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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Antarctica
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Antarctic Peninsula (1)
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Asia
-
Far East
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China
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Dabie Mountains (1)
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Sulu Terrane (1)
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Atlantic Ocean
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North Atlantic
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Gulf of Mexico (1)
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Labrador Sea (1)
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Black Mountains (1)
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Canadian Cordillera (1)
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Cascade Range (1)
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Europe
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Highland region Scotland
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Inverness-shire Scotland
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Isle of Skye (1)
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Green River basin (1)
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Jack Hills (1)
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Mexico
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Superior Province (1)
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Great Plains
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Northern Great Plains (1)
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North American Cordillera
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Rocky Mountains
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Tobacco Root Mountains (1)
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Pacific Coast (2)
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Pacific Ocean
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North Pacific
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Pioneer Mountains (2)
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Salmon River (4)
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United States
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California
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Coeur d'Alene mining district (1)
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Colorado
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Great Basin (2)
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Idaho Batholith (17)
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Montana
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Mineral County Montana (3)
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Ravalli County Montana (2)
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Nevada
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New York
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Oregon
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Owyhee Mountains (1)
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Sevier orogenic belt (5)
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Bitterroot Range (5)
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Tobacco Root Mountains (1)
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Utah
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Box Elder County Utah (1)
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Washington (4)
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Western U.S. (1)
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Wyoming
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Fremont County Wyoming (1)
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Laramie County Wyoming (1)
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Wyoming Province (2)
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commodities
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fluorspar deposits (1)
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metal ores
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base metals (1)
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gold ores (1)
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lead ores (1)
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lead-zinc deposits (1)
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rare earth deposits (1)
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silver ores (1)
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uranium ores (1)
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zinc ores (1)
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mineral deposits, genesis (3)
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mineral exploration (3)
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placers (1)
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elements, isotopes
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carbon
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C-13/C-12 (3)
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hydrogen
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D/H (3)
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deuterium (1)
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isotope ratios (22)
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isotopes
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radioactive isotopes
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Be-10 (1)
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Pb-206/Pb-204 (5)
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Pb-207/Pb-204 (4)
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Pb-208/Pb-204 (3)
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Sm-147/Nd-144 (1)
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stable isotopes
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C-13/C-12 (3)
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D/H (3)
-
deuterium (1)
-
Hf-177/Hf-176 (5)
-
Nd-144/Nd-143 (7)
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O-18/O-16 (11)
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Pb-206/Pb-204 (5)
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Pb-207/Pb-204 (4)
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Pb-208/Pb-204 (3)
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Sm-147/Nd-144 (1)
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Sr-87/Sr-86 (13)
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-
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Lu/Hf (4)
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metals
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alkaline earth metals
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beryllium
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Be-10 (1)
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strontium
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Sr-87/Sr-86 (13)
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hafnium
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Hf-177/Hf-176 (5)
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lead
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Pb-206/Pb-204 (5)
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Pb-207/Pb-204 (4)
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Pb-208/Pb-204 (3)
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precious metals (1)
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rare earths
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lutetium (1)
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neodymium
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Nd-144/Nd-143 (7)
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Sm-147/Nd-144 (1)
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samarium
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Sm-147/Nd-144 (1)
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oxygen
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O-18/O-16 (11)
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geochronology methods
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(U-Th)/He (3)
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Ar/Ar (9)
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K/Ar (3)
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Lu/Hf (4)
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optically stimulated luminescence (2)
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paleomagnetism (4)
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Rb/Sr (2)
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thermochronology (4)
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U/Pb (26)
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geologic age
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Cenozoic
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Glenns Ferry Formation (1)
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Quaternary
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Pleistocene
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Lake Missoula (1)
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upper Pleistocene (2)
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Tertiary
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Challis Volcanics (3)
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Neogene
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Miocene
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Columbia River Basalt Group (5)
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lower Miocene (1)
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Topopah Spring Member (1)
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upper Miocene (2)
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Pliocene (2)
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Paleogene
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Eocene
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Absaroka Supergroup (1)
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Lake Gosiute (1)
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middle Eocene
-
Tyee Formation (1)
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Umpqua Formation (1)
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upper Eocene (1)
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-
lower Paleogene (1)
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Oligocene
-
upper Oligocene (1)
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-
Paleocene
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lower Paleocene (1)
-
-
Renova Formation (1)
-
-
-
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Mesozoic
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Cretaceous
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Lower Cretaceous (1)
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Middle Cretaceous (3)
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Upper Cretaceous (9)
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Jurassic
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Ladner Group (1)
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Upper Jurassic
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Stump Formation (1)
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Triassic (3)
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Paleozoic
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Cambrian (1)
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Permian (2)
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Phanerozoic (2)
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Precambrian
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Archean
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Neoarchean (2)
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Prichard Formation (1)
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Purcell System (2)
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upper Precambrian
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Proterozoic
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Mesoproterozoic
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Belt Supergroup (6)
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Wallace Formation (1)
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Neoproterozoic
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Sturtian (1)
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Paleoproterozoic (5)
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Windermere System (2)
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igneous rocks
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igneous rocks
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plutonic rocks
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anorthosite (1)
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diorites
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tonalite (3)
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gabbros (1)
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granites
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A-type granites (2)
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granodiorites (4)
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monzodiorite (1)
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monzonites (1)
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quartz monzonite (2)
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volcanic rocks
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basalts (4)
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pyroclastics
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tuff (2)
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rhyolites (2)
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metamorphic rocks
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metamorphic rocks
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amphibolites (1)
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gneisses
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orthogneiss (3)
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paragneiss (1)
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metaigneous rocks
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metagranite (1)
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serpentinite (1)
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metasedimentary rocks
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metasomatic rocks
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migmatites (2)
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mylonites (3)
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minerals
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carbonates
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parisite (1)
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halides
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fluorides
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parisite (1)
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phosphates
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apatite (1)
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monazite (1)
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silicates
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chain silicates
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amphibole group
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clinoamphibole
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hornblende (1)
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framework silicates
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feldspar group
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alkali feldspar
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K-feldspar (1)
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plagioclase (1)
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silica minerals
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quartz
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smoky quartz (1)
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-
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orthosilicates
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nesosilicates
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garnet group (3)
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zircon group
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zircon (25)
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sorosilicates
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epidote group
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epidote (1)
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sheet silicates
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chlorite group
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chlorite (1)
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clay minerals
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kaolinite (1)
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smectite (1)
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illite (2)
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mica group
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biotite (1)
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celadonite (1)
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muscovite (3)
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-
sulfides
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stibnite (1)
-
-
-
Primary terms
-
absolute age (37)
-
Antarctica
-
Antarctic Peninsula (1)
-
-
Asia
-
Far East
-
China
-
Dabie Mountains (1)
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Sulu Terrane (1)
-
-
-
-
Atlantic Ocean
-
North Atlantic
-
Gulf of Mexico (1)
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Labrador Sea (1)
-
-
-
Australasia
-
Australia
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Western Australia (1)
-
-
-
Canada
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Cassiar Mountains (1)
-
Western Canada
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Alberta
-
Alberta Basin (1)
-
-
British Columbia
-
Vancouver Island (2)
-
-
Canadian Cordillera (1)
-
Yukon Territory (1)
-
-
-
carbon
-
C-13/C-12 (3)
-
-
Cenozoic
-
Glenns Ferry Formation (1)
-
Quaternary
-
Pleistocene
-
Lake Missoula (1)
-
upper Pleistocene (2)
-
-
-
Tertiary
-
Challis Volcanics (3)
-
Neogene
-
Miocene
-
Columbia River Basalt Group (5)
-
lower Miocene (1)
-
Topopah Spring Member (1)
-
upper Miocene (2)
-
-
Pliocene (2)
-
-
Paleogene
-
Eocene
-
Absaroka Supergroup (1)
-
Lake Gosiute (1)
-
middle Eocene
-
Tyee Formation (1)
-
-
Umpqua Formation (1)
-
upper Eocene (1)
-
-
lower Paleogene (1)
-
Oligocene
-
upper Oligocene (1)
-
-
Paleocene
-
lower Paleocene (1)
-
-
Renova Formation (1)
-
-
-
-
continental drift (2)
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crust (15)
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data processing (1)
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deformation (12)
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diagenesis (1)
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economic geology (1)
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Europe
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Western Europe
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United Kingdom
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Great Britain
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Scotland
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Hebrides
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Inner Hebrides
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Isle of Skye (1)
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-
Highland region Scotland
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Inverness-shire Scotland
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Isle of Skye (1)
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-
-
-
-
-
-
-
faults (24)
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fluorspar deposits (1)
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folds (1)
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foliation (4)
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geochemistry (14)
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geochronology (2)
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geomorphology (2)
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geophysical methods (3)
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glacial geology (1)
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heat flow (1)
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hydrogen
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D/H (3)
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deuterium (1)
-
-
hydrology (1)
-
igneous rocks
-
plutonic rocks
-
anorthosite (1)
-
diorites
-
tonalite (3)
-
-
gabbros (1)
-
granites
-
A-type granites (2)
-
-
granodiorites (4)
-
monzodiorite (1)
-
monzonites (1)
-
quartz monzonite (2)
-
ultramafics (1)
-
-
volcanic rocks
-
basalts (4)
-
pyroclastics
-
tuff (2)
-
-
rhyolites (2)
-
-
-
inclusions
-
fluid inclusions (2)
-
-
intrusions (28)
-
isotopes
-
radioactive isotopes
-
Be-10 (1)
-
Pb-206/Pb-204 (5)
-
Pb-207/Pb-204 (4)
-
Pb-208/Pb-204 (3)
-
Sm-147/Nd-144 (1)
-
-
stable isotopes
-
C-13/C-12 (3)
-
D/H (3)
-
deuterium (1)
-
Hf-177/Hf-176 (5)
-
Nd-144/Nd-143 (7)
-
O-18/O-16 (11)
-
Pb-206/Pb-204 (5)
-
Pb-207/Pb-204 (4)
-
Pb-208/Pb-204 (3)
-
Sm-147/Nd-144 (1)
-
Sr-87/Sr-86 (13)
-
-
-
lava (1)
-
magmas (7)
-
mantle (5)
-
maps (1)
-
Mesozoic
-
Cretaceous
-
Lower Cretaceous (1)
-
Middle Cretaceous (3)
-
Upper Cretaceous (9)
-
-
Jurassic
-
Ladner Group (1)
-
Upper Jurassic
-
Stump Formation (1)
-
-
-
Triassic (3)
-
-
metal ores
-
antimony ores (1)
-
base metals (1)
-
gold ores (1)
-
lead ores (1)
-
lead-zinc deposits (1)
-
rare earth deposits (1)
-
silver ores (1)
-
tungsten ores (1)
-
uranium ores (1)
-
zinc ores (1)
-
-
metals
-
alkaline earth metals
-
beryllium
-
Be-10 (1)
-
-
strontium
-
Sr-87/Sr-86 (13)
-
-
-
hafnium
-
Hf-177/Hf-176 (5)
-
-
lead
-
Pb-206/Pb-204 (5)
-
Pb-207/Pb-204 (4)
-
Pb-208/Pb-204 (3)
-
-
precious metals (1)
-
rare earths
-
lutetium (1)
-
neodymium
-
Nd-144/Nd-143 (7)
-
Sm-147/Nd-144 (1)
-
-
samarium
-
Sm-147/Nd-144 (1)
-
-
-
-
metamorphic rocks
-
amphibolites (1)
-
gneisses
-
orthogneiss (3)
-
paragneiss (1)
-
-
metaigneous rocks
-
metagranite (1)
-
serpentinite (1)
-
-
metasedimentary rocks
-
paragneiss (1)
-
-
metasomatic rocks
-
serpentinite (1)
-
-
migmatites (2)
-
mylonites (3)
-
quartzites (3)
-
schists (1)
-
-
metamorphism (6)
-
metasomatism (1)
-
Mexico
-
Guerrero Terrane (1)
-
-
mineral deposits, genesis (3)
-
mineral exploration (3)
-
Mohorovicic discontinuity (1)
-
North America
-
Basin and Range Province
-
Great Basin (2)
-
-
Belt Basin (1)
-
Canadian Shield
-
Grenville Province (1)
-
Superior Province (1)
-
-
Great Plains
-
Northern Great Plains (1)
-
-
North American Cordillera
-
Canadian Cordillera (1)
-
-
North American Craton (1)
-
Omineca Belt (1)
-
Rocky Mountains
-
Northern Rocky Mountains (4)
-
U. S. Rocky Mountains
-
Bitterroot Range (5)
-
Tobacco Root Mountains (1)
-
-
-
-
ocean basins (1)
-
orogeny (5)
-
oxygen
-
O-18/O-16 (11)
-
-
Pacific Coast (2)
-
Pacific Ocean
-
East Pacific
-
Northeast Pacific
-
Cascadia Basin (1)
-
-
-
North Pacific
-
Northeast Pacific
-
Cascadia Basin (1)
-
-
-
-
paleoclimatology (2)
-
paleogeography (9)
-
paleomagnetism (4)
-
Paleozoic
-
Cambrian (1)
-
Permian (2)
-
-
paragenesis (2)
-
petrology (1)
-
Phanerozoic (2)
-
phase equilibria (1)
-
placers (1)
-
plate tectonics (15)
-
Precambrian
-
Archean
-
Neoarchean (2)
-
-
Prichard Formation (1)
-
Purcell System (2)
-
upper Precambrian
-
Proterozoic
-
Mesoproterozoic
-
Belt Supergroup (6)
-
Wallace Formation (1)
-
-
Neoproterozoic
-
Sturtian (1)
-
-
Paleoproterozoic (5)
-
Windermere System (2)
-
-
-
-
sea-floor spreading (1)
-
sedimentary rocks
-
clastic rocks
-
argillite (1)
-
conglomerate (2)
-
sandstone (3)
-
siltstone (1)
-
-
-
sediments
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clastic sediments
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erratics (1)
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gravel (1)
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sand (1)
-
-
-
South America
-
Brazil
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Borborema (1)
-
-
-
structural analysis (4)
-
structural geology (2)
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tectonics
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neotectonics (1)
-
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tectonophysics (1)
-
United States
-
Albion Range (1)
-
California
-
Inyo County California (1)
-
Mono County California
-
Long Valley Caldera (1)
-
-
-
Coeur d'Alene mining district (1)
-
Colorado
-
Weld County Colorado (1)
-
-
Great Basin (2)
-
Idaho
-
Adams County Idaho (2)
-
Boise County Idaho (2)
-
Cassia County Idaho (1)
-
Clearwater County Idaho (1)
-
Custer County Idaho (3)
-
Gem County Idaho (1)
-
Idaho County Idaho (5)
-
Latah County Idaho (1)
-
Lemhi Range (1)
-
Lewis County Idaho (1)
-
Snake River plain (3)
-
Valley County Idaho (6)
-
-
Idaho Batholith (17)
-
Lewis and Clark Lineament (3)
-
Montana
-
Granite County Montana (1)
-
Madison County Montana
-
Tobacco Root Mountains (1)
-
-
Mineral County Montana (3)
-
Missoula County Montana (3)
-
Ravalli County Montana (2)
-
-
Nevada
-
Clark County Nevada (1)
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Humboldt County Nevada
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Bitterroot Lobe
Thermal and fluid regimes in the Bitterroot lobe–Sapphire block detachment zone, Montana: Evidence from 18 O/ 16 O and geologic relations
The Idaho batholith and associated plutons, Idaho and Western Montana
The 39,000-km 2 Idaho batholith lies 600 km east of the present Pacific coastline and east of the Columbia River basalt plateau. The batholith is Late Cretaceous in age and is emplaced immediately east of the Triassic Seven Devils volcanic arc, an apparently allochthonous terrane which may be part of the recently recognized "Wrangellia terrane" of western Canada and southern Alaska. Locus of a Late Cretaceous subduction zone related to the Idaho batholith is not yet defined but must lie west of the Seven Devils arc. Country rocks of the Idaho batholith are Proterozoic Belt metasediments and pre-Belt basement orthogneisses. Pre-batholithic, sillimanite-zone, regional dyna-mothermal metamorphism, apparently Jurassic or Cretaceous in age, is broadly concentric to the northern half of the batholith, extending for a few to several kilometers beyond the contact. The Idaho batholith is dominantly medium-grained, massive to moderately foliated, muscovite-biotite granite and granodiorite. Gneissic tonalite, rich in biotite and hornblende, forms a 12-16 kilometer-wide western border zone of the batholith, and tonalite or trondhjemite form satellitic plutons for 50-70 kilometers to the west. Granodiorite makes up a 10-20 kilometer-wide border zone against exposed country rocks of most of the batholith and surrounds the voluminous granite of the batholith interior. Such granodiorite has not been documented adjacent to the pre-Belt basement rocks of the northwest-trending Salmon River arch, which divides the Idaho batholith into a northern Bitterroot lobe and a southern Atlanta lobe. Granodiorite may have formed a broad shell over most of the batholith which may have originally extended across the deeply eroded Salmon River arch. The borders of a few large separate intrusions have been partly documented, especially in the interior of the Bitterroot lobe, but for most of the batholith, separate major bodies are as yet unknown. Foliation in the western tonalitic border zone of both lobes dips 50 to 70 degrees eastward under the batholith. To the east in the main body of the batholith, the foliation weakens and gradually arches to nearly horizontal in the interior. Southwestern and northeastern border zones of the deeper northern part of the batholith are marked by large alternating sheets of granitic and high-grade country rocks. Large, tabular or contorted inclusions and nebulous schlieren are abundant towards the interior. The north-trending Bitterroot dome of the northeastern Bitterroot lobe appears to have formed a mushroom-shaped diapir into the country rocks, then rose isostatically in response to eastward unloading of the 6000 km 2 Sapphire tectonic block. The base of the flanks of this part of the batholith has been mapped on the southwest and northeast. Chemically, the Idaho batholith appears related to the volumetrically minor "sodic series" recognized by Tilling in the Boulder batholith to the east. Radiometric ages in both batholiths appear to be similar. The hornblende-bearing tonalites of the western border and more-mafic satellitic plutons to the west, north, and northeast of the Idaho batholith appear to have the "I-type", "magnetite-series" mineralogy of Chappell and White and of Ishihara, respectively. The muscovite-bearing main units of the batholith appear to have "S-type" and probably "ilmenite-series" mineralogy. Sources for magmas forming the tonalitic western border zones of the Idaho batholith were probably mafic-rich rocks of the upper mantle or of subducted oceanic crust or young continental margin volcanic rocks. Magmas forming the granodiorite-granite main body of the batholith wre probably derived by partial melting of Precambrian continental basement rocks. The main body of the Bitterroot Lobe of the batholith appears to have been emplaced at a depth of 15 to 20 km, and much of the magma was probably generated at not much greater depth. Metallic mineral deposits are essentially absent from the deeper Bittrroot lobe. Correlation of magnetite-series granitic rocks and Cu-Mo mineralization and ilmenite-series granitic rocks with Sn-W mineralization can be partly documented for the Atlanta lobe and for plutons east of the batholith, but data are sketchy and, in part, appear contradictory.
Timing of Hydrothermal Alteration and Au-Sb-W Mineralization, Stibnite-Yellow Pine District, Idaho
Probing for Proterozoic and Archean crust in the northern U.S. Cordillera with inherited zircon from the Idaho batholith
Hells Canyon to the Bitterroot front: A transect from the accretionary margin eastward across the Idaho batholith
Abstract This field guide covers geology across north-central Idaho from the Snake River in the west across the Bitterroot Mountains to the east to near Missoula, Montana. The regional geology includes a much-modified Mesozoic accretionary boundary along the western side of Idaho across which allochthonous Permian to Cretaceous arc complexes of the Blue Mountains province to the west are juxtaposed against autochthonous Mesoproterozoic and Neoproterozoic North American metasedimentary assemblages intruded by Cretaceous and Paleogene plutons to the east. The accretionary boundary turns sharply near Orofino, Idaho, from north-trending in the south to west-trending, forming the Syringa embayment, then disappears westward under Miocene cover rocks of the Columbia River Basalt Group. The Coolwater culmination east of the Syringa embayment exposes allochthonous rocks well east of an ideal steep suture. North and east of it is the Bitterroot lobe of the Idaho batholith, which intruded Precambrian continental crust in the Cretaceous and Paleocene to form one of the classical North American Cordilleran batholiths. Eocene Challis plutons, products of the Tertiary western U.S. ignimbrite flare-up, intrude those batholith rocks. This guide describes the geology in three separate road logs: (1) The Wallowa terrane of the Blue Mountains province from White Bird, Idaho, west into Hells Canyon and faults that complicate the story; (2) the Mesozoic accretionary boundary from White Bird to the South Fork Clearwater River east of Grangeville and then north to Kooskia, Idaho; and (3) the bend in the accretionary boundary, the Coolwater culmination, and the Bitterroot lobe of the Idaho batholith along Highway 12 east from near Lewiston, Idaho, to Lolo, Montana.