copper-bearing porphyry of Imabach-Rheinpfalz: Erzmetall., v. 27, p. 434-438 (in German)

Adams, J.E., and Rhodes, M.L., 1960, Dolornitization by seepage refluxion: Amer. Assoc. Petroleum Geologists Bull., v. 44, p. 1912-1921.

Ahmad, M., Solomon, M., and Walshe, J.L., 1987, Mineralogical and geochernical studies of the Emperor gold telluride deposit, Fiji: ECON. GEOL., V. 82, p. 345-370.

Ahmad, M. U., Chaudhry, M.A., and Siddiqui, R.H., 1984, Hydrothermal alteration and geochemistry of Dasht-e-Kain porphyry copper- molybdenum prospect, Chagai district, Baluchistan, Pakistan: Records of the Geological Survey of Pakistan, v. 55, 17 p.

Ahmad, M., Siddiqui, R.H., and Chaudhry, M.A., 1986, Geological and geochernical exploration and preliminary evaluation of Dasht-e-Kain porphyry copper-molybdenum prospect, Chagai district, Baluchistan, Pakistan: Records of the Geological Survey of Pakistan, 44 p.

Ainsworth, J.C., and Brimhall, G.H., Jr., 1983, Chemical and mineralogical zoning associated with stratagene, fault controlled gold mineralization at Alligator Ridge, Nevada (abs.), in Geological Society America Abstracts with program, 1983, v. 15, no. 6, p. 513.

Aja, S.U., Rosenberg, P.E. and Kittrick, J.A., 1991b, Illite equilibria in solutions: 11 Phase relationships in the system K20-AA1203-SiO2-H20 between 25 and 250* C: Geochimica et Cosmochimica Acta, v. 55, p. 1353-1364.

Albee, A.L., 1962, Relationships between the mineral association, chemical composition and physical properties of the Chlorite series: American Mineralogist, v. 47, p. 851-870. A

Alderton, D.H.M., and Rankin, A.H., 1983, The character and evolution of hydrothermal fluids associated with the kaolinized St. Austell granite, SW England: Journ. Geol. Soc. London, v. 140, p. 297-309.

Algomela, D.H., 1969, Geochernical and geophysical surveys in Atok area, Itogon, Benguet Province: Journal of the Geological Society of the Philippines, v. 13, no. 3, p. 151-162.

Al-Hashimi, A.K., 1965, Geochernical prospecting for copper in the northern part of Yuma County, Arizona: University of Missouri, Rolla, unpub. M. Sc. Thesis

Al-Hashimi, A.R.K., and Brownlow, A.H., 1970, Copper content of biotites from the Boulder Batholith, Montana: Economic Geology, v. 65, no. 8, p. 985-992.

Almon, W.R. and Davies, D.K., 1981, Formation damage and the crystal chemistry of clays, in Longstaffe, F.J., ed., Mineralogical Association of Canada, Short Course Notes, Clays and the Resource Geologist, v. 7, p. 81-103.

Alonso, C.H. and Espinoza, R.W., 1985, Geochernical profile over a concealed copper deposit in and zones: Actas Congreso Geologico Chileno, v. 4, no. 2, p. 3.15-3.22 (in Spanish)

Ames, L.L., Jr., 1961, Volume relationships during replacement reactions: Econ. Geology, v. 56, p. 1438-1445.

Amindyas, C.A. and Brookins, D.G., 1988, Geochernical study of hydrothermally altered rocks, Cerrillos porphyry copper deposit, Santa Fe County, New Mexico: New Mexico Journal of Science, v. 28, no. 2, p. 125-137.

Anderson, C.A., 1950, Alteration and metallization in the Bagdad porphyry copper deposit: Economic Geology, v. 45, no. 7, p. 609-628.

Anderson, D.E. and Buckley, G.R., 1974, Modeling of Diffusion controlled properties of silicates, in Hofmann, A.W., Giletti, B.J., Yoder, Jr., H.S., and Yund, R.A., eds., Geochernical Transport and Kinetics: Carnegie Institution of Washington Publication 634, p.331-52.

Anderson, J.A., 1982, Characteristics of leached capping and techniques of appraisal, in Titley, S.R., ed., Advances in Geology of the Porphyry Copper Deposits, Southwestern North America: Tucson, University of Arizona Press, p. 275-295.

Anderson, W.B. Antonio, M., Davies, B., Jones, G., Setterfield, T., and Tua, P., 1987, The Emperor epithermal gold deposit, Vatukoula, Fiji, in Pacific Rim Congress 87, Gold Coast, Queensland 1987, Proc.: Parkville, Australia, Australasian Inst. Mining Metallurgy, p. 9-12.

Angeles, C.A., Jr., Antioquia, E.C., and Comia, G.M., 1987, Geology and alteration-mineralization characteristics of the Nalesbitan gold deposit, Camarines Norte, Philippines, in Gold '87 in the Philippine Setting, Manila 1987, Proc., v. 1: Manila, Philippine Inst. Mining, Metallurgy, Geology, p. 1/15-15/15.

Anthony, E.Y., 1986, Geochernical evidence for crustal melting in the origin of the igneous suite at the Sierrita porphyry copper deposit, southeastern Arizona: University of Arizona unpub. Ph.D. Dissertation, 98 p.

Aquino, R.S., 1983, Geology and gold mineralization of Manila Mining Corporation's Placer project area, Surigao del Norte: Philippine Geologist, v. 37, no. 2, p. 6-19.

Archer, A.R. and Main, C.A., 1971, Casino Yukon - a geochernical discovery of an unglaciated Arizona-type porphyry, in Boyle, R.W., ed. Geochemical exploration: Proceedings, 3rd International Geochernical Exploration Symposium, Toronto: Canadian Institute of Mining and Metallurgy Special Volume 11, p. 67-77.

Armbrust, G.A., Munoz, J.0., and Farias, J.A., 1971, Rubidiurn as a guide to ore at El Teniente (abs.): Economic Geology, v. 66, no. 6, p. 977.

Armbrust, G.A., Oyarzun, J., and Arias, J., 1977, Rubidiurn as a guide to ore in Chilean porphyry copper deposits: Economic Geology, v. 72, no. 6, p. 1086-1100.

Arnorsson, S., 1975, Application of the silica geothermometer in low-temperature hydrothermal areas in Iceland: American Journal of Science, v. 275, p. 763-784.

Arnorsson, S., Sigurdsson, S. and Svavarsson, H., 1982, The chemistry of geothermal waters in Iceland. 1. Calculation of aqueous speciation from 0* to 370*C;: Geochimica. et Cosmochimica Acta, v. 46, p. 1513-1532.

Arnorsson, S., Gunnlaugsson, E. and Svavarsson, H., 1983a, The chemistry of geothermal waters in Iceland. 11. Minerals equilibria and independent variables controlling water compositions: Geochimica et Cosmochimica Acta, v. 47, p. 567-577.

-------- 1983b, The chemistry of geothermal waters in Iceland. 111. Chemical geothermometry in geothermal investigations: Geochimica et Cosmochimica. Acta, v. 47, p. 567-577

Asami, N., and Britten, R. M., 1980, The porphyry copper deposits at the Frieda River prospect, Papua New Guinea: Soc. Mining Geologists Japan Spec. Issue 8, p. 117-139.

Ashley, R.P., and Albers, J.P., 1971, Distribution of gold and other ore-related elements near ore bodies in the oxidized zone at Goldfield, Nevada: Econ. Geology, v. 66, p. 618-626.

Ashley, R.P., 1974, Goldfield mining district: Nevada Bur. Mines Geology Rept. 19, p. 49-66.

Ashley, R.P., and Silberman, M.L., 1976, Direct dating of mineralization at Goldfield, Nevada, by potassium-argon and fission-track methods: ECON. GEOL., v. 71, p. 904-924.

Awald, J.T., 1973, Search systems: A better way to find porphyry copper and molybdenum deposits (abs.): Economic Geology, v. 68, no. 1, p. 136.

Ayuso, R.A., 1985, Geochemistry of felsic plutons in the northern Appalachian porphyry coppermolybdenum province, Maine (abs.), in Program with abstracts, Joint Annual Meeting, GAC, MAC, & CGU, Fredericton, May 1985: v. 10, p. A2.

-------- 1987, White mica geochemistry of the Catheart Mountain porphyry copper deposit, Maine: U.S. Geological Survey Bulletin 1803,16 p.

-------- 1989, Geochemistry of the Catheart Mountain porphyry copper deposit, Maine, j0L Tucker, R.D., and Marvinney, R.G., eds., Ingeous and. metamorphic geology: Augusta, Maine Geological Survey, v. 4, p. 139-162.

Ayuso, R.A. and Molling, P.A., 1990, Mobility of major and trace elements in Sr-isotopic geochernistry of the Catheart Mountain porphyry Cu-Mo deposit, Maine (abs.), in Abstracts with program, NE Section, GSA, March 1990, Syracuse: Geological Society of America, v. 22, no. 2, p. 3.

Badham, J.P.N, 1980, Late magmatic phenomena in the Cornish batholith - useful guides for tin mineralisation: Proc. Ussher Society, v. 5, part 1, p. 44-53.

Badiozamani, K., 1973, The Dorag dolornitization model -application to the Middle Ordovician of Wisconsin: Journal Sed. Petrology, v. 43, p. 965-984.

Bagby, W.C., and Berger, B.R., 1985, Geological characteristics of sediment-hosted, disseminated precious-metal deposits in the western United States: Rev. Econ. Geology, V. 2, p. 169-202.

Bailey, S.W. and Lister, J.S., 1989, Structures, compositions, and X-ray diffraction identification of dioctahedral chlorftes: Clays and ClayMinerals, v. 37, p.193-202. A

Bakken, B.M., and Einaudi, M.T., 1986, Spatial and temporal relations between wall rock afteration and gold mineralization, Main pit, Carlin gold mine, Nevada, U.S.A., in Proc. Gold'86, international symposium on the geology of gold, ed. Macdonald A.J.: p. 388-403.

Baldwin, J.T., Swain, H.D., and Clark, G.H., 1978, Geology and grade distribution of the Panguna porphyry copper deposit, Bougainville, Papua New Guinea: Econonic Geology, v. 73, p. 690-702.

Banks, N.G., 1974, Distribution of copper in biotite and biotite alteration products in intrusive rocks near two Arizona porphyry copper deposits: U.S. Geological Survey Journal of Research, v. 3, no. 2, p. 195-2 .

-------- 1976, Halogen content of igneous minerals as indicators of magmatic evolution of rocks associated with the Ray porphyry copper deposit, Arizona: U.S. Geological Survey Journal of Research, v. 4, no. 1, p. 91-117.

-------- 1977, Magmatic behavior of Cu, S, Ck F, and H20 in ingeous rocks associated with the Ray porphyry copper deposit, Arizona: U.S. Geological Survey Open-File Report 77-500, 28 p.

Barabas, A.H., 1977, Petrologic and geochernical investigations of porphyry copper mineralization in West central Puerto Rico: Yale University, unpub. Ph.D. Dissertation, 491 p.

Barger, K.E., Beeson, M.H., Fournier, R.O., and Muffler, L.J.P., 1973, Present-day deposition of lepidolite from thermal waters at Yellowstone National Park: American Mineralogist, v. 58, p. 901-904.

Barley, M.E., 1982, Porphyry style mineralization associated with early Archean calcalkaline igneous activity, eastern Pilbara, Western Australia: Economic Geology, v. 77, p. 1230-1236.

Barnes, H.L., 1963, Ore solution chemistry. 1. Experimental determination of mineral solubilities: Economic Geology, v. 58, p. 1054-1060.

Barnes, H.L., and Czamanske, G.K., 1968, Solubilities and transport of ore minerals; in Barnes, H.L. (ed.), Geochernistry of hydrothermal Ore Deposits: 1st ed., Holt Rinehart, and Winston, New York, p. 334-381.

Barr, D.A., 1976, The alkaline suite porphyry deposits - a summary: in Sutherland

Barr, D.A. and Hawkes, H.E., 1963, Seasonal variations in copper content of stream sediments in British Columbia: Society of Mining Engineers Transactions, v. 226, p. 342-346.

Barter, C.F. and Kelly, J.L., 1982, Geology of the Twin Buttes mineral deposit, t Titley, S.R., ed., Advances in Geology of the Porphyry Copper Deposits, Southwestern North America: Tucson University of Arizona Press, p. 407-432.

Barton, M.D., Staude, J-M., Snow, E.A., and Johnson, D.A., 1991, Aureole systematics, j[L Kerrick, D.M., ed., Contact Metamorphism: Mineralogical Society of America, Reviews j[1 Mineralogy, v. 26, p. 723-847.

Barton, P.B., Jr., and Toulmin, P., 1961, Some mechanisms for cooling hydrothermal fluids: U.S. Geological Survey, Professional Paper, 424-D, p. 348-352.

Barton, P.B., Jr., Bethke, P.M., and Roedder, E., 1977, Environment of ore deposits in the Creede mining district, San Juan Mountains, Colorado: Part Ill. Progress toward interpretation of the chemistry of the ore-forming fluid for the OH vein: Economic Geology, v. 72, p. 1-24.

Batchelder, J., 1977, Light stable isotope and fluid inclusion study of the porphyry copper deposit at Copper Canyon, Nevada: Economic Geology, v. 72, p 60-70.

Bathurst, R.G.C., 1971, Carbonate sediments and their diagenesis: Amsterdam, The Netherlands, Elsevier, 620 p.

Beales, F.W., 1975, Precipitation mechanisms for Mississippi Valley-type ore deposits: Econ. Geology, v. 20, p. 943-948.

Beales, F.W., and Hardy, J.W., 1980, Criteria for the recognition of diverse dolomite types, ici SEPM Special Publication No. 28, ed. by Zenger, Dunham, and Ethington, P. 197-215.

Beane, R. E., 1974, Biotite stability in the porphyry copper environment: Econ. Geology, v. 69, p. 241 -251.

-------- 1982, Hydrothermal alteration in silicate rocks, in Advances in geology of the porphyry copper deposits, southwestern North America: S.R. Titley, ed., Tucson, Univ. Arizona Press, p. 117-138.

Beane, R.E., and Titley, S.R., 1981, Porphyry copper deposits, Part 11: Hydrothermal alteration and mineralization, in Economic Geology Seventy-fifth Anniversary Volume: B.J. Skinner, ed., p. 235-269.

Beaufort, D., 1981, A petrographic study of superimposed hydrothermal alterations in the Sibert (Rhone) copper porphyry: influences of geochemical microsystems on differentiation of white micas and trioctahedral phases: University of Poitiers, France, unpub. Ph.D. Dissertation, 147 p. (in French)

Benkerrou, C. and Fonteilles, M., 1989, Vanadian garnets in calcareous metapelites and skarns at Coat an Noz, Belle Isle en Terre (Cotes du Nord), France: American Mineralogist, v. 74, p. 852-858.

Berger, B.R., 1976, Geology and geochernistry of the Getchell disseminated gold deposit, Nevada [abs.]: Geological Society Nevada, Symposium on the Geology and Exploration Aspects of Fine-Grained Carlin-Type Gold Deposits, March 1976, Reno, Nevada, p. 7.

Berger, B.R., and Eimon, P.I., 1982, Comparative models of epithermal silver-gold deposits: Soc. Mining Engineers, American Institution Mining Engineers Preprint no. 82-13, 25 p.

-------- 1983, Conceptual models of epithermal precious-metals deposits; in Shanks, W.C., III (ed.), Cameron Volume on Unconventional Mineral Deposits: Society of Mining Engineer, A.I.M.E., p. 191-205.

Berman, R.G., 1988, Internally consistent thermodynamic data for minerals in the system Na20-K20CaO-MgO-FeO-Fe2O3-AI203-SiO2-TiO2-H20-CO2; Journal of Petrology, v. 29, p. 445-522.

Best, M.G., 1982, Igneous and metamorphic petrology: San Francisco, W.H. Freeman Co., 630 p.

Bethke, P.M., 1984, Controls on base- and precious-metal mineralization in deeper epithermal environments: U.S. Geol. Survey Open-File Rept. 84-890, 40 p.

-------- 1988, The Creede ore-forming system: A summary model: U.S. Geol. Survey Open-File Rept. 88403, 29 p.

Beus, A.A., 1966, Geochemical analysis of the phenomena of high-temperature post-magmatic metasomatism and pre-formation in granitoids, in Chemistry of the earth's crust, v. 1: Vinogradov, A.P., ed., Jerusalem, Israel Program for Scientific Translation, p. 186-204.

Billingsley, P. and Hume, C.B., 1941, The ore deposits of Nickel Place Mountain, Hedley, B.C.: Canadian Institute of Mining and Metallurgy, Bulletin, v. 44, p. 524-590.

Birak, D.J., 1986, Exploration and geologic development of the Jerritt Canyon gold deposits, Elko County, Nevada, U.S.A., in Proc. Gold '86, international symposium on the geology of gold, ed. Macdonald, A.J.: p.488-496.

Birak, D.J., Mancuso, T.K., and Dahl, A.R., 1987, Sediment-hosted disseminated gold mineralization at Jerritt Canyon, Nevada. I-Jasperoids as the key to the time-space framework [abs.]: Geol. Soc. America Abstracts with Programs, v. 19. p. 589.

Bird, D.K., Schiffman, P., Elders, W.A., Williams, A.E., and McDowell, S.D., 1984, Calc-silicate mineralization in active geothermal systems: Econ. Geology, v. 79, p. 671-695.

Bird, D.K., and HeIgeson, H.C., 1980, Chemical interact ion of aqueous solutions with epidote-feldspar mineral assemblages in geologic systems, 1. Thermodynamic analysis of phase relations in the system CaO-FeO-Fe2O3=Al2O3-SiO2-H20-CO2: American Journal Science, v. 280, p. 907-941.

-------- 1981, Chemical interaction of aqueous solutions with aqueous solutions with epidote-feldspar mineral assemblages in geologic systems, 11. Equilibrium constraints in metamorphic/geothermal processes: American Journal Science, v. 281, p. 576-614.

Bischoff, J.L. and Dickson, F.W., 1975, Seawater-basaft interaction at 200* C and 500 bars: Implications for origin of sea-floor heavy-metal deposits and regulation of seawater chemistry: Earth and Planetary Science Letters, v. 225, p. 385-397. A

Bish, D.L. and Aronson, J.L., 1993, Paleogeothermal and paleohydrologic conditions in silicic tuff from Yucca Mountain, Nevada: Clays and Clay Minerals, v. 41, p. 148-161. A

Blackwell, D.D., Steele, J.L., Frohme, C.F., Murphey, C.F., Priest, G.R., and Black, G.L., 1990. Heat flow in the Oregon Cascade Range and its correlation with regional gravity, Curie Point depths, and geology: Journal of Geophysical Research, v. 95-B12, p. 19475-19493.

Blakestad, R.B., and Stanley, W.R., 1984, Monotonic and prograding geothermal systems and precious metal mineral deposits; in Symposium of the Association of Exploration Geochemists, Reno, Nevada, in press. A

Blattner, P., 1975, Oxygen isotopic composition of fissure-grown quartz, adularia, and calcite from Broadlands geothermal field, New Zealand: American Journal of Science, v. 275, p. 1832-1851.

Bloom, H., 1966, Geochemical exploration as applied to copper-molybdenum deposits, in Thley, S.R., and Hicks, C.L., eds. Geology of the porphyry copper deposits, southwestern North America: Tucson, University of Arizona Press, p. 111 -119.

Bloom, M.S., 1983, Geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracturecontrolled mineralization, stockwork molybdenum deposits: University of British Columbia, Vancouver, unpub. Ph.D. Dissertation

Bloomer, G.E., 1986, Geology, mineralogy, and geochemistry of the Iron Crown calcic iron skarn deposit, Vancouver Island, British Columbia: unpublished M.S. thesis, Washington State University, 115 p.

Bloomstein, E.I., 1984, Ammonia alteration is a geochernical link in gold deposits of the Carlin-Midas belt (abs.); in Abstracts with Program, Exploration for ore deposits of the North American Cordillera: Reno, Assoc., Exploration Geochemists, p. 27.

Boctor, N.Z., 1985, Rhodonite solubility and thermodynamic properties of aqueous MnC12 in the system MnO-SiO2-HCI-H20: Geochimica et Cosmochimica Acta, v. 49, p. 565-576. A

Bodnar, R.J. and Beane, R.E., 1981, Temporal and spatial variations in hydrothermal fluid characteristics during vein filling in pre-ore cover overlying deeply buried porphyry copper mineralization at Red Mountain, Arizona: Economic Geology, v. 75, p. 876-893.

Bodnar, R.J., Reynolds, T.J., and Kuehn, C.A., 1985, Fluid inclusion systematics in epithermal systems; in Berger, B.R., and Bethke, P.M. (eds.), Geology and Geochemistry of Epithermal Systems: Society of Economic Geologists, Review in Economic Geology, v.2.

Boles, J.R., 1978, Active ankerite cementation in the subsurface Eocene of SW Texas: Contrib. Mineralogy and Petrology, v. 68, p. 13-22.

-------- 1981, Zeolites in low-grade metamorphic rocks, jjiL Reviews in mineralogy, v. 4, Mineralogy and geology of natural zeolites, ed. Mumpton, F.A.: p. 103-135.

-------- 1982, Active albitization of Gulf Coast Tertiary: American Journal of Science, v. 282, p. 5-180A.

Boles, J. R. and Franks, S.G., 1979, Clay diagenesis in Wilcox sandstones of southwest Texas: Implications of smectite diagenesis on sandstone cementation: Journal of Sedimentary Petrology, v. 49, p.55-70. A

Boles, J.R., Zenger, D.H., Bissell, H.J., and Wolf, K.H., 1979, Dolomites and dolornitization,

Diagenesis in sediments, 2nd ed., Part A, eds. Larsen, G., and Chilinger, G.V.: Amsterdam, The Netherlands, Elsevier, p. 423-536.

Bonham, H.F., Jr., 1986, Models for volcanic-hosted epithermal precious metal deposits; a review, in International Volcanological Congress, Symposium 5, Hamilton, New Zealand 1986, Proc.: Univ. Auckland Centre Continuing Education, p. 13-17.

-------- 1986, Models for volcanic-hosted epithermal precious metal deposits: A review: Internat. Volcanology Cong., 5th, Auckland, New Zealand, February 1986, Proc., p. 13-17.

Bonnichsen, B., 1975, Geology of the Biwabik Iron Formation, Dunka River area, Minnesota: Econ. Geology, v. 70, P. 319-340.

Bonorino, F.G., 1959, Hydrothermal alteration in the Front Range mineral belt, Colorado: Bulletin of the Geological Society of America, v. 70, p. 63-90. A

Borcos, M., Berbeleac, I., Gheorghita, I., Bratosin, I., Colios, E., Zamirca, A., Anatase, S., Verdes, G., and Stanescu, 1., 1977 [1978], Geochemical remarks on the Valeo Morii porphyry copper ore deposit (The Metaliferi Mountains): Romanian Inst. Geol. Geofiz, Dari Seama Sedintelor, v. 63, no. 2, p. 17-36.

Bose, S.S., 1984, An integrated geochernical approach to trace the eastern extension of the Singhbhurn copper belt, India, and study of elemental association for determination of pathfinder elements (abs.), joL Bogdanov, N.A., ed., Abstracts, 27th International Geological Congress: v. 5, p. 238.

Bowes, W.A., Kutina, J., Aaker, S.K., Fredrikson, K., and Golightly, D.W., 1982, A porphyry-type Mo-Cu discovery at Granite Mountain, Nevada; prediction based on mineralogy and geochernical study of zoning: Global Tectonics and Metallogency, v. 1, no. 4, p. 402-439.

Bowers, J.R., Kerrick, D.M., and Furlong, K.P., 1990, Conduction model for the thermal evolution of the Cupsuptic aureole, Maine: American Journal of Science, v. 290, p. 644-665.

Bowers, T.S. and Helgeson, H.C., 1983, Calculation of thermodynamic and geochernical consequences of nonideal mixing in the system H20-CO2-NaCI on phase relations in geologic systems: Equation of state for H20-CO2-NaCI fluids at high pressures and temperatures: Geochimica et Cosmochimica Acta, v. 47, p. 1247-1275. A

Bowers, T.S., Jackson, K.J. and Helgeson H.C., 1984, Equilibrium Activity Diagrams: Berlin, New York, Springer-Verlag, 393 p. A

Bowers, T.S., von Damm, K.L. and Edmond, J.M., 1985, Chemical evolution of mid-ocean ridge hot springs: Geochimica et Cosmochimica Acta, v 49, pp2239-52A

Brimhall, G. H. Jr., 1980, Deep hypogene oxidation of porphyry copper potassium-silicate protore at Butte Montana: A theoretical evaluation of the copper remobilization hypothesis: Econonic Geglog4, v. 75, p. 384-409. Bowman, J.R., Parry, W.T., Kropp, W.P., and Kruer, S.A., 1987, Chemical and isotopic evolution of hydrothermal solutions at Bingham, Utah: Econ. Geology, v. 82, p. 395-428 Bowman, J.R., Covert, J.J., Clark, A.H. and Mathieson, G.A., 1985, The CanTung E-zone scheelite skarn ore body, Tungsten, Northwest Territories: oxygen, hydrogen, and carbon isotope studies: Economic Geology, v. 80, p. 1872-1895.

Bowman, J. R., and Essene, E.J., 1982, P-T-XCO 2 conditions of contact metamorphism in the Black Butte aureole, Elkhorn, Montana: American Journal of Science, v. 282, p. 311-340.

Bowman, J.R., Covert, J.J., Clark, A.H. and Mathieson, G.A., 1985, The CanTung E-zone scheelite skarn ore body, Tungsten, Northwest Territories: oxygen, hydrogen, and carbon isotope studies: Eonomic Geology, v. 80, p. 1872-1895.

Boyle, D.R. and Troup, A.G., 1975, Copper- molybdenum porphyry mineralization joL central British Columbia, in Jones, M.J., ed., Prospecting in Areas of Glaciated Terrain Symposium, Edinburgh: London, Institute of Mining and Metallurgy, p. 6-15.

Bradshaw, P.M.D., 1975, Valley Copper deposit, British Columbia (case history): Journal of Geochemical Exploration, v. 4, no. 1, p. 100-101.

Brathwaite, R.L., McKay, D.F., and Henderson, S., 1986, The Martha Hill gold-silver deposit, Waihi, in International Volcanological Congress, Symposium 5, Hamilton, New Zealand 1986, Proc.: Univ. Auckland Centre Continuing Education, p. 19-23.

Bray, C.J.S., 1980, Mineralisation, greisenisation, and kaolinisation at Goonbarrow china clay pit, Cornwall, UX: Unpublished Ph.D. thesis, University of Oxford, 174 p.

Brigham, R. H., 1984, K-feldspar genesis and stable isotope relations of the Papoose Flat Pluton, Inyo Mountains, California: Unpublished Ph.D. dissertation, Stanford University, 172 p.

Brimhall, G.H., Agee, C. and Stoff regen, R., 1985, The hydrothermal conversion of homblende to biotite: Canadian Mineralogist, v. 23, p. 369-379.

Brimhall, G.H., Jr., and Ghiorso, M.S., 1983, Origin and ore-forming consequences of the advanced argillic alteration process in hypogene environments by magmatic gas contamination of meteoric fluids: Econ. Geology, v. 78, p. 73-90.

Brimhall, G.H., Jr., 1980, Deep hypogene oxidation of porphyry copper ptassium-silicaate protore at Butte, Montana: A theoretical evaluation of the copper remobilization hypothesis: Economic Geology,, v. 75, p. 384-409.

-------- 1979, Lithologic determination of mass transfer mechanisms of multiple-stage porphyry copper mineralization at Butte, Montana: Vein formation by hypogene leaching and enrichment of potassium silicate protore: Economic Geology, v. 74, p. 556-589.

-------- 1977, Early fracture-controlled disseminated mineralization at Butte, Montana: Economic Geology, v. 72, p. 37-59.

-------- 1973, Mineralogy, texture, and chemistry of early wall rock alteration in the deep underground mines and Continental area, Butte district, Montana, jE Guidebook, Butte Field Meeting, Society of Economic Geologists, p. 1-11-1-14.

Briskey, J.A., Field, C.W., and Bellamy, J.R., 1981, Geology, petrology, and geochemistry of the Jersey, East Jersey, Heustis, and Iona porphyry copper-molybdenum deposits, Highland Valley, British Columbia, in Silberman, M.L., Field, C.W., and Berry, A.L., eds., Proceedings of the symposium on mineral deposits of the Pacific Northwest: U.S. Geological Survey Open-File Report 81-126, p. 106-126.

Briskey, J.A., Jr., 1980, Geology, petrology, and geochemistry of the Jersey, East Jersey, Heustis, and Iona porphyry copper-molybdenum deposits, Highland Valley, British Columbia: Oregon State University, unpub. Ph.D. Dissertation, 420 p.

Britten, R., 1986, Mineralogy and lithogeochemistry of advanced argillic alteration related to epithermal copper-gold mineralization at the Frieda River Prospect, Papua New Guinea (abs.), in Programs and abstracts, Geoexpo/86, Exploration in the North American Cordillera, May 1986: Vancouver, Association of Exploration Geochemists.

Brooks, R.R., 1979, Indicator plants for mineral prospecting - a critique: Journal of Geochemical Exploration, v. 12, no. 1, p. 66-78.

Brooks, R.R., Wither, E.D., and Westra, L.Y.T., 1978, Biogeochemical copper anomalies on Salajar Island, Indonesia: Journal of Geochernical Exploration, v. 10, no. 2, p. 181-188.

Brophy, G.P., Scott, E.S., and Snellgrove, R.A., 1962, Sulfate studies 11 solid solution between alunite and jarosite: American Mineralogist, v. 47, p. 112-126.

Brown, A., ed., Porphyry deposits of the Canadian Cordillera: Can. Inst. Mining Met. Spec. Vol. 15, p. 359-367.

Brown, C.E... and Ayoso, R.A., 1985, Significance of tounnaline-rich rocks in the Grenville Complex of St. Lawrence County, New York: U.S. Geological Survey Bull. 1626-C, 33 p.

Brown, K.L., McDowell, G.D., Lichti, K.A., and Bijnen, H.J.C., 1983, pH control of silica scaling: Proceedings: 5th New Zealand Geothermal Workshop, p. 157-162

Brown, K.L., 1986, Gold deposition from geothermal discharge in New Zealand: Econonic Geology, v. 81, p. 6, p. 320-327.

-------- 1985, Gold deposition from New Zealand geothermal wells: Econonic Geology (in press).

Brown, P.E., Bowman, J.R., and Kelly, W.C., 1985, Petrologic and stable isotope constraints on the source and evolution of skarn forming fluids at Pine Creek, California: Economic Geology, v. 80, p. 72-95.

Browne, P.R.L., 1978, Hydrothermal alteration in active geothermal fields: Annual Review of Earth and Planetary Sciences, v. 6, p. 229-250.

Browne, P.R.L. and Ellis, A.J., 1970, The Ohaki-Broadlands hydrothermal area, New Zealand: Mineralogy and related geochemistry: American Journal of Science, v. 269, p.97-131.

Bryndzia, L.T. and Scott, S.D., 1980, Geochemical evolution of Zn+Pb and Cu stockwork mineralization in the Uwamuki 4 deposit, Hokuroku district, Japan (abs.), in Abstracts with programs, GSA Annual Meeting, Atlanta, November 1980: Geological Society of America, v. 12, no. 7, p. 394.

Bryner, L. 1961, Breccia and pebble columns associated with epigenetic ore deposits: Econ. Geology, v. 56, p. 488-508.

-------- 1968, Proposed terminology for hydrothermal breccias and conglomerates: Econ. Geology, v. 63, p. 692-693.

Buchanan, L. J., 1980, The Las Torres, Guanajuato, Mexico--Ore controls of a fossil geothermal systems: Unpublished Ph.D. thesis, Colorado School of Mines, 138 p. A

-------- 1981, Precious-metal deposits associated with volcanic environments in the southwest; in Dickinson, W. R., and Payne, W.D. (eds.), Relations of Tectonics to Ore Deposits in the Southern Cordillera: Geol. Soc. Arizona Digest, v. 14, p. 237-262.

Burbank, W.S., 1950, Problems of wall-rock alteration in shallow volcanic environments: Colorado School of Mines Quarterly, no. 45, p. 287-319.

Burnham, C.S., 1962, Facies and types of hydrothermal alteration: Econ. Geology, v. 57, p. 768-784.

Burnham, C.W., 1979, Magmas and hydrothermal fluids in Geochemistry of hydrothermal ore deposits, 2nd edition: edit. H.L. Barnes, New York, John Wiley and Sons, p. 71-136.

Burnham, C.W., and Ohmoto, H., 1980, Late-stage processes of felsic magmatism: Mining Geology Spec. Issue, no. 8, p. 1 - 11.

Burns, R.G., 1907, Mineralogical Applications of Crystal Field Theory: Cambridge University Press, London,224p.A

Burt, D.M., 1981, Acid ity-sali n ity diagrams - application to greisen and porphyry deposits: Economic Geology, v. 76, p.832-843.

-------- 1994, Exchange vector diagrams for the compositions of alteration minerals, in Lentz, D., ed.

Alteration and Alteration Processes associated with Ore-forming Systems: Geological Association of Canada Short Course, v.1 1, p.31-42.

-------- 1972, Mineralogy and geochemistry of Ca-Fe-Si skarn deposits: unpublished Ph.D. Thesis, Harvard University, 256 p.

Burt, D.M. Sheridan, M.F., Bikun, J.V., and Christiansen, E.H., 1982, Topaz rhyolites - distribution, origin, and significance for exploration: Economic Geology, v. 77, p. 1818-1836.

Butler, E.F., Jr., 1981, The geology and geochemical case history of the Juniper Canyon coppermolybdenum prospect, Pershing County, Nevada: University of Arizona, unpub. M.Sc. Thesis, 82 P.

Caffrey, G.M., 1982, Poetrology and alteration of ultramafic rocks of Bullrun Mountain, Barker County, Oregon: unpublished M.Sc. thesis, Washington State University, 130 p.

Callaghan, E., 1938, Preliminary report on the alunite deposits of the Marysvale region, Utah: U.S. Geol. Survey Bull. 886-D, p. 91-134.

Camus, F., 1975, Geology of the El Teniente orebody with emphasis on wall-rock alteration: Econ, Geology, v. 70, p. 1341-1372.

Cariat, P. De, Hutcheon, I. And Walshe, J.L., 1983, Chlorite geothermometry: A review: Clays and Clay Minerals, v. 412, p. 219-239.

Cannon H.L., 1960, Botannical prospecting fore ore deposits: Science, v. 132, no. 3427, p. 591-598.

Carson, D.J.T. and Jambor, J.L., 1974, Mineralogy , zonal relationships and economic significance of hydrothermal alteration at Porphyry Copper deposits Babine Lake area, British Columbia: Canadian Institute of Mining and Metallurgy, v. 67, no. 742, p. 110-133.

Carson, D.J.T. , Jambor, J.L., Ogryz1o, P., and Richards, T.A., 1976, Bell Copper: Geology, geochemistry and genesis of a supergene-enriched, biotized porphyry copper deposit with a superimposed phyllic zone, in Brown, A.S., ed., Porphyry deposits of the Canadian Cordillera: Canadian Institute of Mining and Metallurgy, v. 15, p. 245-263.

Casadevall, T., and Ohmoto, H., 1977, Sunnyside mine, Eureka mining district, San Juan County, Colorado--Geochemistry of gold and base-metal ore deposition in a volcanic environment: Economic Geology, v. 72, p. 1285-1320.

Cathelineau, M., 1988, Cation site occupancy in chlorites and illites as a function of temperature: Clay Minerals, v. 23, p. 471-485.

Cathelineau, M. and Nieva, D., 1985, A chlorite solid solution geothermometer: The Los Axufres (Mexico) geothermal system: Contributions to Mineralogy and Petrology, v. 91, p. 235-244.

Cathles, L.M., Guber, A. L., Lenagh, T.C., and Dudas, F.O., 1983, Kuroko-type massive sulfide deposits of Japan: Products of an aborted island-arc shift: Econonic Geology Mon. 5, p. 96-114.

Cavanaugh, P.C., 1978, Geology of the Little Boulder Creek molybdenum deposit, Custer County, Idaho: unpublished M.Sc. thesis, University of Montana, 82 p.

Cavaretta, G., Gianelli, G. and Puxeddu, M., 1982, Formation of authigenic minerals and their use as indicators of physiochernical parameters of the fluid in the Larderello-Travale geothermal field: Economic Geology, v. 77, p. 1071-1084.

Cavaretta, G., and Puxeddu, M., 1990, Schorl-dravite-ferridravite tourmalines deposited by hydrothermal magmatic fluids during early evolution of the geothermal field, Italy: Economic Geology, v. 85, p. 1236-1251.

Chaffee, M.A., 1975, Geochemical exploration techniques applicable to the search for copper deposits: U.S. Geological Survey Professional Paper 907-13, 26 p.

-------- 1976a, Geochernical exploration techniques based on distributions of selected elements in rocks, soils, and plants, Mineral Butte copper deposit, Pinal County, Arizona: U.S. Geological Survey Bulletin 1278-D, 55 p.

-------- 1976b, Primary geochernical zoning off the Kalamazoo porphyry copper deposit, Arizona, USA, and applications to geochernical prospecting (abs.), j[L Program with abstracts: Sydney, Australia, 25th International Geological Congress, v. 2, p. 438-439.

-------- 1976c, The zonal distribution of selected elements above the Kalamazoo porphyry copper deposit, San Manuel district, Pinal County, Arizona: Journal of Geochernical Explorations, v. 5, no. 2, p. 145-165.

-------- 1977, Geochernical exploration techniques based on distributions of selected elements in rocks, soils, and plants, Vekol porphyry copper deposit area, Pinal County, Arizona: U.S. Geological Survey Bulletin 1278-E, 78 p.

-------- 1982a, Geochernical prospecting techniques for porphyry copper deposits, southwestern United States and northern Mexico, in Titley, S.R., ed., Advances in geology of the porphyry copper deposits, southwestern North America: Tucson, Arizona University Press, p. 297-307.

-------- 1982b, A geochernical study of the Kalamazoo porphyry copper deposit, Pinal County, Arizona, in Tilley, S.R., ed., Advances in geology of the porphyry copper deposits, southwestern North America: Tucson, Arizona University Press, p. 211-224.

Chaffee, M.A., 1984, Geochemical exploration for porphyry copper deposits using primary element zoning patterns (abs.), j[L Program with abstracts, AIME Annual Meeting, Los Angeles: American Institute of Mining, Metallurgical, and Petroleum Engineers, p. 61-62.

-------- 1987, Chemical zoning of mineral deposits as an exploration technique -- the Red Mountain, Arizona, porphyry copper system (abs.), in Third annual V.E. McKelvey forum on mineral and energy resources - 1987, Program and abstracts: U.S. Geological Survey Circular 995, p. 10-11.

-------- 1990, Geochemistry, in Peterson, J.A., ed., Preliminary mineral resource assessment of the Tucson and Nogales 1" by 2* quadrangles, Arizona: U.S. Geological Survey Open-File Report 90-276, p. 19-40 (including plates 2-17). Carson, D.J.T. and Jambor, J.L., 1974, Mineralogy , zonal relationships and economic significance of hydrothermal alteration at Porphyry Copper deposits Babine Lake area, British Columbia: Canadian Institute of Mining and Metallurgy, v. 67, no. 742, p. 110-133.

Chaffee, M.A., 1975, Geochemical exploration techniques applicable to the search for copper deposits: U.S. Geological Survey Professional Paper 907-13, 26 p.

Chaffee, M.A., Hill, R.H., Sutley, S.J., and Watterson, J.R., 1981, Regional geochemical studies in the Patagonia Mountains, Santa Cruz County, Arizona: Journal of Geochernical Exploration, v. 14, no. 2-3, p. 135-153.

Chaffee, M.A., Lee-Moreno, J.L., Caire, L.F., Mosier, E.L., and Frisken, J.G., 1976, Results of geochemical investigations comparing samples of stream sediment, panned concentrates, and vegetation in the vicinity of the Caridad porphyry copper deposit, northern Sonora, Mexico: U.S. Geological Survey Open-File Report 76-559, 34 p.

Chakrabarti, A.K., and Jorge-Durango, M., 1979, Observations on a porphyry copper prospect in Choco, western Colombia: Economic Geology, v. 74, no. 7, p. 1687-1692.

Chapman, B.H., and Thompson, D.T., 1984, Applications of geophysical logging within skarn-type deposits: The Log Analyst, v. 26, pt. 2, p. 13-24.

Chapman, R.H., Joseph, S.E. and Campbell, L.G., 1986, Magnetic exploration for skarn deposits, Ivanpah mining district, San Bernardino County, California: California Geology, v. 39, p. 8, p. 171-178.

Charoy, B., 1979, Definition et importance des phenomenes deuteriques et des fluides associes dans les granites. Consequences metallogeniques: Sci. de la Terre, Nancy, mem. 37, 364 p.

-------- 1979b, Greisenisation, mineralisation et fluides. associes a Cligga Head, Cornwall (sud-ouest de I'Angleterre): Bull. Mineral., v. 102, p. 633-641.

-------- 1982, Tourmalinization in Cornwall, England, in Mineralization associated with acid magmatism, ed. Evans, A.M.: Chichester, John Wiley and Sons, p. 63-70. A

Chatterjee, A.K., and Strong, D.F., 1984, Rare-earth and other element variations in greisens and granites associated with East Kemptville tin deposit, Nova Scotia, Canada: Trans. Institution Mining Metallurgy (London), Sec. B., Applied Earth Science, v. 93, p. 859-870.

-------- 1985, Review of some chemical and mineralogical characteristics of granitoid rocks hosting Sn, W, U, Mo deposits in Newfoundland and Nova Scotia, in High heat production (HHP) granites, hydrothermal circulation and ore genesis: London, The Institution of Mining and Metallurgy, p. 489-516.

Chermeninov, V.B., 1988, Mapping of hydrothermally altered rocks according to a borehole section: Soviet Geology and Geophysics, v. 29, p. 88-97.

Chivas, A.R., 1978, Porphyry copper mineralization at the Koloula igneous complex, Guadalcanal, Solomon Islands: Econ. Geology, v. 73, p. 645-677.

-------- 1982, Geochemical evidence for magmatic fluids in porphyry copper mineralization: Part 1, Mafic silicates from the Koloula igneous complex: Contributions to Mineralogy and Petrology, v. 78, no. 4, p. 389-403.

Choquette, P.W., 1971, Late ferroan dolomite cement, Mississippian carbonates, Illinois basin, U.S.A., ja Carbonate cements, ed. Bricker, O.P.: Baltimore, The Johns Hopkins Press, p. 339-346.

Christman, R.A., Brock, M.R., Pearson, R.C., and Singewald, O.D., 1959, Geology and thorium deposits of the Wet Mountains, Colorado, a progress report: U.S. Geol. Survey Bull. 1072-H, p. 491-533.

Chukhrov, F.V., Churikov, V.S., Ermilova, L.P., and Kalentchuk, G.E., 1979, Background levels of copper and zinc in common plants from various regions of the Soviet Union: Journal of Geochernical Exploration, v. 12, no. 1, p. 79-86.

Clark, G. H., 1987, Geology and resource estimation at the Panguna porphyry copper/gold mine, Papua New Guinea, in Pacific Rim congress 87, Gold Coast, Queensland 1987, Proc.: Parkville, Australia, Australasian Inst. Mining Metallurgy, p. 549-556.

Clarke, O.M., 1953, Geochemical prospecting for copper at Ray, Arizona: Economic Geology, v. 48, p. 39-45.

Clayton, R.N., Muffler, L. J. P., and White, D.E., 1968, Oxygen isotope study of calcite and silicates of the River Ranch No. 1 well, Salton Sea geothermal field, California: American Journal of Science, v. 266, p. 968-979. A

Coats, R.R., Consul, J., and Neil, S.T., 1979, Massive zunyfte rock from western Elko County, Nevada: U.S. Geol. Survey Open-file Report, 79-764, 8 p.

Cole, D.R., and Ravinsky, L.I., 1984, Hydrothermal alteration zoning in the Beowave geothermal system, Eureka and Lander Counties, Nevada: Econ. Geology, v. 79, p. 759-767

Cook, R.B., Jr. 1972, Exploration for disseminated molybdenum-copper mineralization in the Conner Stock, Wilson and Nash Counties, North Carolina (abs.), jlj Abstracts, GSA Annual Meeting: Geological Society of America, v. 4, no. 7, p. 476

Cooke, D.R. and Bloom, M.S., 1990, Epithermal and subjacent porphyry mineralization, Acupan, Baguio district, Philippines: a fluid-inclusion and paragenetic study: Journal of Geochemical Exploration, v. 35, no. 1-3, p. 297-340.

Coolbaugh, D.F., 1971, La Caridad: Mexico's newest and largest porphyry copper deposit -- an exploration case history: Society of Mining Engineers Transactions, v. 250, p. 133-138. .

-------- 1979, Geophysics and geochernistry in the discovery and development of the La Caridad porphyry copper deposit, Sonora, Mexico, in Hood, P.J., ed., Geophysics and geochernistry in the search for metallic ores, Proceedings of Exploration 77: Ottawa, Geological Survey of Canada Economic Report 31, p. 721-725.

Coope, J.A., 1974, Geochemical prospecting for porphyry copper-type mineralization -- an updated review (abs.): Mining Engineering, v. 26, no. 12, p. 78 (also published in Economic Geology, v. 70, no. 1, p. 244)

Coope, J.A., and Webb, J.S., 1963, Copper in stream sediments near disseminated copper mineralization, Cebu, Philippine Republic: Institution of Mining and Metallurgy Transactions, v. 72, no. 6, p. 397-406.

-------- 1965, Copper in stream sediments near disseminated copper mineralization, Cebu, Philippine Republic: Philippine Geologist, v. 19, no. 1, p. 25-34.

Cooper, J.R. and Huff, L.C., 1951, Geological investigations and geochemical prospecting experiment at Johnson, Arizona: Economic Geology, v. 46, no. 7, p. 731-756.

Corn, R.M., 1975, Afteration-mineralization zoning, Red Mountain, Arizona: Economic Geology , v. 70, p. 14437-1447. PC CD

Cortecci, G., Lombardi, G., Reyes, E., and Turi, B., 1981, A sulfur isotopic study of alunites from Latium and Tuscany, central Italy: Mineraalium Deposita, v. 16, p. 147-156. A

Cotta, B. von, 1964, Erzlagerstatten im Banat und in Serbien: Vienna, Ed. W. Braunmuller, 105 p.

Cox, D.P., 1985, Geology of the Tanama and Helecho porphyry copper deposits and vicinity, Puerto Rico: U.S. Geological Survey Prof. Paper 1327, 59 p.

Cox, D.P., Gonzalez, I.P., and Nash, J.T., 1975, Geology, geochemistry, and fluid-inclusion petrography of the Sapo Alegre porphyry copper prospect and its metavolcanic wallrocks, west-central Puerto Rico: U.S. Geological Survey Journal of Research, v. 3, p. 313-327.

Cox, D.P., and Learned, R.E., 1977, Geochernical expression of porphyry copper deposits in Puerto Rico (abs.): Mining Engineering, v. 29, no. 1, p. 80.

Cox, D.P., Wiggins, L.B., and O'Neil, J.R., 1975, Am mph ibole-qua rtz- magnetite assemblages in hydrothermal alteration zones in the Tanama porphyry deposit, Puerto Rico (abs.): Econ. Geology, v. 70, p. 1319.

Crawford, M.L., 1981, Phase equilibria in aqueous fluid inclusions, jrL Hollister, L.S. and Crawford, M.L., eds., Short Course in Fluid Inclusions: Applications to Petrology: Mineralogical Association of Canada, Short Course Handbook, v.6, p.75-100. A

Creasey, S.C., 1966, Hydrothermal alteration, in Geology of the porphyry copper deposits, ed. Titley, S.R., and Hicks, C.L.: University of Arizona Press, p. 51-74.

-------- 1959, Some phase relations in hydrothermally altered rocks of porphyry copper deposits: Econ. Geology, v. 54, p. 351-373.

Cunneen, R., and R. H. Sillitoe, 1989, Paleozoic hot spring sinter in the Drummond Basin, Queensland, Australia: Economic Geology, v. 84, p. 135-142. A Cunningham, C. G., Ashley, R.P., Chou, I-M., Huang, Z., Wan, C., and Li, W., 1988, The newly discovered sed imentary- rock hosted disseminated gold deposits in the People's Republic of China: Econonic Geology, v. 83, p. 1462-1467.

Curtis, C.D., Hughes, C.R., Whiteman, J.A. and Whittle, C.K., 1985, Compositional variation within some sedimentary chlorites and some comments on their origin: Mineral Magazine, v. 49, p. 375-386.

Darling, R.S., 1990, Wide range of molybdenite stability reflected in vein assemblages at the carbonate-hosted Cannivan Gulch stockwork molybdenum deposit, southwest Montana: Geological Society of America, Abstract with Programs, v. 67, p. All 80.

-------- 1971, Preliminary study of the distribution of minor and trace elements in biotite from quartz monzonite associated with contact-metasomatic W-Mo-Cu ore, California, USA, in Boyle, R.W., ed., Geochemical exploration: Proceedings, 3rd International Geochemical Exploration Symposium, Toronto: Canadian Institute of Mining and Metallurgy Special Vol. 11, p. 315-322.

Davies, B.M., and Ballantyne, G.H., 1987, Geology of the Ladolam gold deposit, Lihir Island, Papua New Guinea, in Pacific Rim Congress 87, Gold Coast, Queensland 1987, Proc.: Parkville, Australia, Australasian Inst. Mining Metallurgy, p. 943-949.

Davies, B.M., 1985 Tourmalines from Appalachian-Caledonian massive sulfide deposits: textual, chemical, and isotopic relationships - a discussion: Econ. Geology, v. 80, p. 2038-2040.

Davies, J.F., 1980, K-Rb patterns in an Archaen "porphyry-type" copper deposit, Timmins, Ontario, Canada: Economic Geology, v. 75, no. 5, p. 760-764.

Davis, J.D., 1974, Geothermometry, geochemistry, and alteration of the San Manuel copper orebody, San Manuel, Arizona, University of Arizona, Tucson, unpub. Ph.D. Dissertation, 269 p.

Davis, J.D. and Guilbert, J.M., 1973, Distribution of the radioelements potassium, uranium, and thorium in selected porphyry deposits: Economic Geology, v. 68, no. 2, p. 145-160.

de Grys, A., 1961, Copper, lead, and zinc in rivers draining Chilean Andes: Economic Geology, v. 56, no. 8, p. 1456-1464.

-------- 1962, Seasonal variations in copper content in some Andean streams of central Chile: Economic Geology, v. 57, no. 7, p. 1031-1044.

-------- 1964, Copper distribution patterns in soils and drainage in central Chile: Economic Geology, v. 59, no. 4, p. 636-646.

de Ronde, C.E.J., and Blattner, OP., 1988, Hydrothermal alteration, stable isotopes and fluid inclusions of the Golden Cross epithermal gold-silver deposit, Waihi, New Zealand: Econonic Geology, v. 83, p. 895-917.

Dick, L.A. and Hodgson, C.J., 1982, The MacTung W-Cu (Zn) contact metasomatic and related deposits of the northeastern Canadian Cordillera: Economic Geology, v. 77, p. 845-867.

Dietrich, R.V., 1985, The tourmaline group: New York, Van Nostrand Reinhold, 300 p.

Dilles, J.H., 1984, The petrology and geochemistry of the Yerington Batholith and the Ann-Mason porphyry copper deposit, western Nevada: Stanford University, unpub. Ph.D. Dissertation, 462 p.

Dobson, D.C., 1982, Geology and alteration of the Lost River Tin-Tungsten- Fluorine deposit, Alaska: Economic Geology, v. 77, p. 1033-1052.

-------- 1984, Geology and geochemical evolution of the Lost River, Alaska, tin deposit: unpublished Ph.D. thesis, Stanford University, 200 p.

Dolukhanova, N.I., 1960, The application of hydrochemical surveys to copper and molybdenum deposits in the Armenian S.S.R. (Yerevan): International Geology Review, V. 2, no. 1, p. 20-42.

Domingo, E. G., and Sato, J., 1982, Gold-silver deposits of the Philippines and Japan: A comparative study of their geology, ore mineralogy and fluid inclusions, in Regional Conference on the Geology of Southeast Asia, 4th, Manila 1981, Proc.: Manila, Geol. Soc. Philippines, p. 547-565.

Donald, K.G., 1956, Pitchblende at Port Radium: Canadian Mining Journ., v. 77, p. 77-79.

D'Orey, F.L.C., 1975, Contribution of termite mounds to locating hidden copper deposits: Institution of Mining and Metallurgy Transactions, v. 84, p. 131 50-Bl 51.

Dowty, E., 1980, Crystal-chemical factors affecting the mobility of ions in minerals: American Mineralogist, v. 65, p. 174-182. A

Drever, J.1., 1988, The geochemistry of natural waters: second ed., Prentice Hall, Englewood Cliffs, 437 p. A

Drewes, H., 1967, A geochernical anomaly of base metals and silver in the southern Santa Rita Mountains, Santa Cruz County, Arizona, irl Geological Survey research 1967: U.S. Geological Survey Professional Paper 575-D, p. 176-182.

-------- 1970, Structural control of geochemical anomalies in the Greaterville mining district southeast of Tucson, Arizona: U.S. Geological Survey Bulletin 1312-A, 49 p.

-------- 1973, Geochemical reconnaissance of the Santa Rita Mountains, southeast of Tucson, Arizona: U.S. Geological Survey Bulletin 1365, 67 p.

Drummond, S.E., and Ohmoto, H., 1985, Chemical evolution and mineral deposition in boiling hydrothermal systems: Econonic Geology, v. 80, p. 126-147. &

Dubois, R.L. and Brummett, R.W., 1968, Geology of the Eagle Mountain mine area, in J.D. Ridge, ed., Ore deposits of the United States, 1933-1967 (Graton Sales volume): American Institute of Mining, Metallurgy and Petroleum Engineers, New York, p. 1592-1606.

Durgin, D.C., 1989, Gold in the Robinson mining district: American Institute of Mining and Metallurgical Engineers Preprint 89-42, 7 p.

Durning, W.P. and Davis, J.D., 1978, The root-zone characteristics of porphyry copper deposits, in Proceedings of the Porphyry Copper Symposium, Tucson, March 1976: Arizona Geological Society Digest, v. 11, p. 81-89.

Dyckstra, J.D., 1975, Detection of porphyry copper alteration by computer processing of ERTS-1 digital data: Dartmouth College, Hanover, NH, unpub. M.S. Thesis.

Eastoe, C.J., 1982, Physics and chemistry of the hydrothermal system at the Panguna porphyry copper deposit, Bougainville, Papua New Guinea: Econonic Geology, v. 77, p. 127-153

Eberl, D.D., 1993, Three zones for illite formation during burial diagenesis and metamorphism: Clays and Clay Minerals, v. 41, p. 26-37. A

Einaudi, M.T., 1982a, Description of skarns associated with porphyry copper plutons, in Advances in geology of the porphyry copper deposits, southwestern North America: S.R. Thley, ed., Tucson, University Arizona Press, p. 139-184.

-------- 1982b, General features and origin of skarns associated with porphyry copper plutons, in Advances n geology of the porphyry copper deposits, southwestern North America: S.R. Titley, ed., Tucson, Univ. Arizona Press, p. 185-210.

Einaudi, M.T., and Burt, D.M., 1982 - Introduction - terminology, classification, and composition of skarn deposits: Econ. Geology, v. 77, p. 745-754.

Einaudi, M.T., Meinert, L.D., and Newberry, R.J., 1981, Skarn deposits, in Economic Geology Seventhfifth Anniversary Volume: B.J. Skinner, ed., p. 317-391.

Ekstrom, T.K., 1972, The distribution of fluorine among some coexisting minerals: Contributions to Mineralogy and Petrology, v. 34, p. 192-200. A

Elder, D.D. and lkramuddin, M., 1983, Geochernistry of Mount Tolman copper-molybdenum porphyry deposit, northeastern Washington (abs.), in Abstracts with programs, GSA Annual Meeting, Indianapolis, Oct.-Nov., 1983: Geological Society of America, v. 15, no. 6, p. 566.

Elder, J., 1981, Geothermal systems: New York, Academic Press, 508 p.

Elinson, M.M., Pashkov, Yu No., Agababov, G.M. , and Ignateva, I.B., 1970 [19721, Gas haloes around copper-molybdenum ore bodies: Ottawa, Geological Survey of Canada Translation.

Elliott, W.C., Aronson, J.L., Matisof, G. and Gautier, D.L., 1991, Kinetics of the smectite to illite transformation in the Denver basin: Clay mineral, K-Ar data, and mathematical model results: American Association of Petroleum Geologists Bulletin, v. 75: p. 436-462.

Ellis, A.J., 1960, Mordenite synthesis in a natural hydrothermolution: Geochimica et Cosmochimica Acta., v. 19, p. 145-146.

-------- 1963, The solubility of calcite in sodium chloride solutions at ghih temperature: Am. Jour. Sci., v. 261, p. 259-267.

-------- 1967, The chemistry of some explored hydrothermal systems, in Barnes, H.L., ed., Geochemistry of Hydrothermal Ore Deposits: New York, Holt, Rinehart & Winston, p. 465-514.

-------- 1979, Explored geothermal systems, in Geochernistry of hydrothermal ore deposits, 2nd ed.: ed. Barnes, H.L., New York, John Wiley and Sons, p. 632-683. G

-------- 1970, Quantitative interpretation of chemical characteristics of hydrothermal systems: Proceedings from the United Nations Symposium on the Development and Utilization of Geothermal Systems. v. 2, p. 516-528.

-------- 1969, Present-day hydrothermal systems and mineral depositions: Ninth Common Mining and Metallurgy Congress, Institute of Mining and Metallurgy (London) 1-30.

Ellis, A.J., and Mahon, W.A.J., 1964, Natural hydrothermal solutions, in Geology and geochemistry of epithermal systems; eds. Berger, B.B., and Bethke, P.M.: Reviews in Economic Geology, v. 2, p. 45-61.

-------- 1964, Natural hydrothermal systems and experimental hot-water/rock interactions: Geochimica et Cosmochimica Acta, v. 28, -. p. 1323-1357.

------- 1977, Chemistry and Geothermal Systems: Academic Press, New York, 392 p.

Emerson, D.W., and Welsh, H.K., 1988, Low-frequency permittivities of skarns and associated rocks: Geophysics, v. 53, p. 1233-1240.

Erd, R.C., White, D.E., Fahey, J.J., and Lee, D.E., 1964, Buddingtonite, an ammonium feldspar with zeolitic water: American Mineralogist, v. 49, p. 831-850.

Erickson, R.L. and Marranzino, A.P., 1960, Geochemical prospecting for copper in the Rocky Range, Beaver County, Utah, in Geological Survey research 1960: U.S. Geological Survey Professional Paper 400-13, p. 98-101.

Ernst, W.G., and Calvert, S.E., 1969, An experimental study of the recrystallization of porcelanite and its bearing on the origin of some bedded cherts: American Journal of Science, v. 267, p. 114-133.

Erwood, R.J., Kesler, S.E., and Cloke, P.L., 1979, Compositionally distinct, saline hydrothermal solutions, Naica mine, Chihuahua, Mexico: Econ. Geology, v. 74, p. 95-108.

Ethier, V.G., and Campbell, F.A., 1977, Tourmaline concentrations in Proterozoic sediments of the southern Cordillera of Canada and their economic significance: Canadian Joum. Earth Science, v. 14

Ettlinger, A.D., 1990, A geological analysis of gold skarns and precious metal enriched iron and copper skarns in British Columbia, Canada: unpublished Ph.D. thesis, Washington State University, 246 P.

Ettlinger, A.D., and Meinert, L.D., 1991, Gold in the Soviet Union: A study of the Veselyi Mine, Siniukhinskoe District, Siberia, USSR: Economic Geology, v. 86, p. 185-194.

Ettlinger, A.D., Meinert, L.D., and Ray, G.E., In press, Skarn evolution and hydrothermal fluid characteristics in the Nickel Plate Deposit, Hedley District, British Columbia, Canada: Economic Geology.

Eugster, H.P., 1986, Minerals in hot water: American Mineralogist, v. 71, p.655-673. A

Eugster, H.P., Chou, I-M. and Wilson, G.A., 1987, Mineral solubility and speciation in supercritical chloride fluids, in Ulmer, G.C. and Barnes, H.L., eds. Hydrothermal Experimental Techniques: John Wiley and Sons, New York, p. 1-19. A

Ewart, A., 1966, Review of mineralogy and chemistry of the acidic volcanic rocks of Taupo Volcanic Zone, New Zealand: Bull. Volcanology., v. 29, p. 147-172. A

Ewers, G. R., 1977, Experimental hot water-rock interactions and their significance to natural hydrothermal systems in New Zealand: Geochimica et Cosmochimica Acta, v. 41 -p. 143-150. A

Ewers, G. R., and Keays, R.R., 1977, Volatile and precious-metal zoning in the Broadlands geothermal field, New Zealand: Economic Geology, v. 72, p. 1337-1354.

Fair, C.L., 1974, Manus Island, in Porphyry copper deposits of the Southwest Pacific: Sydney, Geological Society of Australia, p. 56-59.

Fein, J.B. and Walter, J.V., 1989, Calcite solubility and speciation in supercritical NaCI-HCI aqueous fluids: Contributions to Mineralogy and Petrology, v. 1033, p.317-324.

Fellows, M.L., 1977, Composition of hydrothermal epidote from porphyry copper deposits, southwestern United States (abs.): Mining Engineering, v. 29, no. 1, p. 75.

Field, C. W., 1966, Sulfur isotopic method for discriminating between sulfates of hypogene and supergene origin: Economic Geology, v. 61, p. 1428-1435.

Field, C. W., and Lombardi, G., 1972, Sulfur isotopic evidence for the supergene origin of alunite deposits, Tolfa district, Italy: Minerallium Deposita, v. 7, P. 113-125. A

Field, C. W.., and Gustafson, L. B., 1976, Sulfur isotopes in the porphyry copper deposit at El Salvador, Chile: Economic Geology, v. 71, p. 1533-1548. A

Filimonova, L.E., 1972, Selenium and tellurium in the Boshchekul copper-molybdenum deposit: Geochernistry International, v. 9, no. 1, p. 151-156 (English translation).

Fisher, F.S., and Leedy, W.P., 1973, Geochemical characteristics of mineralized breccia pipes in the Red Mountain district, San Juan Mountains, Colorado: U.S. Geol. Survey Bull. 1381, 43 p.

Fleischer, M., 1959, The geochemistry of rhenium with special reference to its occurrence in molybdenite: Economic Geology, v. 54, p. 1406-1413.

-------- 1960, The geochemistry of rhenium: Economic Geology, v. 55, p. 607-609.

Fleming, A.W., and Neale, T.I., 1979, Geochemical exploration at Yandera porphyry copper prospect, Papua New Guinea: Journal of Geochernical Exploration, v. 11, no. 1, p. 33-51.

Fleming, 0. W., Handley, G.A., Williams, K.L., Hills, A.L., and Corbett, G. J., 1986, The Porgera gold deposit, Papua New Guinea: Econonic Geology, v. 81, p. 660-680.

Fletcher, R.J., 1980, Mount Cannindah porphyry-Cu deposit, Yarrol basin, aid: Journal of Geochernical Exploration, v. 12, no. 2/3, p. 331-335.

Flores, N.G., 1977, Geochernical prospecting for disseminated copper in northern Peru, in Geol. Publ. Esp. no. 7: Venezuela Dir. Geol. Bol. v. 4, p. 3060-3076. (in Spanish).

Forbes,W.C. and Flower, M.F.J., 1974, Phase relations of titanphlogopite, K2Mg4TiAI2Si6020(OH)4: a refractory phase in the upper mantle?: Earth and Planetary Science Letters, v. 22, p.60-66.

Ford, J.H., 1978, A chemical study of alteration at the Panguna porphyry copper deposit, Bougainville, Papua New Guinea: Econ. Geology, v. 73, p. 703-720.

Fortier, S.M. and Giletti, B.J., 1989, An empirical model for predicting diffusion coefficients in silicate minerals: Science, v. 345, p.1481-1484. A

Foss, D.W., Gaudette, H.E., and Scherffius, W.E., 1974, A porphyry-type occurrence in the Keene gneiss dome, Westmoreland, New Hampshire (abs.): Mining Engineering, v. 26, no. 12, p. 78 (also published in Economic Geology, v. 70, no. 1, p. 244).

Foster, M.D., 1962, Interpretation of the composition and a classif ication of the chlorites: U.S. Geological Survey Professional Paper, no. 414-A., 33 p.

Fournier, R.O., 1973, Silica in thermal waters: Laboratory and Field investigations; in Proceedings of International Symposium on Hydrogeochemistry and Biogeochemistry, Japan 1970, Volume 1, Hydrogeochemistry: J.W. Clark (publisher), Washington, D.C., p. 122-39.

-------- 1976, Exchange of Na+ and K+ between water vapor and feldspar phases at high temperature and low-vapor pressure: Geochimica et Cosmochimica Acta, v. 40, p. 1553-1561.

-------- 1979, Geochemical and hydrological considerations and the use of enthalpy-chlo ride diagrams in the prediction of underground conditions in hot-spring systems: Journal Volcanology Geothermal Research, V. 5, p. 1-16.

-------- 1981, Application of water geochemistry to geothermal exploration and reservoir engineering; in Rybach, L., and Muffler, L.P.J. (eds.), Geothermal Systems: Principles and Case Histories: John Wiley and Sons, New York, p. 109-143.

-------- 1983a, Self-sealing and brecciation resulting from quartz deposition within hydrothermal systems: Extended abstracts, Fourth International Symposium on Water-Rock interaction, Misasa, Japan, p. 137-140.

-------- 1983b, A method of calculating quartz solubilities in aqueous sodium chloride solutions: Geochimica et Cosmochimica Acta, v. 47, p. 579-586.

-------- 1985, Silica minerals as indicators of conditions during gold deposition; in Tooker, E.W. (ed.), Geologic Characteristics of the Sediment- and Volcanic-hosted Types of Gold Deposits--Search for an Occurrence Model: U.S. Geological Survey, Bulletin 1646, p. 15-26.

-------- 1985, The behavior of silica in hydrothermal solutions; in Berger, B.R., and Bethke, P.M. (eds.), Geology and Geochernistry of Epithermal Systems: Society of Economic Geologists, Review in Economic Geology, v. 2, p.45-61.

Fournier, R.O., and Marshall, W.L., 1983, Calculation of amorphous silica solubilities at 25* to 300* C and apparent hydration numbers in aqueous saft solutions using the concept of effectively density of water: Geochimica et Cosmochimica Acta, v. 47, p. 587-596.

Fournier, R.O., and Potter, R.W., 1982, A revised and expanded silica (quartz) geothermometer: Geothermal Resources Council Bulletin, v. 11, p. 3-9.

-------- 1982a, An equation correlating the solubility of quartz in water from 25* to 900*C at pressures up to 10,000 bars: Geochimica et Cosmochimica Acta, v. 46, p. 1969-1973.

-------- 1982b, A revised and expanded silica quartz geothermometer: Bulletin Geothermal Resources Council, v. 11, no. 10, p. 3-12.

Fournier, R.O., and Rowe, J.J., 1966, Estimation of underground temperatures from the silica content of water from hot springs and wet-steam wells: American Journal of Science, v. 264, p. 685-697.

-------- 1977, The solubility of amorphous silica in water at high temperatures and high pressures: American Mineralogist, v. 62, p. 1052-1056.

Fournier, R.O., and Truesdell, A.H., 1970, Chemical indicators of subsurface temperature applied to hot-spring waters of Yellowstone National Park, Wyoming; in Proceedings from the United Nations Symposium on the Development and Utilization of Geothermal Resources: Geothermics (Special Issue 2), v. 2, Part 1, p. 529-535.

-------- 1973, An empirical Na-K-CA geothermometer for natural waters: Geochimica et Cosmochimica Acta, v. 37, p. 1255-1275.

-------- 1974, Geochernical indicators of subsurface temperature, pt. 2. Estimation of temperature and fraction of hot water mixed with cold water: U.S. Geol. Survey Journal. Research, v. 2, p. 263-269.

Francke, W., Jelinski, B. and Zarei, M., 1982, Hydrothermal synthesis of an ephesite-like sodium mica: Neues Jahrbuch fur Mineralogie, Monatshefte, p. 337-340.

Frank, D., 1983, Origin, distribution, and rapid removal of hydrothermally formed clay at Mount Baker, Washington: U.S. Geol. Survey Prof. Paper 1022-E, 31 p.

Franklin, J.M., Lydon, J.W., and Sangster, D.F., 1981, Volcanic-associated massive sulfide deposits, in Economic Geology Seventy-Fifth Anniversary Volume, 1905-1980: B.J. Skinner, ed., p. 485-627.

Frisken, J.G., Turner, R.L., Billings, T.M., Monroy, G., and Ponce, B., 1977a, Map showing distribution pattern of copper from samples of -80 mesh stream sediment, northern Sonora, Mexico: U.S. Geological Survey Open-File Report 77-338.

-------- 1977b, Map showing distribution pattern of molybdenum from samples of the non-magnetic fraction of heavy-mineral concentrates, northern Sonora, Mexico: U.S. Geological Survey Open-File Report 77-332.

Frost, J.E., 1959, Notes on the genesis of the ore-bearing structures of the Paracale district, Carnarines Norte, Philippines: Philippine Geologist, v. 13, p. 31-43.

Fyfe, W.S., and Kerrich, R., 1984, Gold: natural concentration processes; in Foster, R.P. (ed.), Gold '82, The Geology, Geochemistry, and Genesis of Gold Deposits, Geological Society of Zimbabwe Special Publication No. 1, p. 99-128.

Fyfe, W.S., and McKay, D.S., 1962, Hydroxyl ion catalysis of the crystallization of amorphous silica at 330*C and some observations on the hydrolysis of albite solutions: American Mineralogist, v. 47, p. 83-89.

Gaal, G. and Isohanni, M., 1979, Characteristics of igneous intrusions and various wall rocks in some Precambrian porphyry copper-molybdenum deposits in Pohjanmaa, Finland: Economic Geology, v. 74, p. 1198-1210.

Garcia, H.H., 1970, Geology of the Bajo las Pampitas porphyry copper deposit, Belen Department, Catamarca Province, Argentina: Rev. Asoc. Geol. Argent., v. 25, p. 319-328 (in Spanish).

-------- 1975, Use of molybdenum as a guide in porphyry copper exploration, in Angelilli, V., ed., First national symposium on economic geology: Buenos Aires, Argentina, Ed. Cientificas Arg. Librart., p. 227-232. (in Spanish).

Garrels, R.M., 1984, Montmorillonite/illite stability diagrams: Clays and Clay Minerals, v. 32, p. 161-166. A

Garrels, R.M., and Christ. C.L., 1965, Solutions, Minerals and Equilibria: New York, Harper and Row, 450 p. A

Giggenbach, W.F., 1980, Geothermal mineral equilibria: Geochima et Cosmochimica Acta, v. 44, p. 2021-2032.

-------- 1981, Geothermal mineral equilibria: Geochima et Cosmochimica. Acta, v. 45, p. 393-410.

-------- 1984, Mass transfer in hydrothermal alteration systems: Geochima et Cosmochimica. Acta, v. 48, p. 2693-2711.

Gilmour, P., 1977, Mineralized intrusive breccias as guides to concealed porphyry copper systems: Economic Geology, v. 72, no. 2, p. 290-298.

Gieeson, C.F., and Brummer, J.J., 1976, Reconnaissance stream sediment geochemistry applied to exploration for porphyry Cu-Mo deposits in southwestern Yukon Territory: Canadian Institute of Mining and Metallurgy Bulletin, v. 69, p. 91-103.

Goldschmidt, V.M., 1911, Die kontakmetamorphose im Kristianiagebiet: Kristiania Vidensk. Skr., 1, Math-Natury. K1. 11.

Golovanov, I.M. and Tsoi, A.V., 1974, Vertical zoning of mineral veinlets in copper-porphyry deposits of Almalyk in Uzbekistan (abs.): Economic Geology, v. 71, no. 6, p. 1070 (Original article in Russian).

Gott, G.B. and McCarthy, J.H., Jr., 1966, Distribution of gold, silver, tellurium, and mercury in the Ely Mining District, White Pine County, Nevada: U.S. Geological Survey Circular 535, 5 p.

Gott, G.B., McCarthy, J.H., Jr., Oda, Uteana, Lakin, H. W., and Thompson, C.E., 1966, Preliminary report comparing geochemical halos around an exposed and a concealed copper deposit, in CENTO seminary on field techniques for mineral investigations, Iran, 1965: Ankara, Turkey, Office of U.S. Coordinator CENTO Affairs, p. 133-144.

Govett, G.J.S. and Hale, W.E., 1967, Geochemical orientation and exploration near a disseminated copper deposit, Luzon, Philippines: Institute of Mining and Metallurgy Transactions, v. 76, p. 13190-13201 (discussion: IMM Trans. v. 77, p. 13134-13135).

Graham, C.M., Sheppard, S.M.F., and Heaton, T.H.E., 1980, Experimental hydrogen isotope studies--I. systematics of hydrogen isotope fractionation the systems epidote-H20, zoisite-H20, and AIO(OH)-H20: Geochimica et Cosmochimica Acta, v. 44, p. 353-364. A

Grant, J.N., and Nielsen, R.L., 1975, Geology and geochronology of the Yandera porphyry copper deposit, Papua New Guinea: Econ. Geology, V. 70, p. 1157-1174.

Graton, L.C. and Bowditch, S. 1., 1936, Alkaline and acid solutions in hypogene zoning at Cerro de Pasco: Econ. Geology, v. 31, p. 651-698.

Gravel, J.L. and Sibbick, S.J., 1991, Geochernical dispersion in complex glacial drift at the Mount Milligan copper-gold porphyry deposit (93N/1 E, 930/4W), in Exploration in British Columbia, 1990: Victoria, British Columbia Ministry of Energy, Mines and Petroleum Resources, p. 117-134.

Graybeal, F.T., 1982, Geology of the El Tiro area, Silver Bell mining district, Pima County, Arizona, in Titley, S.R., ed., Advances in Geology of the Porphyry Copper Deposits, Southwestern North America: Tucson, University of Arizona Press, p. 487-505.

-------- 1973, Copper, manganese, and zinc in coexisting mafic minerals from Laramide intrusive rocks in Arizona: Economic Geology, v. 68, no. 6, p. 785-798.

Greenwood, H.J., 1963, The synthesis and stability of anthophyllite: Journal Petrology, v. 4, p. 317-351.

Griffiths, G.H., 1974, Guadalcanal, in Porphyry copper deposits of the Southwest Pacific: Sydney, Geological Society of Australia, p. 32-38.

Grindley, G.W., 1960, Taupo geological map of New Zealand, 1: 250,000, 1st ed.: Wellington, New Zealand Dept. Sci. Indus. Research, sheet 8.

-------- 1961, Taupo geological map of New Zealand 1:63, 360, 1st ed.: Wellington, New Zealand Dept. Sci. Indus. Research, sheet N94. A

-------- 1965, The Geology, Structure, and Exploitation of the Wairakei Geothermal Field, Taupo, New Zealand: New Zealand Geol. Survey Bull., new serv., v. 75, 131 p..

Grindley, G.W., and Browne, P.R.L.., ms. 1968, The sub-surface geology of the Broadlands geothermal field: New Zealand Geol. Survey Rept. 34 (unpubl. open file rept.). A

Guidotti, C.V., 1984, Micas in metamorphic rocks, ja Bailey, S.W., ed., Micas: Mineralogical Society of America, Reviews in Mineralogy, v. 13, p. 357-467. A

Guilbert, J.M., and Lowell, J.D., 1968, Potassic alteration in porphyry copper deposits (abs): Geol. Soc. America Spec. Paper No. 121, p. 120.

-------- 1974, Variations in zoning patterns in porphyry ore deposits: Canadian Inst. Mining Metall. Bull., v. 67, no. 2, p. 99-109.

Guilbert, J.M., and Schafer, R.W., 1979, Preliminary geochemical characterization of muscovites in porphyry base-metal alteration assembles, in Papers on mineral deposits of Western North America: Ridge, J.D., ed., Nevada Bureau Mines Geology Report 33, p. 57-68.

Gulian, E., Vardanian, K., and Ohanesian, R., 1979, The geochemical prognosis of the latent copperpolymetallic mineralization in North Armenia, j[L Mma, F., Cadek, J., and Pavlu, D., eds., Methods of geochemical prospecting, International symposium on the methods of geochemical prospecting, Ostrava, Czechoslovakia, Sept. 1979: Prague, Geological Survey Prague, p. 31-36.

Gunton, J.E., 1974, Geochemical dispersion associated with porphyry-type mineralization in the Canadian Cordillera: Queen's University, Kingston, Ontario, unpub. Ph.D. Dissertation.

Gunton, J.E., and Nichol, Ian, 1975, Chemical zoning associated with the Ingerbelle-Copper Mountain mineralization, Princeton, British Columbia, j[j Elliott, I.L., and Fletcher, W.K., eds., Geochemical exploration 1974, Proceedings of the Fifth International Geochemical Exploration Symposium, Vancouver; Association of Exploration Geochemists Special Publication no. 2: New York, Elsevier Scientific Publishing Co., p. 297-312.

Gustafson, L.B., and Hunt, J.P., 1975, The porphyry copper deposits at El Salvador, Chile: Econ. Geology, v. 70, p. 857-912.

Haas, J. L., Jr., 1976, Physical properties of the coexisting phases and thermochernical properties of H20 component in boiling NaCL solutions: U.S. Geological Survey, Bulletin 1421 -A, 73 p. 4

Hall, W.E., Friedman, I., and Nash, J.T., 1974, Fluid inclusion and light stable isotope study of the Climax molybdenum deposits, Colorado: Econ. Geology, v. 69, p. 884-901.

Hamil, B.M. and Nackowski, M.P., 1971, Trace-element distribution in accessory magnetite from quartz monzonite intrusives and its relation to sulphide mineralization in the Basin and Range province of Utah and Nevada - a preliminary report, in Boyle, R.W., ed., Geochernical exploration: Proceedings, 3rd International Geochemical Exploration Symposium, Toronto: Canadian Institute of Mining and Metallurgy Special Volume 11, p. 331-333.

Hamilton, J.M. Bishop, D.T., Morris, H.C., and Owens, O.E., 1982, Geology of the Sullivan orebody Kimberley, B.C., Canada, in Precambrian sulphide deposits, H.S. Robinson Memorial Volume: edit. R.W. Hutchinson, C.D. Spence, and J.M. Franklin, Geol. Assoc. Canada Spec. Paper 25, p. 597-665.

Handley, G. A., and Bradshaw, P.M.D., 1986, The Porgera gold deposit, Papua New Guinea, in MacDonald, A.J., ed. Gold'86: Willowdale, Ontario, Konsult Internat. Inc., p. 416-424.

Harder, H., 1975, Contribution to the geochemistry of boron. 1. Boron in minerals and igneous rocks, in Walker, C.T., ed. Geochemistry of Boron: Benchmark Papers in Geology, Dowden, Hutchinson, Ross, Inc., v. 23, 47-63. A

Harvey, R.D., and Vitaliano, C.J., 1961, Wall rock alteration in the Goldfield district, Nevada: Geol.. Soc. Amer. Special Paper 69 (abs.), p. 194.

Harvey, R.D., 1961, Wall-rock afteration in the Goldfield district, Nevada: Jour. Geology, v. 72, p. 564579.

Hassaan, M.M. and EI-Hawary, M.A., 1985 [1989], Geochernical exploration in northern Eastern Desert: 11, Modes of occurrence of copper and molybdenum in geochernical dispersion aueroles at Um Balad and Dara: Annals of the Geological Survey of Egypt, v. 15, p. 159-170.

Hausen, D.M., and Kerr, P.F., 1971, X-ray diffraction methods of evaluating potassium silicate alteration in porphyry mineralization, in Boyle, R.W., ed., Geochernical exploration, Proceedings, 3rd International Geochernical Exploration Symposium, Toronto: Canadian Institute of Mining and Metallurgy Special Volume 11, p. 334-340

Hausen, D.M., and Kerr, P.F., 1968, Fine gold occurrence at Carlin, Nevada, in Ore deposits of the United States, 1933-1967, the Graton-Sales Volume: J.D. Ridge, ed., v. 1, p. 908-940.

Hausen, D.M., and Park, W.C., 1986, Observations on the association of gold mineralization with organic matter in Carlin-type ores, in Dean, W.E., ed., Organics and ore deposits: Wheatridge, Colorado, Denver Region Exploration Geologists Society, Symposium Proceedings, p. 119-136.

Hayba, D.O., Bethke, P.M., Heald, P., and Foley, N.K., 1985, Geologic, mineralogic and geochernical characteristics of volcanic-hosted epithermal precious-metal deposits; in Berger, B.R., and Bethke, P.M. (eds.), Geology and Geochernistry of Epithermal Systems: Society of Economic Geologists, Review in Economic Geology, v. 2.

-------- 1985, Geologic, mineralogic and geochernical characteristics of volcanic-hosted epithermal precious-metal deposits: Rev. Econ. Geology, v. 2, p. 129-167.

Hayes, J. B., 1970, Polytypism of chlorfte in sedimentary rocks: Clays and Clay Minerals, v. 18, p. 285-306.

Heald-Wetiaufer, P., Hayba, D.O., Foley, N.LK., and Goss, J. A., 1983, Comparative anatomy of epithermal precious- and base-metal districts hosted by volcanic rocks: U.S. Geological Survey, Open-File Report 83-710, 16 p.

Hazen, R.M. and Wones, D.R., 1972, The effect of cation substitutions on the physical properties of trioctahedral micas: American Mineralogist, v. 57, p. 103-129.

Heald, P., Foley, N.K., and Hayba, D.O., 1987, Comparative anatomy of volcanic-hosted epithermal deposits: Acid-suffate and adularia-sericite types; Econonic Geology, v. 82, p. 1-26.

Hedenquist, J.W., 1986, Geothermal systems in the Taupo volcanic zone: Their characteristics and relation to volcanism and mineralization: Royal Soc. New Zealand Bull., v. 23, p. 134-168.

-------- 1987, Mineralization associated with volcanic-related hydrothermal systems in the Circum-Pacific basin, in Horn, M.K., ed., Circum-Pacific Energy and Mineral Resources Conference, 4th Singapore 1986, Trans.: Tulsa, Oklahoma, Am. Assoc. Petroleum Geologists, p. 513-524.

Hedenquist, J.W., Matsuhisa, Y., Izawa, E., Marumo, K., Aoko, M., and Sasaki, A., 1988, Epithermal gold mineralization of acid-leached rocks in the Nansatsu district of southern Kyushu, Japan: Geol. Soc. Australia Abstracts, no. 22, p. 183-190.

Helgeson, H.C., 1969, Thermodynamics of hydrothermal systems at elevated temperatures and pressures: American Journal of Science, v. 267, p. 729-804.

Helgeson, H.C., Delany, J.M., Nesbitt, H.W. and Bird, D.K., 1978, Summary and critique of the thermodynamic properties of rock-forming minerals: American Journal of Science, v. 278-A, 229P.

Hemley, J.J., and Jones, W.R., 1964, Chemical aspects of hydrothermal alteration with emphasis on hydrogen metasomatism: Econonic Geology, v. 59, p. 538-569.

Hemley, J.J., Montoya, J.W., Nigrini, A., and Vincent, H.A., 1971, Some alteration reactions in the system CaO-Al 203-siO2 -H 20: Society of Mining Geology Japan, Special Issue 2, p. 58-63. Heald, P., Foley, N.K., and Hayba, D.O., 1987, Comparative anatomy of volcanic-hosted epithermal deposits: Acid-suffate and adularia-sericite types; Econonic Geology, v. 82, p. 1-26.

Hemley, J.J., Montoya, J.W., Christ, C.L. and Hostetler, P.B., 1977, Mineral equilibria in the MgO-SiO2-H20 system: 1. Talc-chrysotile-forsterhe-brucfte stability relations: American Journal of Science,v. 277, p.322-335.

Hemley, J.J., Montoya, J.W., Shaw, D.R..and Luce, R.W., 1977b, Mineral equilibria in the MgO-SiO2-H2O system: 11. Taic-antigorfte4orstedte-anthophyllite-enstatite stability relations and some geologic implications in the system: American Journal of Science, v. 277, p. 353-383.

Hemley, J.J., 1959, Some mineralogical equilibria in the system K20-A1203-si02-H20: Am. Journ. Sci., v. 257, p. 241-270.

Hemley, J.J., and Hostetler, P.B., 1963, Discussion of Facies and types of hydrothermal alteration: Econ. Geology, v. 58, P. 808-811.

Hemley, J.J., Montoya, Marinenko, J.W., and Luce, R.W., 1980, Equilibria in the system A1203-siO2-H20 and some general implications for atteration/mineralization processes: Econ. Geology, v.75, p. 210-228.

Henderson, F.B., 1969, Hydrothermal alteration and ore deposition in serpentinite-type mercury deposits: Economic Geology, v. 64, p. 489-499.

Hendry, D.A.F., Chivas, A.R., Reed, S.J.B., and Long, J.V.P., 1982, Geochernical evidence for magmatic fluids in porphyry copper mineralization: Part 11, Ion-probe analysis of Cu contents of mafic minerals, Koloula igneous complex: Contributions to Mineralogy and Petrology, v. 78, no. 4, p. 404-412.

Henley, R.W., 1985, The geothermal framework for epithermal deposits, in Berger, B.R., and Bethke, P.M., eds., Geology and geochemistry of epithermal systems: Rev. Econ. Geology, v. 2, p. 1-24.

-------- 1989, Ore transport and deposition in epithermal environments: Geol. Soc. Australia Spec. pub., in press.

Henley, R. W., and Brown, K.L., 1985, A practical guide to the thermodynamics of geothermal fluids and hydrothermal ore deposits: rev. Econ. Geology, v. 2, p. 25-44.

-------- 1985, A practical guide to the chemistry of geothermal and epithermal systems; in Berger, B.R., and Bethke, P.M., eds., Geology and geochemistry of epithermal systems: Society of Economic Geology, Reviews in Economic Geology, v. 2.

Henley, R. W., and McNabb, A., 1978, Magmatic vapor plumes and ground-water interaction in porphyry copper emplacement: Econonic Geology, v. 73, p. 1-20.

Henley, R. W., Truesdell, A.H., Barton, P.B., Jr., and Whitney, J.A., 1984, Fluid-mineral equilibria in hydrothermal systems: Rev. Econ. Geology, v. 1, 267 p.

Henley, R.W., and Ellis, A.J., 1983, Geothermal systems ancient and modern: A geochemical review: Earth-Sci. Rev., v. 19, p. 1-50.

Herbert, H., (ed.), Stable Isotopes and Fluid processes in Mineralization Geology Society Australia Spec. pub., in press.

Hervig, R.L. and Peacock, S.M., 1989, Water and trace-eiements in coexisting muscovite and biotite from metamorphic rocks: EOS, v. 70, p. 490.

Hetherington, M.J., 1982, Progress report of the ongoing study of the nature and origin of the "opalite breccia" at the McDermitt mine, Nevada: University of Washington Department of Geological Sciences.

Hewitt, W.P., 1968, Geology and mineralization of the main mineral zone of the Santa Eulalia district, Chihuahua, Mexico: Soc. Min. Trans. A.I.M.E., v. 241, p. 228-260.

Heydeman, A.. 1964, Untersuchungen uber die bildungsbeidugungen von quartz imtemperatubereich zwischen 100*C and 250*C: Beftrage zur Mineralogie und Petrographie, v. 10, p. 242-259.

Hillier, S. and Velde, B., 1991, Octahedral occupancy and the chemical composition of diagenetic (lowtemperature) chlorites: Clay Mineralogy, v. 26, p. 149-168.

Hine, R., Bye, S.M., Cook, F.W., Leckie, J.F., and Torr, G.L., 1978, The Esis porphyry copper deposit, East New Britain, Papua New Guinea: Econ. Geology, v. 73, p. 761-767.

Hinkle, M.E. and Dilbert, C.A., 1984, Gases and trace elements in soils at the North Silver Bell deposit, Pima County, Arizona: Journal of Geochernical Exploration, v. 20, no. 2, p. 323-336.

Hochella, M.F., Jr., Liou, J.G., Keskinen, M.J., and Kim, H.S., 1982, Synthesis and stability relations of magnesium vesuvianite: Econ. Geology, v. 77, p. 798-808.

Hodgson, C.J., 1975, The geology and geological development of the Broken Hill lode in the New Broken Hill Consolidated mine, Australia; Part 11, Mineralogy: Geological Society of Australia, Journal, v. 22, p. 33-50.

Hoish, T.D., 1989, A muscovite-biotite geothermometer: American Mineralogist, v. 74, p. 565-572.

Holland, H.D., and Malinin, S.D. 1979, On the solubility and occurrence of non-ore minerals; in Barnes, H.L. (ed.), Geochemistry of Hydrothermal Ore Deposits, 2nd Edition: John Wiley and Sons, New York, p. 461-508.

Hollister, V.F., 1978, Geology of the porphyry copper deposits of the Western Hemisphere: New York, Am. Inst. Mining Metall. Petroleum Engineers, 219 p.

Hollister, V.F., Potter, R.R., and Barker, A.L., 1974, Porphyry type deposits of the Appalachian Orogen: Econ. Geology, v. 69, p. 618-630.

Honda, S., and Muffler, L.J.P., in press. Hydrothermal alteration in core form research drillhole Y-1, Upper Geyser Basin, Yellowstone National Park.

Hoschek, G., 1973, Zur stabilitat metamorpher biotit-paragensen: Tschermaks Mineralogische und Petrographische Mitteilung, v. 20, p. 48-58.

Howard, K.L., Jr., 1976, Geology of the Yerington mine, Lyon County, Nevada (abs.): Econ. Geology, v. 71, p. 700. Hemley, J.J., Montoya, J.W., Christ, C.L. and Hostetler, P.B., 1977a, Mineral equilibria in the MgO-SiO2-H20 system: 1. Talc-chrysotile-forsterhe-brucfte stability relations: American Journal of Science,v. 277, p.322-335.

Howard, K.L., Jr., 1976, Geology of the Yerington mine, Lyon County, Nevada (abs.): Econ. Geology, v. 71, p. 700. Hower, J., Eslinger, E.V., Hower, M.E. and Perry, E.A., 1976, Mechanism of burial metamorphism of argillaceous sediment: 1. Mineralogical and chemical evidence: Geological Society of America Bulletin, v. 87, p. 725-737.

Huang, W.L., Longo, J.M. and Pevear, D.R., 1993, An experimentally derived kinetic model for smectite-to-illite conversion and its use as a geothermometer: Clays and Clay Minerals, v. 41, p. 162-177.

Hung, CK, 1955, Gold-copper deposits of the Chinkuashih mine, Taiwan, with special reference to the mineralogy: Acta Geol. Taiwanica, v. 7, p. 1-20.

Hunt, R.N., 1963, The zonal distribution of metals in the Lark and US Mine, Bingham, Utah: Mining Engineering, v. 15, no. 8, p. 53-54.

lbbotson, P., 1967, Petrology of the Tertiary caldera, Tavua goldfield: Fiji Geol. Survey Dept. Mem. 3, 59 P.

lijima, A., 1988, Diagenetic transformations of minerals as exemplified by zeolites and silica minerals- A Japanese view, in Chilingarian, G.V., and Wilf, K.H., eds. Diagenesis [I: Developments in Sedimentology, v. 43, p. 147-211. A

Ilchik, R.P., Brimhall, G.H., and Schull, H.W., 1986, Hydrothermal maturation of indigenous organic matter at the Alligator Ridge gold deposits, Nevada: Econ. Geology, v. 81, 113-130.

Imai, H., and Yamazaki, S., 1967, Hydrothermal dolomite-rocks associated with hematite deposits of the Akatani mine, Nigata Prefecture, northeastern Japan: Waseda University School Science Engineering, Memoir 31, p. 11 -63.

Ishihara, S., 1977, The magnetite-series and ilmenite-series granitic rocks: Mining Geology, v. 27, p. 293-305.

lvlev, R.R., Mitrofanskiy, V.F., Kiselev, A.K., Sertigko, Yu A., and Romanov, V.S., 1988, Volumetric geochernical zoning of the Aktogay porphyry copper deposit, ja Grigoryan, S.V. and Mukhitdinov, G.N., eds., Geological criteria for the prediction and evaluation of ore deposits: Moscow, Izd. Naukaa, p. 73-80. (in Russian).

Iwao, S., 1970, Clay and silica deposits of volcanic affinity in Japan, in Volcanism and ore genesis, ed. Tatsumi, T.: Tokyo, Univ. of Tokyo Press, 448 p.

Iwasaki, I., and Ozawa, T., 1960, Genesis of sulfate in acid hot springs: Bulletin Chemical Society of Japan, v. 33, p. 1018-1019.

Jacobs, D.C. and Parry, W.T. , 1973, Geochemistry of biotites; from porphyry copper deposits (abs.): Economic Geology, v. 68, no. 7, p. 1215-1216.

Jacobs, D.C. and Parry, W.T. , 1976, A comparison of the geochemistry of biotite from some Basin and Range Stocks: Economic Geology, v. 71, no. 6, p. 1029-1035.

Jacobs, D.C. and Parry, W.T. , 1979, Geochemistry of biotite in the Santa Rita porphyry copper deposit, New Mexico: Economic Geology, v. 74, p. 860-887.

Jahren, J.S., 1991. Evidence of Ostwald ripening related recrystallization of diagenetic chlorites from reservoir rocks offshore Norway: Clays and Clay Minerals, v. 26, p. 169-178. A

Jahren, J.S. and Aagaard, P., 1989, Compositional Variations in Diagenetic Chlorites and Illites, and Relationships with Formation - Water Chemistry: Clay Minerals, v. 24, p. 157-170. A

Jambor, J.L., 1974, Trace element variations in porphyry copper deposits, Babine Lake area, B.C.: Geological Survey of Canada Paper 74-9, 30p.

James, A.H., Smith, W.H., and Bray, R.E., 1961, Bingham district - a zoned porphyry ore deposit, in Cook, D.R., ed., Geology of the Bingham mining district and northern Oquirrh Mountains: Utah Geological Society Guidebook 16, p. 81 -100.

James, L. P., 1976, Zoned alteration in limestone at porphyry copper deposits, Ely, Nevada: Econ. Geology, v. 71, p. 488-512.

James, L. P., 1986, Geochernical and geological exploration for gold-copper deposits in southern Luzon, The Philippines (abs.): Journal of Geochemical Exploration, v. 25, no. 1-2, p. 241.

Jannas, R.R., Beane, R.E., Ahler, B.A., and Brosnahan, D.R., 1990,. Gold and copper mineralization at the El Indio deposit, Chile. In: J.W. Hedenquist, N.C. White and G. Siddeley (eds.), Epithermal Gold Mineralization of the Circum-Pacific: Geology, Geochemistry, Origin and Exploration, 11. Journal of Geochemical Exploration, v. 36, no. 1-3, p. 233-266.

Jensen, M.L., Ashley, R.P., and Albers, J.P., 1971, Primary and secondary sulfates at Goldfield, Nevada: Econonic Geology, v. 66, p. 618-626.

Johan, Z. and Le Bel, L., 1980, Sulfur isotope geochemistry and its contribution to understanding the genesis of porphyry copper mineralization, j[L Johan, Z., ed., Mineralization associated with granitoids, Memoir 99: Orleans, France, BRGM, p. 151-161. (in French).

John, E.C., 1978, Mineral zones in the Utah copper ore body: Econ. Geology, v. 73, p. 1250-1259.

Johnson, C.A., Rye, D.M., and Skinner, B.J., 1990, Petrology and stable isotope geochernistry of the metamorphosed zinc-iron-manganese deposit at Sterling Hill, New Jersey: Economic Geology, v. 85, p. 1133-1161.

Johnson, J. W. and Norton, D., 1985, Theoretical prediction of hydrothermal conditions and chemical equilibria during skarn formation in porphyry copper systems: Economic Geology, v. 80, p. 1797-1823.

Johnson, V.Y. and Keith, J.D., 1991, Petrology and geochemistry of the Springer scheelite skarn deposit, Mill City, Nevada, in Raines, G.L., Lisle, R.E., Schafer, R.W., and Wilkinson, W.H., eds., Geology and Ore Deposits of the Great Basin: Geological Society of Nevada, Reno, v. 1, p. 553-578.

Jolliff, B.L., Papike, J.J. and Shearer, C.J., 1987, Fractionation trends in mica and tourmaline as indicators of pegmatite internal evolution: Bob Ingersoll Pegmatite, Black Hills, South Dakota: Geochimica et Cosmochimica Acta, v. 51, p. 519-534.

Jones, B.K., 1992, Application of metal zoning to gold exploration in porphyry copper systems: Journal of Geochernical Exploration, v. 43, no. 2, p. 127-155.

Jones, J.B., and Segnit, E. R., 1971, The nature of opal. 1. Nomenclature and constituent phases: Journal of Geological Society of Australia. v. 18, p. 57-68.

Jowett, E.C., 1991, Fitting iron and magnesium into the hydrothermal chlorite geothermome Association of Canada/Mineralogical Association of Canada Joint Annual Meeting, Toronto '91, Program with Abstracts, v. 16, p.A62. A

Kacandes, G.H., Barnes, H.L. and Kump, L.R., 1992, Illitization by tetrahedral exchange: Evidence from laboratory flow-through experiments: Geological Society of America Abstracts and Programs, v. 24, p. 170.

Kamili, R. J., and Ohmoto, H., 1977, Paragenesis, zoning, fluid inclusion, and isotopic studies of the Finlandia Vein, Colqui district, central Peru: Economic Geology, v. 72, p. 950-982.

Kamiya, H., Ozaki, A., and Imahashi, M., 1974, Dissolution rat of powdered quartz in acid solution: Geochernical Journal, v. 8, p. 21-26.

Kano, K., and Taguchi, K., 1982, Experimental study on the ordering of opal-CT: Geochernical Journal, v. 16, p. 33-41.

Karamyan, K.A., 1962, Correlatives between rhenium, selenium, and tellurium in the molybdenites of the Kadzaran copper-molybdenum deposit: Geochernistry International, v. 2, p. 194-198.

Karimpour, M.H., 1982, Petrology, geochemistry, and genesis of the A.0. porphyry copper complex in Jackson and Grand counties, northwestern Colorado: University of Colorado, unpub. Ph.D. Dissertation, 551 p.

Karimpour, M.H., and Atkinson, W.W., Jr., 1983, Petrology, geochemistry, and genesis of the A.0. porphyry copper complex in Jackson and Grand counties, northwestern Colorado (abs.), in Abstracts with Programs, GSA Annual Meeting, Indianapolis, Oct.-Nov. 1983: Geological Society of America, v. 15, no. 6, p. 607.

Karlina, I.V., Sergeyeva, N.Y. and Shishakov, V.B., 1979, Possibilities for local microanalysis in geochernical prospecting; the Koksay copper porphyry deposit of southern Hungary, in Polikarpochkin, V.V., ed., Geokhimicheskiye metody poiskov mestorozhdeniy tsvetnykh metallov: Novosibirsk, Izd. Nauka, Sib. Ttd., p. 147-154. (in Russian).

Kastner, M. and Gieskes, J.M., 1983, Opal-A to opal-C transformation: A kinetic study, j[L lijima, A., et al., eds., Siliceous deposits in the Pacific region: Developments in Sedimentology, v. 36, p. 211-228. A

Kastner, M., Keene, J.B., and Gieskes, J.M., 1977, Diagenesis of siliceous oozes. 1. Chemical controls on the rate of opal-A to opal-CT transformation--an experimental study: /Geochimica et Cosmochimica Acta, v. 41, p. 1041-1059.

Kato, Y., 1989, Rare earth elements in the skarn-type deposits in Japan: Mining Geology, v. 39, p. 62.

Kavalieris, L, Walshe, J.L., Halley, S. and Harrold, B.P., 1990, Cone-related gold mineralization in the Pani Volcanic Complex, North Sulawesi, Indonesia: A study of geologic relations, fluid inclusions and chlorke composition: Economic Geology, v. 85, p. 1208-1225. A

Keevil, N.B., 1942, Vapor pressures of aqueous solutions at high temperatures: Jour. American Chem. Soc., v. 64, p. 841-850.

Keith. T.E.C., and Muffler, L.J.P., 1978, Minerals produced during cooling and hydrothermal alteration of ash flow tuff from Yellowstone drill hole Y-5: Journal of Volcanology Geothermal Research, v. 3, p. 373-402.

Kennedy, G.C., 1950, A portion of the system silica-water: Economic Geology, v. 45, p. 629-653

Kents, Paul, 1964, Special breccias associated with hydrothermal developments in the Andes: Econ. Geology, v. 59, 1551-1564.

Kerr, P.F., 1951, Alteration features at Silver Bell, Arizona: Geol. Soc. America Bull., v. 63, p. 451-474.

Kerr, P.F., Brophy, G.P., Dahl, H.M., Green, J., and Woolard, L.E., 1957, Marysvale, Utah, uranium area: Geoi. Soc. America Spec. Paper 64, 212 p.

Kerrick, D.M., 1974, Review of Metamorphic Mixed Volatile (H20-CO2) Equilibria: American Mineralogist, v. 59, p. 729-762.

Kesler, S.E., 1968, Contact-localized ore formation in the Memd mine, Haiti: Economic Geology, v. 63, p. 541-552.

-------- 1971, Cu-Mo-Au abundances in island arc and continental porphyry copper deposits (abs.): Economic Geology, v. 66, no. 6, p. 979.

Kesler, S.E., 1973, Copper, molybdenum, and gold abundances in porphyry copper deposits: Economic Geology, v. 68, no. 1, p. 106-112.

Kesler, S.E., and Issigonis, M.J., 1973, Evaluation and use of Cl, F and H 20 content of igneous biotites as an exploration tool (abs.): Mining Engineering, v. 25, no. 12, p. 47-48.

Kesler, S.E., Issigonis, M.J., Brownlow, A.H., Damon, P.E., Moore, W.J., Northcote, K.E., and Preto, V.A., 1975, Geochernistry of biotites from mineralized and barren intrusive systems: Economic Geology, v. 70, no. 3, p. 559-567.

Kesler, S.E., Issigonis, M.J., and Van Loon, J.C., 1975, An evaluation of the use of halogen and water abundances in efforts to distinguish mineralized and barren intrusive rocks: Journal of Geochernical Exploration, v. 4, no. 2, p. 235-245.

Kleinkopf, M.D., de la Fuente, D.M.F., Raines, G., and O'Leary, D., 1976, Porphyry copper exploration in northern Mexico with special reference to remote sensing, geophysical, and geochernical methods (abs.), in Abstracts: Sydney, 25th International Geological Congress, v. 2, p. 396.

Knauer, J.D., 1975, Bell Copper (Newman), British Columbia (case history): Journal of Geochernical Exploration, v. 4, no. 1, p. 53-56.

Knight, J.E., 1977, A thermochemical study of alunite, enargite, luzonite, and tennantite deposits: Econ. Geology, v. 72, p. 1321-1336.

Koehn, H.H., 1977, The potential usefulness of quartz in geochemical exploration for copper deposits: New Mexico Institute of Mining and Technology, Socorro, unpub. M.Sc. Thesis.

Kosaka, H., and Wakita, K., 1978, Some geologic features of the Mamut porphyry copper deposit, Sabah, Malaysia: Econ. Geology, v. 73, p. 618-627.

Kouharsky, M., and Mirre, J.C., 1976, Mi Vida prospect: a porphyry copper-type deposit in northwestern Argentina: Econ. Geology, v. 71, p. 849-863.

Koval, P.V., Arinbileg, S., and Libatorov, Yu. 1., 1990, Distribution of indicator elements of mineralization in the geochemical field of the Bayan-Ula molybdenum-copper porphyry occurrence (Central Mongolia): Soviet Geology and Geophysics, v. 31, no. 6, p. 90-98.

Koval, P.V., Gotovsuren, A., and Ariunbileg, S., 1989, On prospecting for porphyry copper mineralization in intracratonic mobile zones (Mongol-Okhotsk belt, Mongolian People's Republic): Journal of Geochernical Exploration, v. 32, no. 1-3, p. 369-380.

Kranidotis, P. and MacLean, W.H., 1987, Systematics of chlorite alteration at the Phelps Dodge massive sulfide deposit, Matagami, Ouebec: Economic Geology, v. 82, p. 1898-1911. A

Kristmannsdottir, H., 1978, Alteration of basaltic rocks by hydrothermal activity at 100-300*C, ill Mortland, M.M. and Farmer, V.C., eds. International Clay Conference p. 359-369. A

Krohn, M.D. and Bethke, P.M., 1984, Near-infrared spectral features of ammonium minerals: Applications for remote sensing of hot spring deposits (abs.): Geological Soc. America Abstracts with Programs, v. 16, no. 6, p. 566

Krohn, M.D. , Altaner, S.P., and Hayba, D.O., 1988, Distribution of ammonium minerals at Hg/Au-bearing hot springs deposits: initial evidence from near-infrared spectral properties; in Bulk mineable precious metal deposits of the western United States, ed. Schafer, R.W., Cooper, J.J., and Vikre, P.G.: p. 612-679.

Krupp, R.E., and Seward, T.M., 1987, The Rotokawa geothermal system, New Zealand, An active epithermal gold-depositing environment: Economic Geology, v. 82, p. 1109-1129.

Kuehn, C.A., and Bodnar, R.J., 1984, P-T-X characteristics of fluids associated with the Carlin sediment-hosted gold deposit (abs.), in Geological Society of America Abstracts with program, 1984, v. 16, no.6,p.566.

Kuehn, C.A., and Rose, A.W., 1987, Chemical and mineralogical zonation associated with low pH alteration at the Carlin gold deposit [abs.]: Geol. Soc. America Abstracts with Programs, v. 19, p. 734.

Kulia, J.B., and Anderson, T.F., 1978, Experimental oxygen isotope fractionation between kaolinite and water; in Zartman, R.E. (ed.), Short Papers of the Fourth International Conference, Geochronology, Cosmochronology, Isotope Geology 1978: U.S. Geological Survey, Open-File Report 78-701, p. 234-235.

Kwak, T.A.P. and Tan, T.H., 1981, The geochemistry of zoning in skarn minerals at the King Island Dolphin mine: Economic Geology, v. 76, p. 468-497.

Kwak, T.A.P. and White, A.J.R., 1982, Contrasting W-Mo-Cu and W-Sn-F skarn types and related granitoids: Mining Geology, v. 32, p. 339-351.

Lagache, M. and Weisbrod, A., 1977, The system: Two alkali feldspars-KCI-NaCI-H20 at moderate to higher temperatures and low pressures: Contributions to Mineralogy and Petrology, v. 62, p.77-101.

Lamey, C.A., 1948, Iron Hat (Ironclad) iron-ore deposits, San Bernardino County California: California Division of Mines, Bulletin, v. 129, p. 99-109.

-------- 1961, Contact metasomatic iron deposits of California: Geological Society of America, Bulletin, v. 72, p. 669-678.

Landis, G.P., and Rye, R.O., 1974, Geologic fluid inclusion and stable isotope studies of the Pasto Buena tungsten-base metal ore deposit, northern Peru: Econ. Geology, v. 69, p. 1025-1059.

Lanier, G., Raab, W.J., Folsom, R.B., and Cone, S., 1978, Alteration of equigranular monzonite, Bingham mining district, Utah: Econ. Geology, v. 73, p. 1270-1286.

Layne, G.D. and Spooner, E.T.C., 1991, The JC tin skarn deposit, southern Yukon Territory: 1. Geology, paragenesis, and fluid inclusion microthermometry: Economic Geology, v. 86, p. 29-47.

Layne, G.D., Longstaffe, F.J., and Spooner, E.T.C., 1991, The JC tin skarn deposit, southern Yukon Territory: 11, A carbon, oxygen, hydrogen, and sulfur stable isotope study: Economic Geology, v. 86, p. 48-65.

Leach, T.M., and Bogie, 1., 1982, Overprinting of hydrothermal regimes in the Palimpinon Geothermal Field, southern Negros, Philippines: Proceedings of the Pacific Geothermal Conference, 1982, 4th New Zealand Geothermal Workshop, pt. 1, p. 179-184.

Lehrman, N.J., 1986, The McLaughlin mine, Napa and Yolo Counties, California, in Tingley, J.V., and Bonham, H.F., Jr. (eds.), Nevada-California: Nevada Bureau Mines Geology Report 41, p. 85-89.

Leitch, C.H.B., 1981, Secondary alkali feldspars in porphyry systems: Bull. Canadian Inst. Mining Metallurgy, v. 74, no. 831, p. 83-88.

Lentz, D., 1991, Radioelement distribution in U, Th, Mo, and rare-earth-element pegmatites, skarns, and veins in a portion of the Grenville Province, Ontario, and Quebec: Canadian Journal of Earth Sciences, v. 28, p. 1-12.

Lhotka, P.G., 1988, Geology and geochemistry of gold-bearing iron formation in the Contwoyto LakePoint Lake region, Northwest Territories, Canada: Unpublished Ph.D. thesis, University of Alberta, Edmonton, 265 p.

Lhotka, P.G. and Nesbitt, B.E., 1989, Geology of unmineralized and gold-bearing iron formation, Contwoyto Lake-Point Lake region, Northwest Territories, Canada: Canadian Journal of Earth Sciences, v. 26, p. 46-64.

Licence, P.S., Terrill, J.E., and Fergusson, L.J., 1987, Epithermal gold mineralization, Ambitle Island, Papua New Guinea, in Pacific Rim Congress 87, Gold Coast Queensland 1987, Proc.: Parkville, Australia, Australasian Inst. Mining Metallurgy, p. 273-278.

Lichtner, P.C. and Biino, G.G., 1992, A first principles approach to supergene enrichment of a porphyry copper protore: 1. Cu-Fe-S subsystem: Geochimica et Cosmochimica Acta, v. 56, p. 3987-4013.

Lindgren, W., 1912, The nature of replacement: Econ. Geology, v. 7, p. 521-535.

-------- 1902, The character and genesis of certain contact deposits: American Institute of Mining Engineers, Transactions, v. 31, p. 226-244.

Lipman, P.W., and Steven, T.A., 1970, Reconnaissance geology and economic significance of the Platoro caldera, southeastern San Juan Mountains, Colorado: U.S. Geol. Survey Prof. Paper 700-C, p. C19-C29.

Llambias, E.J., and Malvicini, L., 1969, The geology and genesis of the Bi-Cu mineralized breccia-pipe, San Francisco de los Andes, San Juan, Argentina: Econ. Geology, v. 64, p. 271-286.

Locke, A., 1926, The formation of certain ore bodies by mineralization stoping: Econ. Geology, v. 21, p. 431-453.

Lombardi, G., and Sheppard, S.M.F., 1977, Petrographic and isotopic studies of the altered acid volcanics of the Tolfa-Cerite area, Italy--the genesis of the clays: Clay Minerals, v. 12, p. 147-162. A

Lovering, T.G., 1972, Jasperiod in the United States - its characteristics, origin and economic signif icance: U.S. Geol. Survey Prof. Paper 710, 164 p.

Lovering, T.G., and Hamilton, J.C., 1962, Criteria for the recognition of jasperiod associated with sulf ide ore: U.S. Geol. Survey Prof. Paper 450-C, p. C9-Cl 1.

Lovering, T.G., and Heyl, A.V., 1974, Jasperiod as a guide to mineralization in the Taylor mining district and vicinity near Ely, Nevada: Econ. Geology, v. 69, p. 46-58.

Lovering, T.G., Latkin, H.W., and Hubert, A.E., 1968, Concentration and minor element association of gold in ore-related jasperiod samples: U.S. Geol. Surv. Prof. Paper 600-B, p. B112-B114.

Lowder, G.G., and Dow, J.A.S., 1978, Geology and explanation of porphyry copper deposits in North Sulawesi, Indonesia: Econ. Geology, v. 73, p. 628-644.

Lowell, J.D... and Guilbert, J. M., 1970, Lateral and vertical afteration-mineralization zoning in porphyry ore deposits: Econ. Geology, v. 65, p. 373-408.

Ludington, S., 1978, The biotite-apatite geothermometer revisited: American Mineralogist, v. 63, p.551-553.

Lyons, J.1., 1988, Volcanogenic iron oxide deposits, Cerro de Mercada and vicinity, Durango, Mexico: Economic Geology, v. 83, p. 1886-1906.

Maclnnis, I.N. and Brantley, S.L., 1992, The role of dislocations and surface morphology in calcite dissolution: Geochimica et Cosmochimica Acta, v. 56, -.1113-1126.

MacLean, W.H. and Kranidotis, P., 1987, Immobile elements as monitors of mass transfer in hydrothermal alteration: Phelps Dodge massive sulphide deposit, Matagami, Quebec: Economic Geology, v. 82, p. 951-962.

Mahon W.A.J., 1966, Silica in hot water discharged from drill holes at Wairakei, New Zealand: New Zealand Journal of Science, v. 9, p. 135-144.

Mahon W.A.J., Klyen, L.E., and Rhode, M., 1980, Natural Sodium bicarbonate sulphate hot waters in geothermal systems: Chinetsu (Journal Japanese Geothermal Energy Association), v.17, p. 11--24.

Makrides, A.C., Turner, M., and Slaughter, J., 1980, Study of silica scaling from geothermal brines: Journal of Colloid and Interface Science, v. 73, p. 345-367.

Mancuso, J.J., and Mackovjak, D., 1984, Cavity-filling jasperoids, Lone Mountain gold prospect, northeast Nevada (abs.), jcL Geological Society America Abstracts with program, 1984: v. 16, no. 6, p. 583.

Mann, A. W., 1984a, Mobility of gold and silver in lateritic weathering profiles: Some observations from Western Australia: Econonic Geology, v. 79, p. 38-49.

-------- 1984b, Redistribution of gold in the oxidized zone of some Western Australian deposits, in Goldmining, metallurgy and geology: Australasian Inst. Mining Metallurgy, Perth and Kalgoorlie Regional Conf. October 1984, Proc., p. 1-12.

Marcke de Lummen, G. van, 1988, Oxygen and hydrogen isotope evidence for influx of magmatic water in the formation of W-Mo- and Sn-bearing skarns in pelitic rocks at Costaboone, France, and Land's End, England, ill Zachrisson, E., ed., Proceedings of the 7th Quadrennial IAGOD Symposium: E. Schweizerbart'sche Verlagbuchhandlung, Stuttgart, p. 355-362.

Marshall, W.L., 1980, Amorphous silica solubilities. 11. Activity coefficient relations and predictions of solubility behavior in salt solutions, 0-300*C: Geochimica et Cosmochimica Acta, v. 44, p. 925--931.

Marshall, W.L., and Chen, C.T.A., 1982a, Amorphous silica solubilities. V. Predictions of solubility behavior in aqueous mixed electrolyte solutions to 300'C: Geochimica et Cosmochimica Acta, v. 46, p. 289-291.

-------- 1982b, Amorphous silica solubilities. V1. Postulated sulfate-silicic acid solution complex: Geochimica et Cosmochimica Acta, v. 46, p. 367-370.

Marshall, W.L., and Warakomski, J.M., 1980, Amorphous silica solubilities. 11 Effect of aqueous salt solutions at 25*C: Geochimica et Cosmochimica Acta, v. 44, p. 915-924.

Mason, D.R., and McDonald, J.A., 1978, Intrusive rocks and porphyry copper occurrences of the Papua New Guinea-Solomon Islands region: A reconnaissance study: Econonic Geology, v. 73, p. 857--877.

Massonne, H-J. and Schreyer, W., 1987, Phengite geobarometry based on the limiting assemblage with K-feldspar, phlogopite, and quartz: Contributions to Mineralogy and Petrology, v. 96, p. 212-224.

Mathieson, G.A. and Clark, A.H., 1984, The CanTung E zone scheelite skarn ore body, Tungsten, Northwest Territories: a revised genetic model: Economic Geology, v. 79, p. 883-901.

Matsuhisa, Y., Goldsmith, J.R., and Clayton, R.N., 1979, Oxygen isotopic fractionation in the system quartz-albite-anorthite-water: Geochimica et Cosmochimica Acta, v. 43, p. 1133-1140.

McConnell, D. 1950, The crystal chemistry of montmorillonite. Amer. Mineral. 35. 166-172.

McDowell, S.D. and Paces, J.B., 1985, Carbonate alteration minerals in the Salton Sea geothermal system, California, USA: Mineral Magazine, v. 49, p. 469-479.

McDowell, S.D. and Elders, W.A., 1980, Authigenic layer silicate minerals in borehole Elmore 1, Salton Sea geothermal field, California, USA: Contributions to Mineralogy and Petrology, v. 74, p. 293--310.

Megaw, P.K.M., Ruiz, J., and Titley, S.R., 1988, High-temperature, carbonate-hosted Ag-Pb-Zn (Cu) deposits of northern Mexico: Economic Geology, v. 83, p. 1856-1885.

Meinert, L.D., 1987, Skarn zonation and fluid evolution in the Groundhog Mine, Central Mining District, New Mexico: Economic Geology, v. 82, p. 523-545.

Meinert, L.D., Brooks, J.W., and Myers, G.L., 1990, Whole rock geochernistry and contrast among skarn types, in Meinert, L.D., eds., Skarn deposits JEL Nevada, Great Basin Symposium - Geology and ore deposits of the Great Basin: Geological Society of Nevada, Field trip 2 Guidebook, p. 179-192.

Mesmer, R.E., Baes, C., Sweeton, F.H., 1970, Acidity measurements at elevated temperatures. IV. Apparent dissociations products of water in 1 m potassium chloride up to 292*: The Journal of Physical Chemistry, v. 74, p. 1937-1942.

Meyer, Charles, 1965, An early potassic type of wall-rock alteration at Butte, Montana: American Mineralogist, v. 50, p. 1717-1722.

Meyer, C., and Hemley, J.J., 1967, Wall-rock alteration, in Geochernistry of hydrothermal ore deposits, ed. Barnes, H.L.: New York, Holt, Rinehart, and Winston, p. 166-235.

Miller, C.F., Stoddard, E.F., Bradfish, L.J. and Dollase, W.A., 1981, Composition of plutonic muscovite: Genetic implications: Canadian Mineralogist, v. 19, p. 25-34.

Mitcham, T.W., 1974, Origin of breccia pipes: Econ. Geology, v. 69, p. 412-413.

Mizutani, S., 1970, Silica minerals in the early stage of diagenesis: Sedimentology, v. 15, p. 419-436.

Monti, R. 1987, The Boddington lateritic gold deposit, Western Australia: A product of supergene enrichment processes: Univ. Western Australia Geology Dept. Univ. Ext. Pub. 11, p. 355-368.

Montoya, J.W. and Hemley, J.J., 1975, Activity relations and stabilities in alkali feldspar an d mica alteration reactions: Economic Geology, v. 70, p. 577-583.

Moore, W.J., and Nash, J.T., 1974, Alteration and fluid inclusion studies of the porphyry copper ore body at Bingham, Utah: Econ. Geology, v. 69, p. 631-645.

Morey, G.W. and Chen, W.T., 1955, The action of hot water on some feldspars: American Mineralogist, v. 40, p. 996-1000.

Morey, G.W. and Fournier, R.O. , 1961, The decomposition of microcline, albite, and nepheline in hot water: American Mineralogist, v. 46, p. 688-699.

Morey, G.W., Fournier, R.O., Hemley, J.J., and Rowe, J.J., 1961, Field measurements of silica in water from hot springs and geysers in Yellowstone National Park; in Short Papers in the Geologic and hydrologic Sciences: U.S. Geological Survey, Professional Paper 424-C, p. C333-336.

Morey, G.W., Fournier, R.O., and Rowe, J.J., 1962, The solubility of quartz in water in the temperature interval from 25 to 300*C: Geochimica et Cosmochimica Acta, v. 26, p. 1029-1043.

Morey, G.W. and Hesselgesser, J.M., 1951, The solubility of some minerals in superheated steam at higher pressures: Economic Geology, v. 46, p. 821-835.

Morey, G.W. and Ingerson, E., 1937, The pneurnatolytic and hydrothermal alteration and synthesis of silicates: Economic Geology, v. 32, supplement 5, p. 607-760.

Mottel, M.J. and Holland, H.D., 1978, Chemical exchange during hydrothermal alteration of basalt by seawater--I. Experimental results for major and minor components of seawater: Geochimica et Cosmochimica Acta, v. 42, p. 1103-1115.

Mountain, B.W. and Williams-Jones, A.E., 1991, Experimental simulations of water-rock interaction, i[i Page, M. and Leroy, J.L., eds. Source, Transport and deposition of metals: Proceedings of the 25th SGA annual meeting, p. 95-98.

Mueller, A.G., 1988, Archaean Gold-Silver Deposits with Prominent Calc-Silicate Alteration in the Southern Cross Greenstone Belt, Western Australia: Analogues of Phanerozoic Skarn Deposits, in Ho, S.E., and Groves, D.I., eds., Advances in Understanding Precambrian Gold Deposits, Vol.2: Geology Department and University Extension, University of Western Australia, Publication 12, p. 141-163.

Muffler, L. J. P., and White, D.E., 1969, Active metamorphism of Upper Cenozoic sediments in the Salton Sea geothermal field and the Salton Trough, Southwestern California: Geol. Soc. America Bull., v. 80, p. 157-182.

Murata, K.J., and Nakata, J.K., 1974, Cristobalite stage in the diagenesis of diatomaceous shales, Temblor Range, California: 'Science, v. 184, p. 567-568.

Murata, K.J., and Randall, R.G., 1975, Silica mineralogy and structure of the Monterey Shale, Temblor Range, Califomia: U.S. Geological Survey, Journal of Research, v. 30, p. 576-572.

Mukaiyama, H., 1970, Volcanic sulfur deposits in Japan, i[L Volcanism and ore genesis, ed. Tatsumi, T.: Tokyo, Univ. of Tokyo Press, 448 p.

Munoz, J.L., 1984, F-OH and CI-OH exchange in micas with applications to hydrothermal ore deposits, in Bailey, S.W.., ed., Micas: Mineralogical Society of America, Reviews in Mineralogy, v. 13, p. 469-493.

Munoz, J.L. and Ludington, S.D., 1974, Fluorine-hydroxyl exchange in biotite: American Journal of Science, v. 274, p. 396-413.

Munoz, J. L. and Ludington, S.D., 1977, Fluorine-hydroxyl exchange in synthetic muscovite and its application to muscovite-biotite assemblages: American Mineralogist, v.62, p. 304-308.

Muntean, J.L., Kesler, S.E., Russell, N. and Polanco, J., 1990 Montenegro acid sulfate Au-Ag deposit, Pueblo Viejo, Dominican Republic: Important factors in grade development: Economic Geology, v. 85, p. 1738-1758.

Nakagawa, R., 1971, Solubility of orpiment (As2S3) in Tamagawa Hot Springs, Akita Prefecture: Nippon Kagaku Zasshi, v. 92, p. 154-159.

Nakano, T., Shimazaki, H., and Shimizu, M., 1990, Strontium isotope systematics and metallogenesis of skarn deposits in Japan: Economic Geology, v. 85, p. 794-815.

Nanna, D., Baumann, M., Berentsen, E., and Steinman, G., 1987, Getchell deposit, in Johnson, J.L., ed., Bulk mineable precious metal deposits of the western United States, guidebook for field trips: Reno, Nevada, Geol. Soc. Nevada, p. 353-356.

Neiva, A.M.R., 1980, Chlorite and biotite from contact metamorphism of phyllite and metagraywacke by granite, aplite-pegmatite and quartz veins: Chemical Geology, v. 29, p. 49-71.

Newberry, R., 1982, Tungsten-bearing skarns of the Sierra Nevada. 1. The Pine Creek Mine, California: Economic Geology, v. 77, p. 823-844.

-------- 1991, Scheelite-bearing skarns in the Sierra Nevada region, California: Contrasts in zoning and mineral compositions and tests of infiltration metasomatism theory, in Skams - Their genesis and metallogeny: Theophrastus Publications S.A., Athens, p. 343-384.

-------- 1987, Use of intrusive and calc-silicate compositional data to distinguish contrasting skarn types in the Darwin polymetallic skam district, California, USA: Mineralium Deposits, v. 22, p. 207-215.

Nielsen, R.L., 1970, Mineralization and alteration in calcareous rocks near the Santa Rita stock, New Mexico: New Mexico Geol. Soc. Guidebook, 21st Reid Conference, p. 133-139.

Neiva, A.M.R., 1980, Chlorite and biotite from contact metamorphism of phyllite and metagraywacke by granite, aplite-pegmatite and quartz veins: Chemical Geology, v. 29, p. 49-71.

Newberry, R., 1982, Tungsten-bearing skarns of the Sierra Nevada. 1. The Pine Creek Mine, California: Economic Geology, v. 77, p. 823-844.

Nielsen, R.L., 1970, Mineralization and alteration in calcareous rocks near the Santa Rita stock, New Mexico: New Mexico Geol. Soc. Guidebook, 21st Reid Conference, p. 133-139.

Nockolds, S.R., 1947, The relation between chemical composition and paragenesis in biotite micas of igneous rocks: American Journal of Science, v. 245, p. 401-420.

Northrop, H.R., Rye, R.O., Landis, G.P., Lustwerk, R., Jones, M.B., and Daly, W.E., 1987, Sedimenthosted disseminated gold mineralization at Jerritt Canyon, Nevada. V--Stable isotope geochemistry and a model of ore deposition [abs.]: Geol. Soc. America Abstracts with Programs, v. 19, p. 791.

Norton, D.L., and Cathles, L.M., 1973, Breccia pipes - products of exsolved vapor from magmas: Econ. Geology, v. 68, p. 540-546.

-------- 1979, Thermal aspects of ore deposition, in Geochemistry of hydrothermal ore deposits, 1st ed.: ed. Barnes, H.L., p. 611-631.

Norton, D. and Knight, J. 1977, Transport phenomena in hydrothermal systems: Cooling plutons: American Journal Science, v. 277, p. 937-981.

Nuckolls, H., 1984, Bootstrap disseminated gold deposit, Nevada: spatial distribution of alteration and its relationship to gold mineralization (abs.), in Geological Society America Abstracts with program, 1984: v. 16, no. 6, p. 611.

Ohmoto, H., and Lasaga, A.C., 1982, Kinetics of reactions between aqueous sulfates and suff ides in hydrothermal systems: Geochimica. et Cosmochimica Acta, v. 46, p. 1727-1745.

O'Neil, J.R., 1977, Stable isotopes in mineralogy: Physics and Chemistry of Minerals, v. 2, p. 105-123.

O'Neil, J.R., and Kharaka, Y.K., 1976, Hydrogen and oxygen isotope exchange reactions between clay minerals and water: Geochimica et Cosmochimica Acta, v. 40-, p. 241-246.

O'Neil, J.R., Silberman, M.L., Fabbi, B.P., and Chesterman, C.W., 1973, Stable isotope and chemical relations during mineralization in the Bodie mining district, Mono County, California: Economic Geology, v. 68, p. 765-784.

O'Neil, J.R., and Taylor, H.P., Jr., 1967, The oxygen isotope and cation exchange chemistry of feldspars: American Mineralogist, v. 52, p. 1414-1437.

-------- 1969, 1969, Oxygen isotope equilibrium between muscovite and water. Journal Geophysics Res. 74, 6012-6022.

Orville, P.M., 1963, Alkali ion exchange between vapor and feldspar phases: American Journal of Science, v. 261, p.201-237.

Osatenko, M.J., and Jones, M.B., 1976, Valley Copper; in Brown, A.S. (ed.), Porphyry Deposits of the Canadian Cordillera: The Canadian Institute of Mining and Metallurgy, Special Volume 15, p. 130-143.

Parker, R.L., 1962, lsomorphous substitution in natural and synthetic alunite: American Mineralogist, v. 47, p. 127-136.

Parry, W.T., Ballantyne, J.M., and Jacobs, D.C., 1984, Geochemistry o