Albers, J.P., and Kleinhampl, F.J., 1970, Spatial relation of mineral deposits to Tertiary volcanic centers in Nevada: U.S. Geological Survey Professional Paper 700–C, p. C1–C10.
Allard, G.O., and Carpenter, R.H., 1981, Alteration in the Otake geothermal field—A model for interpreting certain metamorphic assemblages in metamorphosed volcanic terranes [abs.], in Shimozuru, D., and Yokoyama, I., eds., Symposium on Arc Volcanism, 1981, Tokyo, Japan, and Hakone-machi, Japan: Tokyo, Terra Scientific Publishing Co., p. 1–2.
Anton-Pacheco, Carmen, Payás, Alba, Gumiel, Pablo, Schmidt, R.G., Kingston, M.J., Milton, N.M., and Ehmann, W.J., 1987, Mineral exploration in central North Carolina using spectra of trees in forests and of soil in cultivated fields [abs.], in Proceedings of the Fifth Thematic Conference on Remote Sensing for Exploration Geology, 29 Sept.–2 Oct., 1986, Reno, Nevada: Ann Arbor, Mich., Environmental Research Institute of Michigan, v. 2, p. 811.
Arribas, Antonio, Jr., Cunningham, C.G., Rytuba, J.J., and Arribas, Antonio, Sr., 1989, Evolution of the volcanic rocks and gold-alunite deposits of the Cabo de Gata volcanic field, southeastern Spain: Gold 89 in Europe, International Symposium in Europe on gold metallogeny, exploration, and beneficiation, Guidebook Excursion 4, 97 p.
Baedecker, P.A., ed., 1987, Methods for geochemical analysis: U.S. Geological Survey Bulletin 1770, chapters A–K, individually paginated.
Bell, Henry, III, Carpenter, R.H., and Feiss, P.G. 1980, Volcanogenic ore deposits of the Carolina slate belt, in Frey, R.W., ed., Excursions in southeastern geology, v. 1 [Guidebook], Geological Society of America, 1980 Annual Meeting, Atlanta, Georgia: Falls Church, Va., American Geological Institute, p. 149–178.
Blanchard, Roland, 1968, Interpretation of leached outcrops: Nevada Bureau of Mines Bulletin 66, 196 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 Elliot, I.W., and Smee, B.W., eds., Programs and abstracts, GEOEXPO/86, Exploration in the North American Cordillera, May 1986: Vancouver, Canada, Association of Exploration Geochemistry, p. 19–20.
Broadhurst, S.D., and Councill, R.J., 1953, A preliminary report on high alumina minerals in the Volcanic-Slate series, North Carolina: North Carolina Department of Conservation Development, Division of Mineral Resources, Information Circular 10, 22 p.
Butler, J.R., 1985, The Brewer mine, in Feiss, P.G., ed., Volcanic-hosted gold and high-alumina rocks of the Carolina slate belt [Guidebook for the field trip held in conjunction with the 1985 fall meeting of the Society of Economic Geologists and the 1985 annual meeting of the Geological Society of America]: Chapel Hill, N.C., University of North Carolina, Department of Geology, p. 143–171.
Butler, J.R., Scheetz, J.W., Stonehouse, J.M., Taylor, D.R., and Callaway, R.Q., 1988, The Brewer gold mine, Chesterfield County, South Carolina, in Secor, D.T., Jr., ed., Southeast Geological Excursions: Geological Society of America, Southeastern Section, 22 p.
Butler, J.R., and Secor, D.T., Jr., 1991, The central Piedmont, in Horton, J.W., Jr., and Zullo, V.A., eds., The geology of the Carolinas; Carolina Geological Society Fiftieth Anniversary Volume: Knoxville, The University of Tennessee Press, p. 59–78.
Carlile, J.C., Digdowirogo, S., and Darius, K., 1990, Geological setting, characteristics and regional exploration for gold in the volcanic arcs of North Sulawesi, Indonesia: Journal of Geochemical Exploration, v. 35, p. 105–140.
Carpenter, P.A., III, 1976, Metallic mineral deposits of the Carolina slate belt, North Carolina: North Carolina Division of Resource Planning and Evaluation, Mineral Resources Section, Bulletin 84, 166 p.
Carpenter, P.A., III, 1982, Geologic map of Region G, North Carolina: North Carolina Department of Natural Resources and Community Development, Division of Land Resources, Geological Survey Section, scale 1:130,000.
Carpenter, R.H., and Allard, G.O., 1980, Volcanogenic mineralization near Lincolnton, Georgia and McCormick, South Carolina, U.S.A. [abs.]: Norges Geologiske Undersokelse Bulletin 57, p. 327.
Carpenter, R.H., and Allard, G.O., 1982, Aluminosilicate assemblages—An exploration tool for metavolcanic terrains of the southeast, in Allard, G.O., and Carpenter, R.H., conveners, Exploration for metallic resources in the Southeast (USA): Athens, Ga., University of Georgia Department of Geology and Center for Continuing Education, p. 19–22.
Cherrywell, C.H., and Butler, J.R., 1984, Geology of the Brewer gold mine, Chesterfield County, South Carolina [abs.]: Geological Society of America Abstracts with Programs, v. 16, no. 6, p. 469.
Chiulli, A.T., 1987, The geology and stratigraphy of the northeast quarter of White Cross quadrangle, Orange County, North Carolina: Chapel Hill, University of North Carolina, unpub. M.S. thesis, 74 p., 11 pls., scale 1:12,000.
Conley, J.F., 1962, Geology of the Albemarle quadrangle, North Carolina: North Carolina Department of Conservation and Development Bulletin 75, 26 p.
D'Agostino, J.P., and Schmidt, R.G., 1986, Gold in panned concentrates from southern Alamance County, central North Carolina: U.S. Geological Survey Open-File Report 86–453, 14 p., 1 oversize sheet, scale 1:24,000.
Eligman, D., 1987, Volcanic stratigraphy in the Carolina slate belt near Chapel Hill, North Carolina: Chapel Hill, University of North Carolina, unpub. M.S. thesis, 51 p.
Espenshade, G.H., and Potter, D.B., 1960, Kyanite, sillimanite, and andalusite deposits of the Southeastern States: U.S. Geological Survey Professional Paper 336, 121 p.
Feiss, P.G., 1982, Ore deposits of the northern parts of the Carolina slate belt, North Carolina, in Bearce, D.N., Black, W.W., Kish, S.A., and Tull, J.F., eds., Tectonic studies in the Talladega and Carolina slate belts, southern Appalachian orogen: Geological Society of America Special Paper 191, p. 153–164.
Feiss, P.G., and Slack, J.F., 1989, Mineral deposits of the U.S. Appalachians, in Hatcher, R.D., Jr., Thomas, W.A., and Viele, G.W., eds., The Appalachian-Ouachita orogen in the United States, v. F-2 of The geology of North America: Boulder, Colo., Geological Society of America, p. 471–493.
Foley, N.K., Caddey, S.W., Byington, C.B., and Vardiman, D.M., 1993, Mineralogy, mineral chemistry, and paragenesis of gold, silver, and base-metal ores of the North Amethyst vein system, San Juan Mountains, Mineral County, Colorado: U.S. Geological Survey Professional Paper 1537, 39 p.
Fullagar, P.D., 1971, Age and origin of plutonic intrusions in the Piedment of the southeastern Appalachians: Geological Society of America Bulletin, v. 82, p. 2845–2862.
Fullagar, P.D., and Butler, J.R., 1979, 325 to 265 Ma-old granitic plutons in the Piedmont of the southeastern Appalachians: American Journal of Science, v. 279, p. 161–185.
Gillon, K.A., Spence, W.H., Duckett, R.P., and Benson, C.J., 1995, Geology of the Ridgeway gold deposits, Ridgeway, South Carolina, in Crowe, D.E., ed., Selected mineral deposits of the Gulf Coast and southeastern United States, pt. 2, Gold deposits of the Carolina slate belt: Society Economic Geologists, Guidebook Series, v. 24, p. 53–94.
Glover, Lynn, III, 1974, Speculations on the relation between eastern and western Piedmont volcanism [abs.]: Geological Society of America Abstracts with Programs, v. 6, no. 7, p. 757.
Glover, Lynn, III, and Sinha, A.K., 1973, The Virgilina deformation, a late Precambrian to Early Cambrian(?) orogenic event in the central Piedmont of Virginia and North Carolina: American Journal of Science, Cooper Volume 273–A, p. 234–251.
Goldsmith, Richard, Milton, D.J., and Horton, J.W., Jr., 1988, Geologic map of the Charlotte 1° x 2° quadrangle, North Carolina and South Carolina: U.S. Geological Survey Miscellaneous Investigations Series Map I–1251–E, scale 1:250,000.
Hadley, J.B., 1974, Geologic map of the Oxford quadrangle, Granville and Vance Counties, North Carolina: U.S. Geological Survey Miscellaneous Field Studies Map MF–608, scale 1:62,500.
Harris, C.W., 1982, An unconformity in the Carolina slate belt of central North Carolina—New evidence for the areal extent of the ca. 600 Ma Virgilina deformation: Blacksburg, Va., Virginia Polytechnic Institute and State University, unpub. M.S. thesis, 90 p.
Harris, C.W., and Glover, Lynn, III, 1985, The Virgilina deformation; Implications of stratigraphic correlation in the Carolina slate belt: Carolina Geological Society Field Trip Guide, Nov. 16–17, 1985, 59 p.
Harris, C.W., and Glover, Lynn, III, 1988, The regional extent of the ca. 600 Ma Virgilina deformation; Implications for stratigraphic correlation in the Carolina terrane: Geological Society of America Bulletin, v. 100, p. 200–217.
Hauck, S.A., 1977, Geology and petrology of the northeast quarter of the Bynum quadrangle, Carolina slate belt, North Carolina: Chapel Hill, University of North Carolina, unpub. M.S. thesis, 146 p.
Hayba, D.O., Bethke, P.M., Heald, Pamela, and Foley, N.K., 1985, Geologic, mineralogic, and geochemical characteristics of volcanic-hosted epithermal precious-metal deposits, in Berger, B.R., and Bethke, P.M., eds., Reviews in Economic Geology, v. 2, Geology and geochemistry of epithermal systems: Society of Economic Geologists, p. 129–167.
Heald, Pamela, Foley, N.K., and Hayba, D.O., 1987, Comparative anatomy of volcanic-hosted epithermal deposits; Acid-sulfate and adularia-sericite types: Economic Geology, v. 82, p. 1–26.
Hedenquist, J.W., 1992, Mineralization of volcanogenic hydrothermal systems in the Circum-Pacific, and their recognition: United Nations Economic and Social Commission for Asia and the Pacific, Mineral concentrations and hydrocarbon accumulations in the ES.C.APE region, v. 6, Epithermal gold in Asia and the Pacific, p. 19–22.
Hedenquist, J.W., Matsuhisa, Y., Izawa, E., Marumu, K., Aoki, M., and Sasaki, A., 1988, Epithermal gold mineralization of acid-leached rocks in the Nansatsu district of southern Japan, in Goode, A.D.T., and Bosma, L.I., comps., Bicentennial Gold 88: Melbourne, p. 183–190.
Huard, Allan, and O'Driscoll, Cyril, 1986, Epithermal gold mineralization in late Precambrian volcanics on the Burin Peninsula; Current research (1986): Newfoundland Department of Mines and Energy, Mineral Development Division, Report 86–1, p. 65–78.
Hudson, D.M., 1984, Geology of the Steamboat Springs—Virginia City region, Nevada, in Johnson, J.L., ed., Exploration for ore deposits of the North American Cordillera, Field Trip Guidebook: Association of Exploration Geochemists, p. 1–9.
Hughes, E.H., 1985, The hydrothermal alteration system at Daniels Mountain, Carolina slate belt, North Carolina: Chapel Hill, University of North Carolina, unpub. M.S. thesis, 86 p.
Hughes, E.H., 1987, The geology and alteration centers of the Snow Camp mine-Major Hill area, central Carolina slate belt, Alamance and Chatham Counties, North Carolina: U.S. Geological Survey Open-File Report 87–180, 29 p.
Iwao, Shuichi, and Udagawa, Shigekazu, 1969, Pyrophyllite and "roseki" clays," in The clays of Japan: Geological Survey of Japan, p. 71–87.
Kaster, D.L., 1960, Soil survey of Alamance County, North Carolina: U.S. Soil Conservation Service Ser. 1956, no. 9, 87 p.
Kesler, S.E., Muntean, J.L., and Russell, N., 1988, Spatial and temporal zoning of acid-sulfate ore and alteration, Pueblo Viejo Au-Ag deposit, Dominican Republic, in Goode, A.D.T., and Bosma, L.I., comps., Bicentennial Gold 88, Extended abstracts, Oral programme: Geological Society of Australia, Abstracts Series, no. 22, p. 173–176.
Kish, S.A., Butler, J.R., and Fullagar, P.D., 1979, The timing of metamorphism and deformation in the central and eastern Piedmont North Carolina [abs.]: Geological Society of America Abstracts with Programs, v. 11, no. 4, p. 184–185.
Klein, T.L., and Schmidt, R.G., 1985, Geology of the Pilot Mountain-Fox Mountain alteration system, in Feiss, P.G., ed., Volcanic-hosted gold and high-alumina rocks of the Carolina slate belt: Society of Economic Geologists, p. 75–107.
Klein, T.L., and Criss, R.E., 1988, An oxygen isotope and geochemical study of meteoric-hydrothermal systems at Pilot Mountain and selected other localities, Carolina slate belt: Economic Geology, v. 83, p. 801–821.
Li, Y.C., 1987, A discussion of the characters of Emei pyrophyllite ore deposit and the mechanism of its minerogenesis: Geology of Fujian, v. 6, no. 2, p. 108–127.
Lipman, P.W., and Steven, T.A., 1970, Reconnaissance geology and significance of the Platoro caldera, southeastern San Juan Mountains, Colorado: U.S. Geological Survey Professional Paper 700–C, p. C19–C29.
Lu, Changsheng, Misra, K.C., Stonehouse, J.M., and Zwaschka, M.R., 1993, Geochemical signature of alteration at the Brewer gold mine, Jefferson, South Carolina: South Carolina Geology, no. 35, p. 37–54.
Lyday, T.Q., 1974, The geology of the southern half of the White Cross quadrangle, North Carolina: Chapel Hill, University of North Carolina, unpub. M.S. thesis, 29 p.
McKee, L.H., 1985, The Nesbit gold mine, in Feiss, P.G., ed., Volcanic-hosted gold and high-alumina rocks of the Carolina slate belt: Society of Economic Geologists, p. 124–142.
Milton, N.M., Collins, William, Chang, Sheng-Huei, and Schmidt, R.G., 1983, Remote detection of metal anomalies on Pilot Mountain, Randolph County, North Carolina: Economic Geology, v. 78, p. 605–617.
Mueller, P.A., Kozuch, Marianne, Heatherington, A.L., Wooden, J.L., Offield, T.W., Koeppen, R.P., Klein, T.L., and Nutman, A.P., 1996, Evidence for Mesoproterozoic basement in the Carolina terrane and speculations on its origin, in Nance, R.D., and Thompson, M.D., eds., Avalonian and related Peri-Gondwanan terranes of the Circum-North Atlantic: Geological Society of America Special Paper 304, p. 207–217.
Nakovnik, N.I., 1968, Secondary quartzites of the U.S.S.R. and mineral deposits related to them: Moscow, Izdatel'stvo "Nedra," 336 p. In Russian.
Noel, J.R., Spariosu, D.J., and Dallmeyer, R.D., 1988, Paleomagnetism and 40Ar/39Ar ages from the Carolina slate belt, Albemarle, North Carolina; Implications for terrane amalgamation with North America: Geology, v. 16, p. 64–68.
Offield, T.W., 1994, Lithotectonic map and field data—Reconnaissance geology of the Carolina slate belt and adjacent rocks from southern Virginia to central South Carolina: U.S. Geological Survey Open-File Report 94–420, 58 p.
Offield, T.W., Kunk, M.J., and Koeppen, R.P., 1990, Style and age of deformation in the Carolina slate belt of central North Carolina [abs.]: Geological Society of America Abstracts with Programs, v. 22, no. 4, p. 54.
Outhuis, J.H.M., 1989, Hydrothermal andalusite and corundum in a potassic alteration zone around a Proterozoic gabbro-tonalite-granite intrusion northeast of Persberg, central Sweden: Mineralogy and Petrology, v. 40, p. 1–16.
Payás, Alba, Schmidt, R.G., Gumiel, Pablo, Anton-Pacheco, Carmen, Kingston, M.J., Milton, N.M., and Rowan, L.C., 1988, Use of Landsat data in gold exploration in the Carolina slate belt [abs.]: Geological Society of America Abstracts with Programs, v. 20, no. 4, p. 308.
Payás, Alba, Schmidt, R.G., and Bonet, Andreu, 1993, The effects of hydrothermally altered bedrock on natural forest vegetation in the Snow Camp-Saxapahaw area, North Carolina, and the resulting expressions in Landsat TM imagery, in Scott, R.W., Jr., Detra, P.S., and Berger, B.R., eds., Advances related to United States and international mineral resources—Developing frameworks and exploration technologies: U.S. Geological Survey Bulletin 2039, p. 189–200.
Perello, J.A., 1994, Geology, porphyry Cu-Au, and epithermal Cu-Au-Ag mineralization of the Tombulilato district, North Sulawesi, Indonesia: Journal of Geochemical Exploration, v. 50, p. 221–256.
Ririe, G.T., 1990, A comparison of alteration assemblages associated with Archean gold deposits in Western Australia and Paleozoic gold deposits in the southeast United States: Canadian Journal of Earth Sciences, v. 27, p. 1560–1576.
Rodgers, John, 1972, Latest Precambrian (post-Grenville) rocks of the Appalachian region: American Journal of Science, v. 272, p. 507–520.
Rowan, L.C., Crowley, J.K., Schmidt, R.G., Ager, C.M., and Mars, J.C., 2000, Mapping hydrothermally altered rocks by analyzing hyperspectral image (AVIRIS) data of forested areas in the Southeastern United States: Journal of Geochemical Exploration, v. 68, p. 145–166.
Scheetz, J.W., Stonehouse, J.M., and Zwaschka, M.R., 1991, Geology of the Brewer gold mine, North Carolina: Mining Engineering, January, p. 39–42.
Schmidt, R.G., 1978, The potential for porphyry copper-molybdenum deposits in the Eastern United States: U.S. Geological Survey Professional Paper 907-E, 31 p.
Schmidt, R.G., 1982, High-alumina hydrothermal systems in volcanic rocks of the Carolina slate belt [abs.]: Geological Society of America Abstracts with Programs, v. 14, no. 1 and 2, p. 80.
Schmidt, R.G., 1985a, High-alumina hydrothermal systems in volcanic rocks and their significance to mineral prospecting in the Carolina slate belt: U.S. Geological Survey Bulletin 1562, 59 p.
Schmidt, R.G., 1985b, Snow Camp pyrophyllite mine, in Feiss, P.G., ed., Volcanic-hosted gold and high-alumina rocks of the Carolina slate belt: Society of Economic Geologists, p. 37–47.
Schmidt, R.G., and Koslow, M.H., 1986, Preliminary map showing the occurrence of siliceous rocks in central North Carolina derived from enhanced principal component Landsat images: U.S. Geological Survey Miscellaneous Field Studies Map MF–1817, scale 1:250,000.
Schmidt, R.G., Gumiel, Pablo, and Payás, Alba, 1990, Provisional geologic map of the Snow Camp-Saxapahaw area, North Carolina: U.S. Geological Survey Open-File Report 90-417, scale 1:24,000.
Schreyer, Werner, 1987, Pre- or synmetamorphic metasomatism in peraluminous metamorphic rocks?, in Helgeson, H.C., ed., Chemical transport in metasomatic processes: Boston, D. Reidel Publishing Company, p. 265–296.
Secor, D.T., Jr., Samson, S.L., Snoke, A.W., and Palmer, A.R., 1983, Confirmation of the Carolina slate belt as an exotic terrane: Science, v. 221, p. 649–651.
Seiders, V.M., 1981, Geologic map of the Asheboro, North Carolina, and adjacent areas: U.S. Geological Survey Miscellaneous Investigations Map I–1314, scale 1:62,500.
Sexauer, M.L., 1983, The geology and origin of the pyrophyllite deposits in southwestern Granville County, North Carolina: Chapel Hill, University of North Carolina, unpub. M.S. thesis, 85 p.
Sikich, S.W., 1992, The mineral industry of South Carolina: U.S. Bureau of Mines Minerals Yearbook 1992, v. 2, p. 481–493.
Sillitoe, R.H., 1973, The tops and bottoms of porphyry copper deposits: Economic Geology, v. 68, p. 799–815.
Sillitoe, R.H., 1989, Gold deposits in western Pacific island arcs—The magmatic connection, in Keays, R.R., Ramsay, W.R.H., and Groves, D.I., eds., The geology of gold deposits—The perspective in 1988: Economic Geology Monograph 6, p. 274–291.
Sillitoe, R.H., 1990, Gold-rich porphyry copper deposits of the circum-Pacific region—An updated overview: Pacific Rim Congress 90, Gold Coast, Queensland, Proc. v. 2, p. 119–126.
Sillitoe, R.H., Angeles, C.A., Jr., Comia, G.M., Antioquia, E.C., and Abeya, R.B., 1990, An acid sulphate-type lode gold deposit at Nalesbitan, Luzon, Philippines: Journal of Geochemical Exploration, v. 35, p. 387–412.
Smeds, R.C., 1972, The geology of the northern half of the White Cross quadrangle, North Carolina: Chapel Hill, University of North Carolina, unpub. M.S. thesis, 60 p.
Speer, J.A., Becker, S.W., and Farrar, S.S., 1980, Field relations and petrology of the postmetamorphic, coarse-grained granitoids and associated rocks of the southern Appalachian Piedmont, in Wones, D.R., ed., Proceedings of "The Caledonides in the USA" (International Geological Correlation Program Project 27, Caledonide Orogen, 1979 meeting, Blacksburg, Va.): Virginia Polytechnic Institute and State University, Department of Geological Sciences, Memoir 2, p. 137–148.
Spence, W.H., Worthington, J.E., Jones, E.M., and Kiff, I.T., 1980, Origin of the gold mineralization at the Haile mine, Lancaster County, South Carolina: Mining Engineering, January, p. 70–73.
Steven, T.A., and Ratte, J.C., 1960, Geology and ore deposits of the Summitville district, San Juan Mountains, Colorado: U.S. Geological Survey Professional Paper 343, 70 p.
Steven, T.A., Luedke, R.G., and Lipman, P.W., 1974, Relation of mineralization to calderas in the San Juan volcanic field, southwestern Colorado: U.S. Geological Survey Journal of Research, v. 2, p. 405–409.
Stoffregen, R.E., 1987, Genesis of acid-sulfate alteration and Au-Cu-Mg mineralization at Summitville, Colorado: Economic Geology, v. 82, no. 6, p. 1575–1591.
Streckeisen, A.L., 1973, Plutonic rocks—Classification and nomenclature recommended by the IUGS Subcommission on the Systematics of Igneous Rocks: Geotimes, v. 18, no. 10, p. 26–30.
Streckeisen, A.L., 1979, Classification and nomenclature of volcanic rocks, lamprophyres, carbonatites, and melilitic rocks—Recommendations and suggestions of the IUGS Subcommission on the Systematics of Igneous Rocks: Geology, v. 7, p. 331–335.
Stromquist, A.A., Choquette, P.W., and Sundelius, H.W., 1971, Geologic map of the Denton quadrangle, central North Carolina: U.S. Geological Survey Geologic Quadrangle Map GQ–872, scale 1:62,500.
Stuckey, J.L., 1967, Pyrophyllite deposits in North Carolina: North Carolina Division of Mineral Resources Bulletin 80, 38 p.
Sumi, Kiyoshi, 1968, Hydrothermal rock alteration of the Matsukawa geothermal area, northeast Japan: Japan Geological Survey Report no. 225, 42 p.
Tan, Li-Ping, 1991, The Chinkuashih gold-copper deposits, Taiwan: Society of Economic Geologists Newsletter, no. 7, p. 1, 22–24.
Thompson, A.J.B., and Peterson, E.U., 1991, Alunite compositions and textures; Indicators of the environment of formation [abs.]: Geological Society of America Abstracts with Programs, v. 23, no. 5, p. A–229.
Thompson, J.F.H., Lessman, J., and Thompson, A.J.B., 1986, The Temora gold-silver deposit; A newly recognized style of high sulfur mineralization in the lower Paleozoic of Australia: Economic Geology, v. 81, p. 732–738.
Watanabe, Manjiro, 1953, On the diaspore pyrophyllite deposits of Fukue Island, Nagasaki Prefecture: Science Reports of Tohoku University, 3d series, v. 4, no. 3, p. 171–183.
White, N.C., and Hedenquist, J.W., 1990, Epithermal environments and styles of mineralization; Variations and their causes, and guidelines for exploration: Journal of Geochemical Exploration, v. 36, p. 445–474.
White, N.C., and Hedenquist, J.W., 1995, Epithermal gold deposits; Styles, characteristics and exploration: Society of Economic Geologists, SEG Newsletter no. 23, p. 1, 9–13.
Wilkinson, S.E., 1978, The geology of the northeast quarter of the Silk Hope quadrangle, Carolina slate belt, North Carolina: Chapel Hill, University of North Carolina, unpub. M.S. thesis, 56 p.
Williams, Harold, comp., 1978, Tectonic lithofacies map of the Appalachian orogen: St. John's, Newfoundland, Memorial University of Newfoundland, scale 1:2,000,000.
Worthington, J.E., and Kiff, I.T., 1970, A suggested volcanogenic origin for certain gold deposits in the slate belt of the North Carolina Piedmont: Economic Geology, v. 65, no. 5, p. 529–537.
Worthington, J.E., Kiff, I.T., Jones, E.M., and Chapman, P.E., 1980, Applications of the hot springs or fumarolic model in prospecting for lode gold deposits: Mining Engineering, January, p. 73–79.
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