Metallogenesis and Tectonics of the Russian Far East, Alaska, and ...

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during 1984: U.S. Geological Survey Circular 967, p. 27- 29. Gamyanin, G.N., and Goryachev, N.A., 1988, Near-surface mineralization in eastern Yakutia: Tikhookeanskaya Geologiya, no. 2, p. 82-89. (in Russian). Gamyanin, G.N., and Goryachev, N.A., 1991, Gold mineral- magmatic systems of the granitoid range in the northeastern U.S.S.R., in Gamyanin. G.N., Surnin, A.A., Trunilina, V.A., and Yakovlev, Ya.B., eds., Ore magmatic systems of the eastern U.S.S.R.: U.S.S.R. Academy of Sciences, Siberian Branch, Institute of Geology, Yakutsk, p. 37-48 (in Russian). Gamyanin, G.N., Silichev, M.K., Goryachev, N.A., and Belozertseva, N.V., 1985, A polystage gold lode deposit: Geologiya Rudnykh Mestorozhdeniy, no. 5, p. 86-89 (in Russian). Gandhi, S.S., and Bell, R.T., 1996, KirunalOlympic Darn-type iron, copper, uranium, gold, silver; in Geology of Canadian Mineral Deposit Types, Eckstrand, O.R., Sinclair, W.D. and Thorpe, R.I., eds, Geological Survey of Canada, Geology of Canada, no. 8, p. 513-522. Ganeev, A.Sh., 1974, Secondary quartzites of the Oogdin superimposed depression, in Grinberg, G.A., ed., New data on magmatism in Yakutia: U.S.S.R. Academy of Sciences, Siberian Branch, Institute of Geology, Yakutsk, p. 151-154 (in Russian). Garbuzov, S.P., Sedykh, A.N., and Tarasov, G.A., 1987, The Nikolaevsky volcano-tectonic depression, Primorye: Geology, skarns, and ore: U.S.S.R. Academy of Sciences, Vladivostok, 184 p. (in Russian). Gardner, M.C., Bergman, S.C., MacKevett, E.M., Jr., Plafker, G., Campbell, R.C., Cushing, G. W., Dodds, C.J., and McClelland, W.D., 1988,. Middle Pennsylvanian pluton stitching of Wrangellia and the Alexander terrane, Wrangell Mountains, Alaska. Geology, v. 16, p. 967-971. Garnett, J.A., 1978, Geology and mineral occurrences of the southern Hogem batholith; Bfitish Columbia Ministry of Mines and Petroleum Resources, Bulletin 70, 75p. Garnett, J.A., 1978, Geology and mlneral occurrences of the southern Hogem batholith: British Columbia Ministry of Energy, Mines and Petroleum Resources, Bulletin 70, 75 p. Garver, J.I., Brandon, M.T., and Soloviev, A.V., 1998, Source of Ukelayat flysch and collison of the Olutorsky arc, northern Kamchatka, Russian Far East [abs.]: Geological Society of America Annual Meeting Program with Abstracts, v. 30, p. A269. Gavrikov, S.I., and Zharova, V.P., 1963, The structure of the ore field and mineralization of the Zhdannoe gold deposit: Proceedings of the All-Union mineralogic society, part 92, v. 1, p. 26-32 (in Russian). Gavrilov, A.M., Novozhilov, Yu.1.. and Sidorov, A.A., 1986, On the relation of gold-arsenic-antimony mineralization to the formations of "impregnation sulfide ores with fine- dispersed gold: Tikhookeanskaya Geologiya, no. 3, p. 108-1 1 1 (in Russian). Gehrels, G.E., 1992, Geologic map of Southem Prince of Wales Island, southeastern Alaska. U.S. Geological Survey Map 1-2169, 1 sheet, scale 1:63,360, 23 p. Gehrels G.E., and Berg, H.C., 1992, Geologic map of southeastern Alaska. U.S. Geological Survey Miscellaneous Investigations Series Map 1-1867. 1 sheet, scale 1 :2,000,000, 24 p. Gehrels, G.E., and Berg, H.C., 1994, Geology of southeastern Alaska, in Plafker, George, and Berg, H.C., eds., The geology of Alaska: Boulder, Colo., Geological Society of America, The Geology of North America, v. G-1, p. 451- 468. Gehrels, G.E., McClelland, W.C., Sampson, S.D., Patchett, P.J., and Jackson, J.L., 1990, Ancient continental margin assemblage in the northern Coast Mountains, southeast Alaska and northwest Canada: Geology, v. 18., p. 208-21 1. Gehrels, G.E., and Saleeby, J.B., 1987, Geology of Southern Prince of Wales Island, southeastern Alaska. Geological of Society of America Bulletin, v. 98, p. 123-137. Gehrels, G.E., and Saleeby, J.B., 1987, Geologic framework, tectonic evolution, and displacement history of the Alexander terrane: Tectonics, v. 6, p. 151-1 73. Geist, E.L., Childs, J.R., and Scholl, D.W., 1988. The origin of the summit basins of the Aleutian Ridge: Implications for block rotation of an arc massif: Tectonics, v. 7, p. 327- 341. Geist, E.L., Vallier, T.L., and Scholl, D.W., 1994, Origm, transport, and emplacement of an exotic island-arc terrare exposed in eastern Kamchatka, Russia: Geological Society of America Bulletin, v. 106, p. 1182-1 194. Gelman. M.L., 1976, On the role of regional metamorphism in gold mineralization of the U.S.S.R. Northeast: U.S.S.R. Academy of Sciences Report 230, no. 6. p. 1406-1409 (in Russian). Gelman, M.C., 1986, Intrusive sequences: Metallogenic map of Magadan region and contiguous areas: Sewostgedogiya, Magadan, 21 p., scale 1:1,500,000 (in Russian). Gelman, M.L., Titov, V.A., and Fadeev, A.P., 1974, Omolon iron-type province: U.S.S.R. Academy of Sciences Report 278, no. 2, p. 419-422 (in Russian). Gerasimov, N.S., Rodionov, S.M., and Kompanichenko, V.N., 1990, The results of Rb-Sr dating of tin granites of Central Sikhote-Alin: Reports of Russian Academy of Sciences, v. 312, no. 5, p. 1,1831,186. Gilbert, W.G., and Bundtzen, T.K., 1979, MidPaleozoic tectonics, volcanism, and mineralization in north-central Alaska Range, in Sisson, A., ed., The relationship of plate tectonics to Alaskan geology and resources: Alaska Geological Society Symposium, 1977, p. F1-F21. Gilbert, W.G., Solie, D.N., Kline, J.T., and Dickey, D.B., 1990, Geologic map of the McGrath 8-3 quadrangle. Alaska Division of Geological and Geophysical Surveys Professional Report 102, 2 sheets, scale 1:63,360. Glukhovsky, M.Z., Mralev, V.M., and Kukhanov, M.K., 1993, Tectonic setting of Pal-Proterozoic anothosites and granites in the Aldan Shield and zoning of thermotectonic processes: Geotectonics, no. 3, p. 69- 81. Godwin, C.I., 1976, Casino, in Sutherland Brown, A., ed., Porphyry Deposits of the Canadian Cordillera, Canadian Institute of Mining, Metallurgy, and Petroleum Special Volume 15, p. 344-354. Godwin, C.I., Gabi, J.E., and Andrew, A., 1988, Leadtable: A galena lead isotope data base for the Canadian Cordillera: British Columbia Ministry of Energy. Mins and Petroleum Resources Paper 19884,188 p. Goldfarb, R.J., 1997, Metallogenic evolution of Alaska, in Goldfarb, R.J., and Miller, L.D., eds., Mineral deposits of Alaska: Economic Geology Monograph 9, p. 4-34. Goldfarb, R.J., Carter Borden, J., and Winkler, G.R., 1995, Geochemical survey of the Valdez I0x3O quadrangle, south-central Alaska: U.S. Geological Survey Bulletin 2084, 77 p., 1 sheet, scale 1 :250.000. Goldfarb, R., Hart, C., Miller, M., Miller, L., Farmer, G.L.. and Groves, D., 2000, The Tintina gold belt - A global
perspective, in Tucker, T.L., and Smith, M.T., eds., The Tintina gold belt: Concepts, Exploration, and Discoveries: British Columbia and Yukon Chamber of Mines, Vancouver, Special Volume 2, p. 5-34. Goldfarb, R.J., Leach, D.L., Pickthorn, W.J., and Paterson, C.J., 1988, Origin of the Juneau gold belt, southeastern Alaska: Geology, v. 16, p. 440-443. Goldfarb, R.J., Leach, D.L., Miller, M.L., and Pickthorn, W.J., 1986, Geology , metamorphic setting, and genetic constraints of epigenetic lode-gold mineralization within the Cretaceous Valdez Group, south-central Alaska, in Keppie, J.D., Boyle, R.W., and Haynes, S.J., eds., Turbidite-hosted gold deposits: Geological Association of Canada Special Paper 32, p. 87-1 05 Goldfarb, R.J., Light, T.D., and Leach, D.L.. 1986, Nature of the ore fluids at the Alaska-Juneau gold deposit, in Bartsch- Winkler, Susan, and Reed, K.M., eds., Geologic Studies in Alaska by the U.S. Geological Survey during 1985: U.S. Geological Survey Circular 978, p. 92-95. Goldfarb, R.J., and Miller, L.D., eds., 1997, Mineral deposits of Alaska: Economic Geology Monograph 9,482 p. Goldfarb, R.J., Miller, L.D., Leach, L.D., and Snee, L.W., 1997, Gold deposits in metamorphic rocks of Alaska, , in Goldfarb, R.J., and Miller, L.D., eds., Mineral deposits of Alaska: Economic Geology Monograph 9, p. 151-1 90. Goldfarb, R.J., Newberry, R.J., Pickthorn, W.J., and Gent, C.A., 1991, Oxygen, hydrogen, and sulfur isotope studies in the Juneau gold belt, southeastern Alaska: Constraints on the origin of hydrothermal fluids: Economic Geology, V. 86, p. 66-80. Goldfarb, R.J., Phillips, G.N., and Nokleberg, W.J., 1998, Tectonic setting of synorogenic gold deposits of the Pacific Rim: Ore Geology Reviews, v. 13, p. 185218. Goldfarb, R.J., Snee, L.W., and Pickthorn, W.J., 1993, Orogenesis, high-T thermal events, and gold vein formation within metamorpohic rocks of the Alaskan cordillera: Mineralogical Magazine, v. 57, p. 375394. Goldfinger, C., Kulm, L.D., Yeats, R.S., McNeill, L.C., and Hummon, C., 1997, Oblique strike-slip faulting of the cetnral Cascadia submarine forearc: Journal of Geophysical Research, v.102, no. B, p. 8217-8243. Goldfinger, C., McNeil, L.C., Kulm, L.D., and Yeats, R.S., 1996, Width of the seismogenic plate boundary in Cascadia: structural indicators of strong and weak coupling [abs.]: Geological Society of America Abstracts with Programs, v. 28, p. 69. Goldfrid, U.D., Demin, G.P., and Krasilnikov, A.A., 1974, Geologic structural peculiarities and prospecting technique of the Karamken gold-silver deposit: Materialy po Geologii i Polzenym lskopaemym Severo-Vostoka SSSR, U.S.S.R. Academy of Sciences, v. 21, p. 7586 (in Russian). Golozubov, V.V., and Khanchuk, A.I., 1996, Taukha and Zhuravlevka terranes of the South Sikhote Alin-Fragments of the Early Cretaceous margin of Asia: Geology of Pacific Ocean, v. 12, p. 203-220. Goncharov, V.I., 1995a, Geologic review of commercial mineralization types of the Okhotsk-Chukchi volcanic belt, in Bundtzen, T.K., Fonseca, A.L., and Mann, Roberta, eds., The Geology and Mineral Deposits of the Russian Far East: Alaska Miners Association, Glacier House Publications, Anchorage, Alaska, p. 134-140. Goncharov, V.I., 1995b, Mineral resources of the Magadan region and problems of their development, in Bundtzen, T.K., Fonseca, A.L., and Mann, Roberta, eds., The Geology and Mineral Deposits of the Russian Far East: Alaska Miners Association, Glacier House Publications, Anchorage, Alaska, p.153-156. Gonevchuk, V,G, Gerasimov, N.S., and Gonevchuk, G.A., 1991, The granites of the Khingan-Olonoy ore district: Pacific Geology, no. 6, p. 150-1 57. Gonevchuk, V G , and Gonevchuk, G.A., 1991, On magmatic factors of the coincidence of tin-tungsten and molibdenum mineralization in the Tigrinoe deposit (Primorye), in Khomich, V.G, ed., Relationships between different deposit types in volcanic-plutonic belts of the Asia-Pacific juncture zone: U.S.S.R. Academy of Sciences, Far East Geological Institute, Vladivostok, p. 11 1-120 (in Russian). Gonevchuk, V.G., Kokorin, A., and Popovichenko, V., 1998, The Kavalerovo ore district, in Seltmann, R., Gonevchuk, G., and Khanchuk, A.. eds., International Field Conference in Vladivostok, Russia, September 1998: GeoForschungsZentrum Potsdam (GFZ), Potsdam, p. 51-76. Gonevchuk, V.G., Semenyak, B.I., and Ishihara, S., 1998, Age of tine greisens of Primorye and other questions of tin mineralization in Russia: Geology of Ore Deposits, v. 40, no. 4, p. 326-335 (in Russian). Goodfellow, W.D., and Jonasson, I.R., 1986, Environment of formation of the Howards Pass (XY) Zn-Pb deposit, Selwyn Basin, Yukon; in Mineral deposits of Northem Cordillera, Morin, J.A., ed., Canadian Institute of Mining and Metallurgy Special Volume 37, p. 1950. Gordey, S.P., 1992, Geological fieldwork in Teslin map area, southern Yukon Territory, in Current Research, Part A: Geological Survey of Canada Paper 92-IA, p. 279-286. Gordey, S.P., and Anderson, R.G., 1993, Evolution of the northem Cordilleran miogeocline, Nahanni map-area (1051), Yukon and Northwest Territories: Geological Survey of 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., and Poulton, T.P., 1991, Upper Devonian to Middle Jurassic assemblages, Chapter 8, in Gabrielse, H. and Yorath, C.J., eds., Geology of the Cordilleran Orogen in Canada: Geological Survey of Canada, Geology of Canada, no. 4, p. 219-328. Gorelova, N.N., 1990, Local metasomatism occurrences and related mineralization in one of ultramafic massifs of the Koryak Highlands: Proceedings of Higher Educational Establishments, Geology and Exploration, no. 2, p. 73- 78 (in Russian). Gorodinsky, M. E., Gulevich, V.V., and Titov, V.A., 1978, Copper occurrences in the U S.S.R. Northeast: Materialy po Geologii i Polzenym lskopaemym Severo- Vostoka SSSR, U.S S.R. Academy of Sciences, v. 24, p. 151 -1 58 (in Russian). Gorodinsky, M.E., Gulevich, V.V., Neznanov, N.N., Palymsky, B.F., and Radzivill, A.Ya., 1974, On geology and metallogeny of the Anyui-Oloy interfluve: Materialy po Geologii i Polzenym lskopaemym Severo-Vostoka SSSR, U.S.S.R. Academy of Sciences, v. 21, p. 31-41 (in Russian). Goryachev, N.A., 1995, Mesothermal lode gold deposits of the Russian Far East, in Bundtzen, T.K., Fonseca, A.L., and Mann, Roberta, eds., The Geology and Mineral Deposits of the Russian Far East: Alaska Miners Association, Glacier House Publications, Anchorage, Alaska, p. 141- 152. Goryachev, N.A., 1998, Geology of Mesozoic gold quartz veins in Northeastern Asia: Russian Academy of 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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Page 17 and 18:
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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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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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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Page 82 and 83:
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Page 86 and 87:
hosted in the Yarkhodon subterrane
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origin of the younger Triassic(?) B
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Page 92 and 93:
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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Page 108 and 109:
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
Page 120 and 121:
: 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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Page 134 and 135:
Figure 46. Lawyers Au-Ag epitiefmel
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Page 138 and 139:
(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
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Pokrovskoe Au-Ag Epithermal Vein De
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Page 148 and 149:
Granite-porphm and wanits W e ~~ hl
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subordinate adularia, dolomite, cel
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shale, basalt, plagiorhyolite, silt
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ocks and serpentinite which occur a
Page 156 and 157:
interpreted as forming in the Juras
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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
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Sheep Creek Au-Ag Polymetallic Vein
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---. .% of the North American Conti
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- OwiapaasembC Cmhmmmand Cemmcl. an
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in the west-central part of the Rus
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for about 850 krn (ZalishshaL ad oh
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Stanovoy Metallogenic Belt of Grani
Page 178 and 179:
Goryachev, 1995, 1998, 2003) consis
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Altinskoe, Aragochan, Dalnee, Dokhs
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comprises up to 70-80% in some ore
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The Au quartz vein deposits are int
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leucogranite plutons form large, ho
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+ , . Diorite phyry dike (Early ~ta
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- . --- 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
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- Origin of and Tectonic Controls f
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Nome Metallogenic Belt of Au Quartz
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quartz vein deposits of the Souther
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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
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Metallogenic Belt Formed in Late Me
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The Pb-Zn polyrnetallu: vein depb a
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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
Page 226 and 227:
Figure 90. lskra deposit Sn polyrne
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- El (Late ~re&ceous) I+ we cmm=s)
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Figure 93. Mnogovershinnoe AMq @pWw
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immed by wehrlite, olivine-magnetit
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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
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0- / Fadt . . Au veins and pods Fig
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Sentachan Clastic-Sediment-Hosted A
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I I I Undifferentiated vdcanic and
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.r . : . -d ' . . ,, $44 . assembla
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closure, the Chukotka supertca&c wa
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- Mgh anglefau#or prsminant Fitwar
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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
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metallogenic belt (SP) which contai
Page 260 and 261:
Eastern Asia-Arctic Metallogenic Be
Page 262 and 263:
Valunistoe Au-Ag Epithermal Vein De
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Lost River Sn-W Skarn and Sn Greise
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Wheeler Creek, Clear Creek, and Zan
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Au veln,and hots spring deposits at
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Chicken Mountain Cu-Au Deposit The
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Chip sample location - Fault / Cont
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A proximate laatbm c#f C h # d ~nar
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0.03 1% Mo; and (3) for a hypogene
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others, 1994c. 1997~). The granitoi
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Cross section - - South greisen zon
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Page 284 and 285:
198 1). The mine at the deposit pro
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Beatson (Latouche) and Ellamar Bess
Page 288 and 289:
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,
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Mineral Deposit Model Major Metals
Page 401 and 402:
Deposit Name Mineral Deposit Model
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Metallogenesis and Tectonics of the Russian Far East, Alaska, and ...

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