during 1984: U.S. Geological Survey Circular 967, p. 27- 29. Gamyanin, G.N., <strong>and</strong> Goryachev, N.A., 1988, Near-surface mineralization in eastern Yakutia: Tikhookeanskaya Geologiya, no. 2, p. 82-89. (in <strong>Russian</strong>). Gamyanin, G.N., <strong>and</strong> Goryachev, N.A., 1991, Gold mineral- magmatic systems <strong>of</strong> <strong>the</strong> granitoid range in <strong>the</strong> nor<strong>the</strong>astern U.S.S.R., in Gamyanin. G.N., Surnin, A.A., Trunilina, V.A., <strong>and</strong> Yakovlev, Ya.B., eds., Ore magmatic systems <strong>of</strong> <strong>the</strong> eastern U.S.S.R.: U.S.S.R. Academy <strong>of</strong> Sciences, Siberian Branch, Institute <strong>of</strong> Geology, Yakutsk, p. 37-48 (in <strong>Russian</strong>). Gamyanin, G.N., Silichev, M.K., Goryachev, N.A., <strong>and</strong> Belozertseva, N.V., 1985, A polystage gold lode deposit: Geologiya Rudnykh Mestorozhdeniy, no. 5, p. 86-89 (in <strong>Russian</strong>). G<strong>and</strong>hi, S.S., <strong>and</strong> Bell, R.T., 1996, KirunalOlympic Darn-type iron, copper, uranium, gold, silver; in Geology <strong>of</strong> Canadian Mineral Deposit Types, Eckstr<strong>and</strong>, O.R., Sinclair, W.D. <strong>and</strong> Thorpe, R.I., eds, Geological Survey <strong>of</strong> Canada, Geology <strong>of</strong> Canada, no. 8, p. 513-522. Ganeev, A.Sh., 1974, Secondary quartzites <strong>of</strong> <strong>the</strong> Oogdin superimposed depression, in Grinberg, G.A., ed., New data on magmatism in Yakutia: U.S.S.R. Academy <strong>of</strong> Sciences, Siberian Branch, Institute <strong>of</strong> Geology, Yakutsk, p. 151-154 (in <strong>Russian</strong>). Garbuzov, S.P., Sedykh, A.N., <strong>and</strong> Tarasov, G.A., 1987, The Nikolaevsky volcano-tectonic depression, Primorye: Geology, skarns, <strong>and</strong> ore: U.S.S.R. Academy <strong>of</strong> Sciences, Vladivostok, 184 p. (in <strong>Russian</strong>). Gardner, M.C., Bergman, S.C., MacKevett, E.M., Jr., Plafker, G., Campbell, R.C., Cushing, G. W., Dodds, C.J., <strong>and</strong> McClell<strong>and</strong>, W.D., 1988,. Middle Pennsylvanian pluton stitching <strong>of</strong> Wrangellia <strong>and</strong> <strong>the</strong> Alex<strong>and</strong>er terrane, Wrangell Mountains, <strong>Alaska</strong>. Geology, v. 16, p. 967-971. Garnett, J.A., 1978, Geology <strong>and</strong> mineral occurrences <strong>of</strong> <strong>the</strong> sou<strong>the</strong>rn Hogem batholith; Bfitish Columbia Ministry <strong>of</strong> Mines <strong>and</strong> Petroleum Resources, Bulletin 70, 75p. Garnett, J.A., 1978, Geology <strong>and</strong> mlneral occurrences <strong>of</strong> <strong>the</strong> sou<strong>the</strong>rn Hogem batholith: British Columbia Ministry <strong>of</strong> Energy, Mines <strong>and</strong> Petroleum Resources, Bulletin 70, 75 p. Garver, J.I., Br<strong>and</strong>on, M.T., <strong>and</strong> Soloviev, A.V., 1998, Source <strong>of</strong> Ukelayat flysch <strong>and</strong> collison <strong>of</strong> <strong>the</strong> Olutorsky arc, nor<strong>the</strong>rn Kamchatka, <strong>Russian</strong> <strong>Far</strong> <strong>East</strong> [abs.]: Geological Society <strong>of</strong> America Annual Meeting Program with Abstracts, v. 30, p. A269. Gavrikov, S.I., <strong>and</strong> Zharova, V.P., 1963, The structure <strong>of</strong> <strong>the</strong> ore field <strong>and</strong> mineralization <strong>of</strong> <strong>the</strong> Zhdannoe gold deposit: Proceedings <strong>of</strong> <strong>the</strong> All-Union mineralogic society, part 92, v. 1, p. 26-32 (in <strong>Russian</strong>). 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Geological <strong>of</strong> Society <strong>of</strong> America Bulletin, v. 98, p. 123-137. Gehrels, G.E., <strong>and</strong> Saleeby, J.B., 1987, Geologic framework, tectonic evolution, <strong>and</strong> displacement history <strong>of</strong> <strong>the</strong> Alex<strong>and</strong>er terrane: <strong>Tectonics</strong>, v. 6, p. 151-1 73. Geist, E.L., Childs, J.R., <strong>and</strong> Scholl, D.W., 1988. The origin <strong>of</strong> <strong>the</strong> summit basins <strong>of</strong> <strong>the</strong> Aleutian Ridge: Implications for block rotation <strong>of</strong> an arc massif: <strong>Tectonics</strong>, v. 7, p. 327- 341. Geist, E.L., Vallier, T.L., <strong>and</strong> Scholl, D.W., 1994, Origm, transport, <strong>and</strong> emplacement <strong>of</strong> an exotic isl<strong>and</strong>-arc terrare exposed in eastern Kamchatka, Russia: Geological Society <strong>of</strong> America Bulletin, v. 106, p. 1182-1 194. Gelman. M.L., 1976, On <strong>the</strong> role <strong>of</strong> regional metamorphism in gold mineralization <strong>of</strong> <strong>the</strong> U.S.S.R. Nor<strong>the</strong>ast: U.S.S.R. Academy <strong>of</strong> Sciences Report 230, no. 6. p. 1406-1409 (in <strong>Russian</strong>). Gelman, M.C., 1986, Intrusive sequences: Metallogenic map <strong>of</strong> Magadan region <strong>and</strong> contiguous areas: Sewostgedogiya, Magadan, 21 p., scale 1:1,500,000 (in <strong>Russian</strong>). Gelman, M.L., Titov, V.A., <strong>and</strong> Fadeev, A.P., 1974, Omolon iron-type province: U.S.S.R. Academy <strong>of</strong> Sciences Report 278, no. 2, p. 419-422 (in <strong>Russian</strong>). Gerasimov, N.S., Rodionov, S.M., <strong>and</strong> Kompanichenko, V.N., 1990, The results <strong>of</strong> Rb-Sr dating <strong>of</strong> tin granites <strong>of</strong> Central Sikhote-Alin: Reports <strong>of</strong> <strong>Russian</strong> Academy <strong>of</strong> Sciences, v. 312, no. 5, p. 1,1831,186. Gilbert, W.G., <strong>and</strong> Bundtzen, T.K., 1979, MidPaleozoic tectonics, volcanism, <strong>and</strong> mineralization in north-central <strong>Alaska</strong> Range, in Sisson, A., ed., The relationship <strong>of</strong> plate tectonics to <strong>Alaska</strong>n geology <strong>and</strong> resources: <strong>Alaska</strong> Geological Society Symposium, 1977, p. F1-F21. Gilbert, W.G., Solie, D.N., Kline, J.T., <strong>and</strong> Dickey, D.B., 1990, Geologic map <strong>of</strong> <strong>the</strong> McGrath 8-3 quadrangle. <strong>Alaska</strong> Division <strong>of</strong> Geological <strong>and</strong> Geophysical Surveys Pr<strong>of</strong>essional Report 102, 2 sheets, scale 1:63,360. Glukhovsky, M.Z., Mralev, V.M., <strong>and</strong> Kukhanov, M.K., 1993, Tectonic setting <strong>of</strong> Pal-Proterozoic anothosites <strong>and</strong> granites in <strong>the</strong> Aldan Shield <strong>and</strong> zoning <strong>of</strong> <strong>the</strong>rmotectonic processes: Geotectonics, no. 3, p. 69- 81. Godwin, C.I., 1976, Casino, in Su<strong>the</strong>rl<strong>and</strong> Brown, A., ed., Porphyry Deposits <strong>of</strong> <strong>the</strong> Canadian Cordillera, Canadian Institute <strong>of</strong> Mining, Metallurgy, <strong>and</strong> Petroleum Special Volume 15, p. 344-354. Godwin, C.I., Gabi, J.E., <strong>and</strong> Andrew, A., 1988, Leadtable: A galena lead isotope data base for <strong>the</strong> Canadian Cordillera: British Columbia Ministry <strong>of</strong> Energy. Mins <strong>and</strong> Petroleum Resources Paper 19884,188 p. Goldfarb, R.J., 1997, Metallogenic evolution <strong>of</strong> <strong>Alaska</strong>, in Goldfarb, R.J., <strong>and</strong> Miller, L.D., eds., Mineral deposits <strong>of</strong> <strong>Alaska</strong>: Economic Geology Monograph 9, p. 4-34. Goldfarb, R.J., Carter Borden, J., <strong>and</strong> Winkler, G.R., 1995, Geochemical survey <strong>of</strong> <strong>the</strong> Valdez I0x3O quadrangle, south-central <strong>Alaska</strong>: U.S. Geological Survey Bulletin 2084, 77 p., 1 sheet, scale 1 :250.000. Goldfarb, R., Hart, C., Miller, M., Miller, L., <strong>Far</strong>mer, G.L.. <strong>and</strong> Groves, D., 2000, The Tintina gold belt - A global
perspective, in Tucker, T.L., <strong>and</strong> Smith, M.T., eds., The Tintina gold belt: Concepts, Exploration, <strong>and</strong> Discoveries: British Columbia <strong>and</strong> Yukon Chamber <strong>of</strong> Mines, Vancouver, Special Volume 2, p. 5-34. Goldfarb, R.J., Leach, D.L., Pickthorn, W.J., <strong>and</strong> Paterson, C.J., 1988, Origin <strong>of</strong> <strong>the</strong> Juneau gold belt, sou<strong>the</strong>astern <strong>Alaska</strong>: Geology, v. 16, p. 440-443. Goldfarb, R.J., Leach, D.L., Miller, M.L., <strong>and</strong> Pickthorn, W.J., 1986, Geology , metamorphic setting, <strong>and</strong> genetic constraints <strong>of</strong> epigenetic lode-gold mineralization within <strong>the</strong> Cretaceous Valdez Group, south-central <strong>Alaska</strong>, in Keppie, J.D., Boyle, R.W., <strong>and</strong> Haynes, S.J., eds., Turbidite-hosted gold deposits: Geological Association <strong>of</strong> Canada Special Paper 32, p. 87-1 05 Goldfarb, R.J., Light, T.D., <strong>and</strong> Leach, D.L.. 1986, Nature <strong>of</strong> <strong>the</strong> ore fluids at <strong>the</strong> <strong>Alaska</strong>-Juneau gold deposit, in Bartsch- Winkler, Susan, <strong>and</strong> Reed, K.M., eds., Geologic Studies in <strong>Alaska</strong> by <strong>the</strong> U.S. Geological Survey during 1985: U.S. Geological Survey Circular 978, p. 92-95. Goldfarb, R.J., <strong>and</strong> Miller, L.D., eds., 1997, Mineral deposits <strong>of</strong> <strong>Alaska</strong>: Economic Geology Monograph 9,482 p. Goldfarb, R.J., Miller, L.D., Leach, L.D., <strong>and</strong> Snee, L.W., 1997, Gold deposits in metamorphic rocks <strong>of</strong> <strong>Alaska</strong>, , in Goldfarb, R.J., <strong>and</strong> Miller, L.D., eds., Mineral deposits <strong>of</strong> <strong>Alaska</strong>: Economic Geology Monograph 9, p. 151-1 90. Goldfarb, R.J., Newberry, R.J., Pickthorn, W.J., <strong>and</strong> Gent, C.A., 1991, Oxygen, hydrogen, <strong>and</strong> sulfur isotope studies in <strong>the</strong> Juneau gold belt, sou<strong>the</strong>astern <strong>Alaska</strong>: Constraints on <strong>the</strong> origin <strong>of</strong> hydro<strong>the</strong>rmal fluids: Economic Geology, V. 86, p. 66-80. Goldfarb, R.J., Phillips, G.N., <strong>and</strong> Nokleberg, W.J., 1998, Tectonic setting <strong>of</strong> synorogenic gold deposits <strong>of</strong> <strong>the</strong> Pacific Rim: Ore Geology Reviews, v. 13, p. 185218. Goldfarb, R.J., Snee, L.W., <strong>and</strong> Pickthorn, W.J., 1993, Orogenesis, high-T <strong>the</strong>rmal events, <strong>and</strong> gold vein formation within metamorpohic rocks <strong>of</strong> <strong>the</strong> <strong>Alaska</strong>n cordillera: Mineralogical Magazine, v. 57, p. 375394. Goldfinger, C., Kulm, L.D., Yeats, R.S., McNeill, L.C., <strong>and</strong> Hummon, C., 1997, Oblique strike-slip faulting <strong>of</strong> <strong>the</strong> cetnral Cascadia submarine forearc: Journal <strong>of</strong> Geophysical Research, v.102, no. B, p. 8217-8243. Goldfinger, C., McNeil, L.C., Kulm, L.D., <strong>and</strong> Yeats, R.S., 1996, Width <strong>of</strong> <strong>the</strong> seismogenic plate boundary in Cascadia: structural indicators <strong>of</strong> strong <strong>and</strong> weak coupling [abs.]: Geological Society <strong>of</strong> America Abstracts with Programs, v. 28, p. 69. Goldfrid, U.D., Demin, G.P., <strong>and</strong> Krasilnikov, A.A., 1974, Geologic structural peculiarities <strong>and</strong> prospecting technique <strong>of</strong> <strong>the</strong> Karamken gold-silver deposit: Materialy po Geologii i Polzenym lskopaemym Severo-Vostoka SSSR, U.S.S.R. Academy <strong>of</strong> Sciences, v. 21, p. 7586 (in <strong>Russian</strong>). 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Goncharov, V.I., 1995b, Mineral resources <strong>of</strong> <strong>the</strong> Magadan region <strong>and</strong> problems <strong>of</strong> <strong>the</strong>ir development, in Bundtzen, T.K., Fonseca, A.L., <strong>and</strong> Mann, Roberta, eds., The Geology <strong>and</strong> Mineral Deposits <strong>of</strong> <strong>the</strong> <strong>Russian</strong> <strong>Far</strong> <strong>East</strong>: <strong>Alaska</strong> Miners Association, Glacier House Publications, Anchorage, <strong>Alaska</strong>, p.153-156. Gonevchuk, V,G, Gerasimov, N.S., <strong>and</strong> Gonevchuk, G.A., 1991, The granites <strong>of</strong> <strong>the</strong> Khingan-Olonoy ore district: Pacific Geology, no. 6, p. 150-1 57. Gonevchuk, V G , <strong>and</strong> Gonevchuk, G.A., 1991, On magmatic factors <strong>of</strong> <strong>the</strong> coincidence <strong>of</strong> tin-tungsten <strong>and</strong> molibdenum mineralization in <strong>the</strong> Tigrinoe deposit (Primorye), in Khomich, V.G, ed., Relationships between different deposit types in volcanic-plutonic belts <strong>of</strong> <strong>the</strong> Asia-Pacific juncture zone: U.S.S.R. Academy <strong>of</strong> Sciences, <strong>Far</strong> <strong>East</strong> Geological Institute, Vladivostok, p. 11 1-120 (in <strong>Russian</strong>). Gonevchuk, V.G., Kokorin, A., <strong>and</strong> Popovichenko, V., 1998, The Kavalerovo ore district, in Seltmann, R., Gonevchuk, G., <strong>and</strong> Khanchuk, A.. eds., International Field Conference in Vladivostok, Russia, September 1998: GeoForschungsZentrum Potsdam (GFZ), Potsdam, p. 51-76. Gonevchuk, V.G., Semenyak, B.I., <strong>and</strong> Ishihara, S., 1998, Age <strong>of</strong> tine greisens <strong>of</strong> Primorye <strong>and</strong> o<strong>the</strong>r questions <strong>of</strong> tin mineralization in Russia: Geology <strong>of</strong> Ore Deposits, v. 40, no. 4, p. 326-335 (in <strong>Russian</strong>). Goodfellow, W.D., <strong>and</strong> Jonasson, I.R., 1986, Environment <strong>of</strong> formation <strong>of</strong> <strong>the</strong> Howards Pass (XY) Zn-Pb deposit, Selwyn Basin, Yukon; in Mineral deposits <strong>of</strong> Nor<strong>the</strong>m Cordillera, Morin, J.A., ed., Canadian Institute <strong>of</strong> Mining <strong>and</strong> Metallurgy Special Volume 37, p. 1950. Gordey, S.P., 1992, Geological fieldwork in Teslin map area, sou<strong>the</strong>rn Yukon Territory, in Current Research, Part A: Geological Survey <strong>of</strong> Canada Paper 92-IA, p. 279-286. Gordey, S.P., <strong>and</strong> Anderson, R.G., 1993, Evolution <strong>of</strong> <strong>the</strong> nor<strong>the</strong>m Cordilleran miogeocline, Nahanni map-area (1051), Yukon <strong>and</strong> Northwest Territories: Geological Survey <strong>of</strong> Canada Memoir 428, 214 p. Gordey, S.P., Geldsetzer, H.H.J., Morrow, D.W., Bamber, E.W., Henderson, C.M., Richards, B.C., McGugan, A., Gibson, D.W., <strong>and</strong> Poulton, T.P., 1991, Upper Devonian to Middle Jurassic assemblages, Chapter 8, in Gabrielse, H. <strong>and</strong> Yorath, C.J., eds., Geology <strong>of</strong> <strong>the</strong> Cordilleran Orogen in Canada: Geological Survey <strong>of</strong> Canada, Geology <strong>of</strong> Canada, no. 4, p. 219-328. Gorelova, N.N., 1990, Local metasomatism occurrences <strong>and</strong> related mineralization in one <strong>of</strong> ultramafic massifs <strong>of</strong> <strong>the</strong> Koryak Highl<strong>and</strong>s: Proceedings <strong>of</strong> Higher Educational Establishments, Geology <strong>and</strong> Exploration, no. 2, p. 73- 78 (in <strong>Russian</strong>). Gorodinsky, M. E., Gulevich, V.V., <strong>and</strong> Titov, V.A., 1978, Copper occurrences in <strong>the</strong> U S.S.R. Nor<strong>the</strong>ast: Materialy po Geologii i Polzenym lskopaemym Severo- Vostoka SSSR, U.S S.R. Academy <strong>of</strong> Sciences, v. 24, p. 151 -1 58 (in <strong>Russian</strong>). Gorodinsky, M.E., Gulevich, V.V., Neznanov, N.N., Palymsky, B.F., <strong>and</strong> Radzivill, A.Ya., 1974, On geology <strong>and</strong> metallogeny <strong>of</strong> <strong>the</strong> Anyui-Oloy interfluve: Materialy po Geologii i Polzenym lskopaemym Severo-Vostoka SSSR, U.S.S.R. Academy <strong>of</strong> Sciences, v. 21, p. 31-41 (in <strong>Russian</strong>). Goryachev, N.A., 1995, Meso<strong>the</strong>rmal lode gold deposits <strong>of</strong> <strong>the</strong> <strong>Russian</strong> <strong>Far</strong> <strong>East</strong>, in Bundtzen, T.K., Fonseca, A.L., <strong>and</strong> Mann, Roberta, eds., The Geology <strong>and</strong> Mineral Deposits <strong>of</strong> <strong>the</strong> <strong>Russian</strong> <strong>Far</strong> <strong>East</strong>: <strong>Alaska</strong> Miners Association, Glacier House Publications, Anchorage, <strong>Alaska</strong>, p. 141- 152. Goryachev, N.A., 1998, Geology <strong>of</strong> Mesozoic gold quartz veins in Nor<strong>the</strong>astern Asia: <strong>Russian</strong> Academy <strong>of</strong> Sciences,
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I EUSGS science Ior a changing wwld
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CONTENTS Abstract .................
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5 : 3 . Kedon metall lo genic Belt
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Parson and Brisco Barite Vein and G
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Overview ..........................
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Chepak Granitoid-Related Au Deposit
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Origin of and Tectonic Controls for
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Origin of and Tectonic Controls for
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Au-Ag Epithermal Vein Deposits Asso
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Metallogenesis and Tectonics of the
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and Byalobzhesky (1996). A volume c
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1,079 significant mineral deposits
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Acknowledgements We thank the many
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0 --mmm=oRuwrrrur ommmmarUaAll NEr-
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Figure 3. Generalized map of mtljor
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Archean granulite facies metamorphi
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Figure 5. Oroek sediment-h section
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1 a a - --rich sandstone ~b-Qmg@ner
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Origin of and Tectonic Setting for
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occur in clastic and impure carbona
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Figure 7. Sullivan sedimentary-exha
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I 1997a, b, 1998). The massive sulf
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Ma which locally form extensive plu
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Figure 10. Gerbikanskoe vdcanogenic
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Origin of and Tectonic Controls for
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from crystalline basement of craton
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Figure 13. Howards Pass sedknenWy e
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McLean Arm Porphyry Cu-Mo District
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[..'......I Surfia'al deposits (Hol
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Figwe 16. GeneraCied map of major M
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.- *.-* *. . - - ---- -A - EARLY MI
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Metallogenic Belt Formed During Col
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Origin of and Tectonic Controls for
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several tens of meters to 1,300 m l
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Goldfarb (197) who interprets that
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WTF and Red Mountain Kuroko Massive
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interpreted by and as part of a ext
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Mount Sicker Metallogenic Belt of K
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interpreted as vents. The deposit c
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Origin of and Tectonic Controls for
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Origin of and Tectonic Controls for
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Origin of and Tectonic Controls for
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hosted in the Yarkhodon subterrane
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origin of the younger Triassic(?) B
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Origin of and Tectonic Controls for
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Mississippian age of mineralizalioi
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Monger and Nokleberg, 1996; Noklebe
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1997a, b). Most of the magnesite an
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FL - Finlayson Lakm FR-FmLake LI -
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disseminations in chert, disseminat
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U F~gure 32 GemMzed m p of mejw -ni
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terrane, and by the Stikine Assembl
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Origin of and Tectonic Controls for
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Metallogenic-Tectonic Model for Lat
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. I . r ; 4 ~ (9) During subduction
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Eastern Alaska Range Metallogenic B
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individual flows range from 5 cm to
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occurrence of turbiditic clastic ro
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along the with tectonically-related
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: m- 3- w43 k M- u m u~u) mtl 'M~!A
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island-arc volcanic rocks of the Ni
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-- - //// EpldoW Figure 41. Nickel
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(TC), and Toodoggone (TO) belts whi
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(4) The Angayucham Ocean (Kobuck Se
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lueschist units and the McHugh Comp
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Origin of and Tectonic Controls for
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Figure 46. Lawyers Au-Ag epitiefmel
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Origin of and Tectonic Controls for
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(5) The Angayucham Ocean (Kobuck Se
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Figure 49 Generaltzed map Of mbjm L
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continental-margin terranes which w
- Page 144 and 145:
Pokrovskoe Au-Ag Epithermal Vein De
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Origin of and Tectonic Controls for
- Page 148 and 149:
Granite-porphm and wanits W e ~~ hl
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subordinate adularia, dolomite, cel
- Page 152 and 153:
shale, basalt, plagiorhyolite, silt
- Page 154 and 155:
ocks and serpentinite which occur a
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interpreted as forming in the Juras
- Page 158 and 159:
Fault / Figure 57. Bond Creek and O
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Klukwan-Duke Metallogenic Bett of M
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tonnes of ore mined between 1967 an
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Cariboo Metallogenic Belt of Au Qua
- Page 166 and 167:
Sheep Creek Au-Ag Polymetallic Vein
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---. .% of the North American Conti
- Page 170 and 171:
- OwiapaasembC Cmhmmmand Cemmcl. an
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in the west-central part of the Rus
- Page 174 and 175:
for about 850 krn (ZalishshaL ad oh
- Page 176 and 177:
Stanovoy Metallogenic Belt of Grani
- Page 178 and 179:
Goryachev, 1995, 1998, 2003) consis
- Page 180 and 181:
Altinskoe, Aragochan, Dalnee, Dokhs
- Page 182 and 183:
comprises up to 70-80% in some ore
- Page 184 and 185:
The Au quartz vein deposits are int
- Page 186 and 187:
leucogranite plutons form large, ho
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+ , . Diorite phyry dike (Early ~ta
- Page 190 and 191:
- . --- Origin of and Tectonic Cont
- Page 192 and 193:
Britannia Metallogenic Belt of Kuro
- Page 194 and 195:
Specific Events for Late Early Cret
- Page 196 and 197:
Figure 73. Solnechnae Sin qu- ~d~ n
- Page 198 and 199:
- Origin of and Tectonic Controls f
- Page 200 and 201:
Nome Metallogenic Belt of Au Quartz
- Page 202 and 203:
quartz vein deposits of the Souther
- Page 204 and 205:
Selwyn Plutonjc Suite. The host roc
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along the western end in the Eagle
- Page 208 and 209:
101 Ma (K.M. Dawson, unpublished da
- Page 210 and 211:
I Bayonne Metallogenic Belt of Porp
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., (VV) belts. These zones and beb
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I (2) The East Sikhote-Alin (es) co
- Page 216 and 217:
Metallogenic Belt Formed in Late Me
- Page 218 and 219:
The Pb-Zn polyrnetallu: vein depb a
- Page 220 and 221:
olistolith. The deposit is currentl
- Page 222 and 223:
the core of the veins, chlorite, Mn
- Page 224 and 225:
Tayozhnoe Ag Epithermal Vein Deposi
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Figure 90. lskra deposit Sn polyrne
- Page 228 and 229:
- El (Late ~re&ceous) I+ we cmm=s)
- Page 230 and 231:
Figure 93. Mnogovershinnoe AMq @pWw
- Page 232 and 233:
immed by wehrlite, olivine-magnetit
- Page 234 and 235:
Eastern Asia-Arctic Metallogenic Be
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which would be hosted in the early
- Page 238 and 239:
Etandzha Porphyry Cu-Mo and Muromet
- Page 240 and 241:
0- / Fadt . . Au veins and pods Fig
- Page 242 and 243:
Sentachan Clastic-Sediment-Hosted A
- Page 244 and 245:
I I I Undifferentiated vdcanic and
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.r . : . -d ' . . ,, $44 . assembla
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closure, the Chukotka supertca&c wa
- Page 250 and 251:
- Mgh anglefau#or prsminant Fitwar
- Page 252 and 253:
intrude and crosscut both the relat
- Page 254 and 255:
Figure 101 8. Ke~ecolt &4W d KemwaI
- Page 256 and 257:
Figure 103. Generalized map of majo
- Page 258 and 259:
metallogenic belt (SP) which contai
- Page 260 and 261:
Eastern Asia-Arctic Metallogenic Be
- Page 262 and 263:
Valunistoe Au-Ag Epithermal Vein De
- Page 264 and 265:
Lost River Sn-W Skarn and Sn Greise
- Page 266 and 267:
Wheeler Creek, Clear Creek, and Zan
- Page 268 and 269:
Au veln,and hots spring deposits at
- Page 270 and 271:
Chicken Mountain Cu-Au Deposit The
- Page 272 and 273:
Chip sample location - Fault / Cont
- Page 274 and 275:
A proximate laatbm c#f C h # d ~nar
- Page 276 and 277:
0.03 1% Mo; and (3) for a hypogene
- Page 278 and 279:
others, 1994c. 1997~). The granitoi
- Page 280 and 281:
Cross section - - South greisen zon
- Page 282 and 283:
Origin of and Tectonic Controls for
- Page 284 and 285:
198 1). The mine at the deposit pro
- Page 286 and 287:
Beatson (Latouche) and Ellamar Bess
- Page 288 and 289:
Origin of and Tectonic Controls for
- Page 290 and 291: CRETACEOUS Mount Leonard St& gueYtr
- Page 292 and 293: n pJ pRanens. Pd-dc i3 Meeomic .---
- Page 294 and 295: Figure 120. Huckleberry porphyry Cu
- Page 296 and 297: 0.15% Cu (ox), 0.127 g/t Au, and 0.
- Page 298 and 299: Zone are 188 million tonnes grading
- Page 300 and 301: Kitsault (B.C. Moly) Porphyry Mo De
- Page 302 and 303: million tonnes grading 0.42% Cu, 0.
- Page 304 and 305: extension. The Coryell Suite is int
- Page 306 and 307: elated deposits. Forming in the bac
- Page 308 and 309: Metallogenic Belts Formed in Tertia
- Page 310 and 311: Hg Deposits Hg deposits occur throu
- Page 312 and 313: Maletoivayam Sulfur-Sulfide Deposit
- Page 314 and 315: Origin of and Tectonic Controls for
- Page 316 and 317: (5) A major orthogonal junction for
- Page 318 and 319: Metallogenic Belts Formed in Tertia
- Page 320 and 321: occur in these tabular, altered sil
- Page 322 and 323: summarlzed above are used by analog
- Page 324 and 325: the Aleutian volcanic belt. The Yak
- Page 326 and 327: metamorphism, anatectic granites, a
- Page 328 and 329: References Cited Abbott, G., 1981,
- Page 330 and 331: Society of America Abstracts with P
- Page 332 and 333: Sciences, North-Eastern lnterdiscip
- Page 334 and 335: Burgoyne, A.A., 1986, geology and e
- Page 336 and 337: Canadian Cordillera, Yukon-northeas
- Page 338 and 339: the Koryak Highlands: Transactions
- Page 342 and 343: Northeast Scientific Intergrated Re
- Page 344 and 345: House, G.D., and Ainsworth, B., 199
- Page 346 and 347: International Field Conference in V
- Page 348 and 349: lithosphere in flood basalt genesis
- Page 350 and 351: MacKevett, E.M., Jr., 1978, Geologi
- Page 352 and 353: Miller, M.L., Bundtzen, T.K., and K
- Page 354 and 355: Nekrasov, I.Ya., 1995, Genetic type
- Page 357 and 358: Pakhomova, V.. Silyanik, V., Popov,
- Page 359 and 360: Pollack, John, 1997, Summary report
- Page 361 and 362: 1993: British Columbia Geological S
- Page 363 and 364: Schroeter, T.G., 1987, Golden Bear
- Page 365 and 366: Geology of the Liese zone, Pogo pro
- Page 367 and 368: Colorado, Geological Society of Ame
- Page 369 and 370: lnstitute of Mining and Metallurgy
- Page 371 and 372: Anorthosite apatite-Ti-Fe Gabbroic
- Page 373 and 374: TABLE 2. Summary of correlations an
- Page 375 and 376: TABLE 2. Summary of correlations an
- Page 377 and 378: 9! TABLE ectonic environment of Pro
- Page 379 and 380: (Abbreviation) Rassokha (RA) Dzhard
- Page 381 and 382: Metallogenic Belt (Abbreviation) Be
- Page 383 and 384: Major Mineral Deposits Types. Envir
- Page 385 and 386: (Abbreviation) Guichon (GU) I Belt
- Page 387 and 388: Major Mineral Deposits Types. Envir
- Page 389 and 390: (Abbreviation) (Significant Mineral
- Page 391 and 392:
(Abbreviation) Adycha-Taryn (EAAT)
- Page 393 and 394:
~etallo~enic Belt Major Mineral Dep
- Page 395 and 396:
Metallogenic Belt (Abbreviation) Ca
- Page 397 and 398:
TABLE 4. Significant lode deposits,
- Page 399 and 400:
Mineral Deposit Model Major Metals
- Page 401 and 402:
Deposit Name Mineral Deposit Model
- Page 403 and 404:
Deposit Name Mineral Deposit Model
- Page 405 and 406:
Deposit Name Mineral Deposit Model
- Page 407 and 408:
Deposit Name Mineral Deposit Model
- Page 409 and 410:
Deposit Name Mineral Deposit Model
- Page 411 and 412:
Deposit Nmme Mineral Deposit Model
- Page 413 and 414:
Deposit Name Mineral Deposit Model
- Page 415 and 416:
Deposit Name Mineral Deposit Model
- Page 417 and 418:
Deposit Name Mineral Deposit Model
- Page 419 and 420:
p;. ;A'..* Deposit Name Mineral Dep
- Page 421 and 422:
Deposit Name Mineral Deposit Model
- Page 423 and 424:
Deposit Name Mineral Deposit Model
- Page 425:
De~osit Name Mineral Deposit Model