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NARROW
GeoRef Subject
-
all geography including DSDP/ODP Sites and Legs
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Africa
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Southern Africa
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Namibia (2)
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South Africa (1)
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Arctic region
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Greenland
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Summit Greenland (1)
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Asia
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Far East
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China (2)
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Siberia (1)
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Siberian Platform (1)
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Tibetan Plateau (1)
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Atlantic Ocean
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North Atlantic
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Jeanne d'Arc Basin (1)
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Australasia
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New Zealand
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Taupo volcanic zone (1)
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Bare Mountain (2)
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Black Mountains (16)
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Canada (1)
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Colorado River (1)
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Commonwealth of Independent States
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Russian Federation
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Siberian Platform (1)
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Death Valley (115)
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Devils Hole (1)
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Europe
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Alps
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Swiss Alps (1)
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Central Europe
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Germany (1)
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Switzerland
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Swiss Alps (1)
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Southern Europe
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Greece (1)
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Western Europe
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Iceland (1)
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Furnace Creek (7)
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Granite Mountains (1)
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Imperial Valley (2)
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Long Valley (3)
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Marble Mountains (1)
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Mexico
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Sonora Mexico (1)
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North America
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Basin and Range Province
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Great Basin (37)
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North American Cordillera (4)
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Rio Grande Rift (1)
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Sonoran Desert (1)
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North Island (1)
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Owens Valley (39)
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Pacific Coast (1)
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Pyramid Lake (1)
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Sacramento Basin (1)
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San Andreas Fault (2)
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San Joaquin Basin (1)
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Santa Rosa Mountains (2)
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Searles Lake (5)
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Sierra Nevada (42)
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Spring Mountains (4)
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United States
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Amargosa Desert (5)
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Arizona
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Gila County Arizona (1)
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La Paz County Arizona (1)
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Maricopa County Arizona (1)
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Pima County Arizona (1)
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California
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Central California (13)
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Death Valley Fault (3)
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Fresno County California (7)
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Garlock Fault (5)
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Imperial County California (1)
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Inyo County California
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Coso Hot Springs KGRA (13)
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Coso Range (16)
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Funeral Mountains (14)
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Inyo Mountains (79)
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Owens Lake (10)
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Panamint Range (38)
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Kern County California (5)
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Kingston Range (1)
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Madera County California (3)
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Mammoth Mountain (1)
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Mariposa County California (3)
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Mono County California
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Inyo Domes (2)
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Mono Lake (1)
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Obsidian Dome (2)
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Nopah Range (9)
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Salton Sea (2)
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San Benito County California (1)
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San Bernardino County California
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Avawatz Mountains (1)
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Trona California (2)
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Santa Barbara Channel (1)
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Sierra Nevada Batholith (7)
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Southern California (16)
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The Geysers (1)
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Transverse Ranges (1)
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Tulare County California (8)
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Tuolumne County California (1)
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Yosemite National Park (1)
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Colorado
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Larimer County Colorado (1)
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Ouray County Colorado (1)
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Death Valley National Park (10)
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Eastern California shear zone (10)
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Gila River (1)
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Great Basin (37)
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Mojave Desert (8)
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Nevada
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Clark County Nevada
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Las Vegas Nevada (2)
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Egan Range (1)
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Elko County Nevada (3)
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Esmeralda County Nevada
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Silver Peak Mountains (3)
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Eureka County Nevada (1)
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Lincoln County Nevada (5)
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Nevada Test Site (2)
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Nye County Nevada
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Pahute Mesa (1)
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Yucca Mountain (5)
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White Pine County Nevada
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Ely Nevada (1)
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Yucca Flat (1)
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New Mexico
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Jemez Mountains (1)
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Sandoval County New Mexico (1)
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Socorro County New Mexico
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Socorro New Mexico (1)
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Valles Caldera (1)
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Oregon (1)
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Pennsylvania
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Lancaster County Pennsylvania (1)
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Sevier orogenic belt (2)
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Southwestern U.S. (3)
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Texas
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Balcones fault zone (1)
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Bexar County Texas
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San Antonio Texas (1)
-
-
Brewster County Texas (1)
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Comal County Texas (1)
-
-
Utah
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Grand County Utah
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Moab Utah (1)
-
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Millard County Utah (2)
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Tooele County Utah (1)
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Washington County Utah
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Pine Valley Mountains (1)
-
-
-
Walker Lane (9)
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Washington (1)
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Western U.S. (6)
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USSR (1)
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Walker Lake (1)
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White Mountain (1)
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White Mountains (40)
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commodities
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brines (3)
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energy sources (1)
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gems (1)
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geothermal energy (9)
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metal ores
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lead ores (2)
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polymetallic ores (2)
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silver ores (2)
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tungsten ores (2)
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zinc ores (2)
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mineral deposits, genesis (6)
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mineral exploration (1)
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petroleum
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natural gas (2)
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elements, isotopes
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boron (1)
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carbon
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C-13/C-12 (22)
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C-14 (7)
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chemical ratios (1)
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halogens
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chlorine
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Cl-36 (2)
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-
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hydrogen
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D/H (4)
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deuterium (1)
-
-
isotope ratios (30)
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isotopes
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radioactive isotopes
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Al-26 (1)
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Be-10 (4)
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C-14 (7)
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Cl-36 (2)
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Pb-206/Pb-204 (3)
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Pb-207/Pb-204 (2)
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Pb-208/Pb-204 (2)
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Ra-226 (1)
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Re-187/Os-188 (1)
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Sm-147/Nd-144 (1)
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Th-230 (1)
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U-238 (1)
-
-
stable isotopes
-
C-13/C-12 (22)
-
D/H (4)
-
deuterium (1)
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He-4/He-3 (1)
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Nd-144/Nd-143 (5)
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O-18/O-16 (23)
-
Os-188/Os-187 (1)
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Pb-206/Pb-204 (3)
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Pb-207/Pb-204 (2)
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Pb-208/Pb-204 (2)
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Re-187/Os-188 (1)
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S-34/S-32 (1)
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Sm-147/Nd-144 (1)
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Sr-87/Sr-86 (7)
-
-
-
Lu/Hf (3)
-
metals
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actinides
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thorium
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Th-230 (1)
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-
uranium
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U-238 (1)
-
-
-
alkali metals
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potassium (2)
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sodium (1)
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-
alkaline earth metals
-
barium (1)
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beryllium
-
Be-10 (4)
-
-
calcium (2)
-
magnesium (2)
-
radium
-
Ra-226 (1)
-
-
strontium
-
Sr-87/Sr-86 (7)
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-
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aluminum
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Al-26 (1)
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cadmium (1)
-
iron
-
ferric iron (1)
-
-
lead
-
Pb-206/Pb-204 (3)
-
Pb-207/Pb-204 (2)
-
Pb-208/Pb-204 (2)
-
-
manganese (2)
-
platinum group
-
osmium
-
Os-188/Os-187 (1)
-
Re-187/Os-188 (1)
-
-
-
rare earths
-
neodymium
-
Nd-144/Nd-143 (5)
-
Sm-147/Nd-144 (1)
-
-
samarium
-
Sm-147/Nd-144 (1)
-
-
-
rhenium
-
Re-187/Os-188 (1)
-
-
silver (2)
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tungsten (1)
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zinc (1)
-
-
noble gases
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helium
-
He-4/He-3 (1)
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-
-
oxygen
-
O-18/O-16 (23)
-
-
selenium (1)
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sulfur
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S-34/S-32 (1)
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-
-
fossils
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Archaea (1)
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bacteria (1)
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burrows (8)
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Chordata
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Vertebrata
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Agnatha
-
Heterostraci (2)
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Pisces
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Osteichthyes
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Actinopterygii (1)
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-
-
Tetrapoda
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Aves (1)
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Mammalia
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Theria
-
Eutheria
-
Rodentia
-
Myomorpha
-
Cricetidae
-
Neotoma (1)
-
-
-
-
-
-
-
-
-
-
Cloudina (2)
-
ichnofossils
-
Cruziana (1)
-
Planolites (2)
-
Rusophycus (1)
-
Skolithos (1)
-
-
Invertebrata
-
Archaeocyatha (3)
-
Arthropoda
-
Mandibulata
-
Crustacea
-
Malacostraca
-
Amphipoda (1)
-
-
Ostracoda (3)
-
-
-
Trilobitomorpha
-
Trilobita (8)
-
-
-
Brachiopoda
-
Articulata (1)
-
Inarticulata (1)
-
-
Bryozoa (1)
-
Cnidaria
-
Anthozoa
-
Zoantharia
-
Rugosa (2)
-
-
-
Hydrozoa (1)
-
-
Echinodermata
-
Crinozoa
-
Crinoidea (3)
-
-
Echinozoa
-
Echinoidea (1)
-
Helicoplacoidea (3)
-
-
-
Mollusca
-
Bivalvia (1)
-
Cephalopoda
-
Ammonoidea (1)
-
-
Gastropoda (1)
-
Hyolithes (2)
-
-
Porifera
-
Demospongea (1)
-
-
Protista
-
Foraminifera
-
Fusulinina
-
Fusulinidae
-
Triticites (1)
-
-
-
-
Thecamoeba (1)
-
-
Vermes
-
Annelida (1)
-
-
-
Metazoa (5)
-
microfossils
-
Conodonta (9)
-
Fusulinina
-
Fusulinidae
-
Triticites (1)
-
-
-
problematic microfossils (1)
-
-
palynomorphs
-
miospores
-
pollen (1)
-
-
-
Plantae
-
algae (2)
-
-
problematic fossils
-
problematic microfossils (1)
-
-
prokaryotes (1)
-
thallophytes (1)
-
tracks (2)
-
-
geochronology methods
-
(U-Th)/He (4)
-
Ar/Ar (14)
-
exposure age (4)
-
fission-track dating (4)
-
He/He (1)
-
infrared stimulated luminescence (1)
-
K/Ar (7)
-
Lu/Hf (3)
-
optically stimulated luminescence (1)
-
paleomagnetism (10)
-
racemization (1)
-
Rb/Sr (1)
-
Sm/Nd (1)
-
tephrochronology (1)
-
Th/U (3)
-
thermochronology (5)
-
thermoluminescence (1)
-
tree rings (1)
-
U/Pb (30)
-
U/Th/Pb (2)
-
uranium disequilibrium (2)
-
-
geologic age
-
Cenozoic
-
Quaternary
-
Holocene
-
lower Holocene (2)
-
middle Holocene (1)
-
upper Holocene (1)
-
-
Pleistocene
-
Bishop Tuff (11)
-
middle Pleistocene (1)
-
upper Pleistocene
-
Weichselian
-
upper Weichselian
-
Younger Dryas (1)
-
-
-
Wisconsinan (1)
-
-
-
upper Quaternary (7)
-
-
Tertiary
-
lower Tertiary (1)
-
Neogene
-
Furnace Creek Formation (2)
-
Miocene
-
middle Miocene (1)
-
Paintbrush Tuff (3)
-
Tiva Canyon Member (1)
-
Topopah Spring Member (2)
-
upper Miocene (4)
-
-
Pliocene
-
upper Pliocene (1)
-
-
-
Paleogene
-
Eocene (3)
-
Oligocene (5)
-
-
upper Tertiary (1)
-
-
upper Cenozoic (8)
-
-
Lake Bonneville (1)
-
Mesozoic
-
Cretaceous
-
Lower Cretaceous (1)
-
Upper Cretaceous
-
Tuolumne Intrusive Suite (1)
-
-
-
Jurassic
-
Middle Jurassic (3)
-
Upper Jurassic (4)
-
-
Triassic
-
Lower Triassic
-
Smithian (1)
-
Spathian (1)
-
-
-
-
MIS 6 (1)
-
MIS 7 (1)
-
Paleozoic
-
Bird Spring Formation (3)
-
Cambrian
-
Bonanza King Formation (2)
-
Carrara Formation (4)
-
Lower Cambrian
-
Atdabanian (2)
-
Poleta Formation (17)
-
Terreneuvian (1)
-
Tommotian (3)
-
Zabriskie Quartzite (6)
-
-
Middle Cambrian (5)
-
Pioche Shale (1)
-
Upper Cambrian
-
Nopah Formation (1)
-
-
-
Carboniferous
-
Mississippian
-
Chainman Shale (1)
-
Upper Mississippian (3)
-
-
Pennsylvanian
-
Middle Pennsylvanian
-
Desmoinesian (1)
-
-
Upper Pennsylvanian
-
Gzhelian (1)
-
-
-
-
Devonian
-
Lost Burro Formation (5)
-
Lower Devonian
-
Emsian (1)
-
-
Middle Devonian (2)
-
-
Hidden Valley Dolomite (3)
-
lower Paleozoic (3)
-
middle Paleozoic (2)
-
Ordovician
-
Ely Springs Dolomite (3)
-
Eureka Quartzite (2)
-
Lower Ordovician
-
Floian (1)
-
-
Middle Ordovician (1)
-
Upper Ordovician (1)
-
-
Permian
-
Lower Permian
-
Cisuralian
-
Artinskian (1)
-
Asselian (1)
-
Kungurian (1)
-
-
Leonardian (1)
-
Wolfcampian (2)
-
-
Rotliegendes (1)
-
Upper Permian (1)
-
-
Silurian
-
Middle Silurian
-
Roberts Mountains Formation (1)
-
-
Upper Silurian (1)
-
-
-
Phanerozoic (1)
-
Precambrian
-
Johnnie Formation (7)
-
Kingston Peak Formation (9)
-
Noonday Dolomite (9)
-
Pahrump Series (3)
-
Stirling Quartzite (4)
-
upper Precambrian
-
Proterozoic
-
Mesoproterozoic (2)
-
Neoproterozoic
-
Cryogenian (1)
-
Ediacaran (8)
-
Marinoan (1)
-
Otavi Group (1)
-
Sturtian (1)
-
Vendian (5)
-
-
Paleoproterozoic (1)
-
-
-
Wyman Formation (6)
-
-
-
igneous rocks
-
igneous rocks
-
hypabyssal rocks (2)
-
plutonic rocks
-
diabase (2)
-
diorites
-
tonalite (1)
-
-
gabbros (1)
-
granites
-
aplite (1)
-
A-type granites (1)
-
granite porphyry (2)
-
rapakivi (1)
-
two-mica granite (1)
-
-
granodiorites (6)
-
monzonites (2)
-
pegmatite (3)
-
quartz monzonite (2)
-
syenites (1)
-
-
porphyry (1)
-
volcanic rocks
-
andesites (1)
-
basalts
-
alkali basalts
-
alkali olivine basalt (1)
-
-
-
dacites (2)
-
glasses
-
obsidian (1)
-
volcanic glass (1)
-
-
pyroclastics
-
ash-flow tuff (3)
-
ignimbrite (3)
-
pumice (1)
-
tuff (6)
-
welded tuff (2)
-
-
rhyolites
-
quartz porphyry (1)
-
-
-
-
volcanic ash (2)
-
-
metamorphic rocks
-
metamorphic rocks
-
cataclasites (1)
-
gneisses (2)
-
granulites (1)
-
hornfels (1)
-
marbles (2)
-
metaigneous rocks
-
metadiabase (1)
-
metatuff (1)
-
-
metasedimentary rocks
-
metapelite (3)
-
-
metasomatic rocks
-
skarn (2)
-
-
metavolcanic rocks (3)
-
mylonites (4)
-
quartzites (9)
-
schists (4)
-
slates (1)
-
-
-
minerals
-
arsenates
-
mimetite (1)
-
-
borates (2)
-
carbonates
-
calcite (7)
-
cerussite (1)
-
dolomite (5)
-
smithsonite (1)
-
spurrite (1)
-
-
halides
-
chlorides
-
halite (3)
-
mimetite (1)
-
-
-
minerals (13)
-
native elements
-
graphite (2)
-
-
oxides
-
baddeleyite (1)
-
ilmenite (1)
-
iron oxides (3)
-
limonite (1)
-
magnetite (3)
-
titanium oxides (1)
-
-
phosphates
-
apatite (6)
-
monazite (2)
-
-
selenates (1)
-
silicates
-
chain silicates
-
amphibole group
-
clinoamphibole
-
hornblende (2)
-
-
-
pyroxene group
-
clinopyroxene (2)
-
orthopyroxene (2)
-
-
-
framework silicates
-
feldspar group
-
alkali feldspar
-
K-feldspar (6)
-
microcline (1)
-
sanidine (2)
-
-
plagioclase
-
albite (1)
-
-
-
silica minerals
-
cristobalite (1)
-
opal (1)
-
quartz (4)
-
tridymite (1)
-
-
zeolite group (1)
-
-
magnesian silicates (1)
-
orthosilicates
-
nesosilicates
-
andalusite (1)
-
garnet group (3)
-
kyanite (1)
-
olivine group
-
forsterite (1)
-
olivine (2)
-
-
sillimanite (1)
-
spurrite (1)
-
titanite group
-
titanite (2)
-
-
zircon group
-
zircon (29)
-
-
-
sorosilicates
-
chevkinite group
-
chevkinite (1)
-
-
epidote group
-
epidote (1)
-
-
-
-
ring silicates
-
cordierite (1)
-
-
sheet silicates
-
chlorite group
-
chlorite (3)
-
-
clay minerals
-
kaolinite (1)
-
smectite (2)
-
-
illite (2)
-
mica group
-
biotite (6)
-
muscovite (4)
-
phengite (1)
-
-
sepiolite (1)
-
-
-
sulfates
-
brochantite (1)
-
chalcanthite (1)
-
copiapite (1)
-
glauberite (1)
-
gypsum (2)
-
-
sulfides
-
galena (3)
-
sphalerite (1)
-
-
sulfosalts
-
sulfobismuthites
-
matildite (1)
-
-
-
tungstates
-
scheelite (2)
-
-
-
Primary terms
-
absolute age (55)
-
Africa
-
Southern Africa
-
Namibia (2)
-
South Africa (1)
-
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Wyman Formation (6)
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Inyo County California
THE ROLE OF SURFICIAL BIOTURBATION IN THE LATEST EDIACARAN: A QUANTITATIVE ANALYSIS OF TRACE FOSSIL INTENSITY IN THE TERMINAL EDIACARAN–LOWER CAMBRIAN OF CALIFORNIA
Revised age and regional correlations of Cenozoic strata on Bat Mountain, Death Valley region, California, USA, from zircon U-Pb geochronology of sandstones and ash-fall tuffs
Insights from the Alabama Hills into Mesozoic Magmatism and Tectonics in Eastern California
Pyroclastic deposits of Ubehebe Crater, Death Valley, California, USA: Ballistics, pyroclastic surges, and dry granular flows
The Ediacaran–Cambrian transition in the southern Great Basin, United States
Mississippian sedimentary facies belts in east-central California, occurring primarily in the autochthon (lower plate) of the Last Chance Thrust, are consistently oriented in a northeast–southwest direction. The boundary of one belt is marked by the depositional limit of the Osagean to Meramecian Santa Rosa Hills Limestone; a second belt farther to the northwest is bordered by the erosional truncation of the Kinderhookian to Osagean Tin Mountain Limestone. Two additional facies belts, both in the Meramecian to Chesterian Kearsarge Formation, also are present in the area; one near Jackass Flats is marked by the presence of limestone and quartzite olistoliths, and the other in the Last Chance Range includes abundant chert–pebble conglomerates. These two facies of the Kearsarge Formation also occur to the southwest at and near Mazourka Canyon in the allochthon (upper plate) of the Last Chance Thrust. The great similarity and near alignment of these facies belts in both the allochthon and the autochthon can be explained by clockwise rotation of ~55° of the allochthon around a pivot point in the west-central Inyo Mountains. In this model, displacement on the Last Chance Thrust increases from zero at the pivot point to 75 km for rocks exposed in the northern White Mountains. Reconstruction of the paleogeography suggests that the Last Chance Thrust is not part of a major fold and thrust belt but is a major structure limited to a relatively small area along the continental margin where the leading edge of an allochthonous terrane (possibly the Northern Sierra Terrane) impinged against the North American plate.
Evolution of the Pennsylvanian Ely–Bird Spring Basin: Insights from Carbon Isotope Stratigraphy
Analysis and correlation of strata in ancient basins are commonly difficult due to a lack of high-resolution age control. This study tackled this problem for the latest Mississippian to middle Pennsylvanian Ely–Bird Spring basin. Here, 1095 new carbon isotope analyses combined with existing biostratigraphy at six sections throughout the basin constrain changes in relative sediment accumulation rates in time and space. The Ely–Bird Spring basin contains dominantly shallow-water carbonates exposed in eastern and southern Nevada, western Utah, and southeastern California. It formed as part of the complex late Paleozoic southwestern Laurentian plate margin. However, the detailed evolution of the basin, and hence the tectonic driver(s) of deformation, is poorly understood. The combined isotopic and biostratigraphic data were correlated using the Match-2.3 dynamic programming algorithm. The correlations show a complex picture of sediment accumulation throughout the life of the Ely–Bird Spring basin. Initially, the most rapid sediment accumulation was in the eastern part of the basin. Throughout Morrowan time, the most rapid sediment accumulation migrated to the northwestern part of the basin, culminating in a peak of sediment accumulation in Atokan time. This peak records tectonic loading at the north or northwest margin of the basin. Basin sedimentation was interrupted by early Desmoinesian time in the north by formation of northwest-directed thrust faults, folds, uplift, and an associated unconformity. Deposition continued in the south with a correlative conformity and increased clastic input. The combination of isotopic and biostratigraphic data for correlation is therefore a valuable tool for elucidating temporal basin evolution and can be readily applied to tectonically complex carbonate basins worldwide.
ABSTRACT In a reconnaissance investigation aimed at interrogating the changing topography and paleogeography of the western United States prior to Basin and Range faulting, a preliminary study made use of U-Pb ages of detrital zircon suites from 16 samples from the Eocene–Oligocene Titus Canyon Formation, its overlying units, and correlatives near Death Valley. The Titus Canyon Formation unconformably overlies Neoproterozoic to Devonian strata in the Funeral and Grapevine Mountains of California and Nevada. Samples were collected from (1) the type area in Titus Canyon, (2) the headwaters of Monarch Canyon, and (3) unnamed Cenozoic strata exposed in a klippe of the Boundary Canyon fault in the central Funeral Mountains. Red beds and conglomerates at the base of the Titus Canyon Formation at locations 1 and 2, which contain previously reported 38–37 Ma fossils, yielded mostly Sierran batholith–age detrital zircons (defined by Triassic, Jurassic, and Cretaceous peaks). Overlying channelized fluvial sandstones, conglomerates, and minor lacustrine shale, marl, and limestone record an abrupt change in source region around 38–36 Ma or slightly later, from more local, Sierran arc–derived sediment to extraregional sources to the north. Clasts of red radiolarian-bearing chert, dark radiolarian chert, and quartzite indicate sources in the region of the Golconda and Roberts Mountains allochthons of northern Nevada. Sandstones intercalated with conglomerate contain increasing proportions of Cenozoic zircon sourced from south-migrating, caldera-forming eruptions at the latitude of Austin and Ely in Nevada with maximum depositional ages (MDAs) ranging from 36 to 24 Ma at the top of the Titus Canyon Formation. Carbonate clasts and ash-rich horizons become more prevalent in the overlying conglomeratic Panuga Formation (which contains a previously dated 15.7 Ma ash-flow tuff). The base of the higher, ash-dominated Wahguyhe Formation yielded a MDA of 14.4 Ma. The central Funeral Mountains section exposes a different sequence of units that, based on new data, are correlative to the Titus Canyon, Panuga, and Wahguyhe Formations at locations 1 and 2. An ash-flow tuff above its (unexposed) base provided a MDA of 34 Ma, and the youngest sample yielded a MDA of 12.7 Ma. The striking differences between age-correlative sections, together with map-based evidence for channelization, indicate that the Titus Canyon Formation and overlying units likely represent fluvial channel, floodplain, and lacustrine deposits as sediments mostly bypassed the region, moving south toward the Paleogene shoreline in the Mojave Desert. The profound changes in source regions and sedimentary facies documented in the Titus Canyon Formation took place during ignimbrite flareup magmatism and a proposed eastward shift of the continental divide from the axis of the Cretaceous arc to a new divide in central Nevada in response to thermal uplift and addition of magma to the crust. This uplift initiated south-flowing fluvial systems that supplied sediments to the Titus Canyon Formation and higher units.
ABSTRACT In this study, we determined the timing of burial and subsequent exhumation of Barrovian metamorphic rocks from the Chloride Cliff area of the Funeral Mountains in southeastern California by constraining the ages of different portions of a pressure-temperature ( P-T ) path. Using a split-stream laser-ablation inductively coupled plasma–mass spectrometry (ICP-MS) system, we analyzed 192 domains from 35 grains of monazite within fiv