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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Africa
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East Africa
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Lake Turkana (1)
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Turkana Basin (1)
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East African Lakes
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Lake Turkana (1)
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East African Rift (1)
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Antarctica
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Ross Island (1)
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Asia
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Far East
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Philippine Islands
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Luzon
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Mount Pinatubo (1)
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Atlantic Ocean
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Mid-Atlantic Ridge (1)
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North Atlantic
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Kane fracture zone (1)
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Australasia
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New Zealand
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Okataina volcanic centre (1)
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Taupo (1)
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Taupo volcanic zone (2)
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Caribbean region
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West Indies
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Antilles
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Lesser Antilles
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Soufriere (1)
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Cascade Range (1)
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Central America
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Costa Rica
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Irazu (1)
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Guatemala (2)
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East Pacific Ocean Islands
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Hawaii
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Hawaii County Hawaii
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Hawaii Island
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Kilauea (1)
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Fuego (2)
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Indian Ocean
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Mid-Indian Ridge
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Southeast Indian Ridge (1)
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Mexico
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Popocatepetl (2)
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Trans-Mexican volcanic belt (1)
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Mount Erebus (1)
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North Island (2)
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Oceania
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Polynesia
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Hawaii
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Hawaii County Hawaii
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Hawaii Island
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Kilauea (1)
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Pacific Ocean
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East Pacific
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Galapagos Rift (1)
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Northeast Pacific
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Juan de Fuca Ridge (1)
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North Pacific
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Northeast Pacific
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Juan de Fuca Ridge (1)
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West Pacific
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Ontong Java Plateau (2)
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South Island (1)
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United States
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Alaska (2)
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California
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Mono County California
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Long Valley Caldera (1)
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Shasta County California
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Lassen Peak (1)
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Hawaii
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Hawaii County Hawaii
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Hawaii Island
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Kilauea (1)
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Oregon (1)
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Yellowstone National Park (1)
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elements, isotopes
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halogens
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chlorine (2)
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hydrogen
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tritium (1)
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isotope ratios (2)
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isotopes
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radioactive isotopes
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Ar-40/Ar-39 (1)
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Pb-206/Pb-204 (1)
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tritium (1)
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U-238/Pb-204 (1)
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stable isotopes
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Ar-40/Ar-39 (1)
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Pb-206/Pb-204 (1)
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S-34/S-32 (1)
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metals
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actinides
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uranium
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U-238/Pb-204 (1)
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alkaline earth metals
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magnesium (1)
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strontium (1)
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lead
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Pb-206/Pb-204 (1)
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U-238/Pb-204 (1)
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rare earths
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dysprosium (1)
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neodymium (1)
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noble gases
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argon
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Ar-40/Ar-39 (1)
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sulfur
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S-34/S-32 (1)
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geochronology methods
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exposure age (1)
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geologic age
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Cenozoic
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Quaternary
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Holocene (1)
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Pleistocene
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Bishop Tuff (2)
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upper Pleistocene (1)
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upper Quaternary (1)
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igneous rocks
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igneous rocks
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volcanic rocks
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basalts
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flood basalts (1)
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mid-ocean ridge basalts (1)
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glasses
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volcanic glass (1)
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phonolites (1)
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pyroclastics
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pumice (1)
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scoria (1)
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tuff (1)
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rhyolites (3)
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minerals
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silicates
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framework silicates
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silica minerals
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quartz (3)
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orthosilicates
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nesosilicates
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olivine group
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olivine (4)
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Primary terms
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absolute age (1)
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Africa
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East Africa
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Lake Turkana (1)
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Turkana Basin (1)
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East African Lakes
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Lake Turkana (1)
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East African Rift (1)
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Antarctica
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Ross Island (1)
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Asia
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Far East
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Philippine Islands
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Luzon
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Mount Pinatubo (1)
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Atlantic Ocean
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Mid-Atlantic Ridge (1)
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North Atlantic
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Kane fracture zone (1)
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atmosphere (1)
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Australasia
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New Zealand
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Okataina volcanic centre (1)
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Taupo (1)
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Taupo volcanic zone (2)
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Caribbean region
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West Indies
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Antilles
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Lesser Antilles
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Soufriere (1)
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Cenozoic
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Quaternary
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Holocene (1)
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Pleistocene
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Bishop Tuff (2)
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upper Pleistocene (1)
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upper Quaternary (1)
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Central America
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Costa Rica
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Irazu (1)
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Guatemala (2)
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crystal chemistry (1)
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East Pacific Ocean Islands
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Hawaii
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Hawaii County Hawaii
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Hawaii Island
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Kilauea (1)
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faults (1)
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geochemistry (5)
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hydrogen
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tritium (1)
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igneous rocks
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volcanic rocks
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basalts
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flood basalts (1)
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mid-ocean ridge basalts (1)
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glasses
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volcanic glass (1)
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phonolites (1)
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pyroclastics
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pumice (1)
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scoria (1)
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tuff (1)
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rhyolites (3)
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inclusions
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fluid inclusions (10)
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Indian Ocean
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Mid-Indian Ridge
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Southeast Indian Ridge (1)
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isotopes
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radioactive isotopes
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Ar-40/Ar-39 (1)
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Pb-206/Pb-204 (1)
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tritium (1)
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U-238/Pb-204 (1)
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stable isotopes
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Ar-40/Ar-39 (1)
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Pb-206/Pb-204 (1)
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S-34/S-32 (1)
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lava (5)
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magmas (12)
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mantle (2)
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metals
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actinides
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uranium
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U-238/Pb-204 (1)
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alkaline earth metals
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magnesium (1)
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strontium (1)
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lead
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Pb-206/Pb-204 (1)
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U-238/Pb-204 (1)
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rare earths
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dysprosium (1)
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neodymium (1)
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Mexico
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Popocatepetl (2)
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Trans-Mexican volcanic belt (1)
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noble gases
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argon
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Ar-40/Ar-39 (1)
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Ocean Drilling Program
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Leg 192
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ODP Site 1183 (1)
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ODP Site 1184 (1)
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ODP Site 1185 (1)
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ODP Site 1186 (1)
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ODP Site 1187 (1)
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Oceania
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Polynesia
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Hawaii
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Hawaii County Hawaii
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Hawaii Island
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Kilauea (1)
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Pacific Ocean
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East Pacific
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Galapagos Rift (1)
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Northeast Pacific
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Juan de Fuca Ridge (1)
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North Pacific
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Northeast Pacific
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Juan de Fuca Ridge (1)
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West Pacific
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Ontong Java Plateau (2)
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phase equilibria (2)
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plate tectonics (4)
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spectroscopy (1)
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sulfur
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S-34/S-32 (1)
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tectonics (1)
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United States
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Alaska (2)
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California
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Mono County California
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Long Valley Caldera (1)
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Shasta County California
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Lassen Peak (1)
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Hawaii
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Hawaii County Hawaii
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Hawaii Island
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Kilauea (1)
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Oregon (1)
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Yellowstone National Park (1)
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sedimentary rocks
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volcaniclastics (1)
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sediments
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volcaniclastics (1)
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Transition to magma-driven rifting in the South Turkana Basin, Kenya: Part 2
Slab-derived sulfate generates oxidized basaltic magmas in the southern Cascade arc (California, USA)
Chapter 7.2 Mount Erebus
Abstract Erebus volcano, Antarctica, is the southernmost active volcano on the globe. Despite its remoteness and harsh conditions, Erebus volcano provides an unprecedented and unique opportunity to study the petrogenesis and evolution, as well as the passive and explosive degassing, of an alkaline magmatic system with a persistently open and magma-filled conduit. In this chapter, we review nearly five decades of scientific research related to Erebus volcano, including geological, geophysical, geochemical and microbiological observations and interpretations. Mount Erebus is truly one of the world's most significant natural volcano laboratories where the lofty scientific goal of studying a volcanic system from mantle to microbe is being realized.
Vapor-bubble growth in olivine-hosted melt inclusions
Ascent rates of rhyolitic magma at the onset of three caldera-forming eruptions
Volatiles and Exsolved Vapor in Volcanic Systems
Melt inclusion CO 2 contents, pressures of olivine crystallization, and the problem of shrinkage bubbles
Bubbles matter: An assessment of the contribution of vapor bubbles to melt inclusion volatile budgets
Synchronous late Pleistocene extensional faulting and basaltic volcanism at Four Craters Lava Field, central Oregon, USA
Degassing of the H 2 O-rich rhyolites of the Okataina Volcanic Center, Taupo Volcanic Zone, New Zealand
The Sulfur Budget in Magmas: Evidence from Melt Inclusions, Submarine Glasses, and Volcanic Gas Emissions
Mafic magma recharge supplies high CO 2 and SO 2 gas fluxes from Popocatépetl volcano, Mexico
Volatile Abundances in Basaltic Magmas and Their Degassing Paths Tracked by Melt Inclusions
Anomalous uplift and subsidence of the Ontong Java Plateau inferred from CO 2 contents of submarine basaltic glasses
Front Matter
Abstract This volume summarizes the results of recent research on the Ontong Java Plateau (OJP) in the western Pacific Ocean ( Fig. 1 ). The plateau is the most voluminous of the world’s large igneous provinces (LIPs) and represents by far the largest known magmatic event on Earth. LIPs are formed through eruptions of basaltic magma on a scale not seen on Earth at the present time (e.g. Coffin & Eldholm 1994 ; Mahoney & Coffin 1997 ). Continental flood basalt provinces are the most obvious manifestation of LIP magmatism, but they have oceanic counterparts in volcanic rifted margins and giant submarine ocean plateaus. LIPs have also been identified on the Moon, Mars and Venus, and may represent the dominant form of volcanism in the solar system ( Head & Coffin 1997 ). The high magma production rates (i.e. large eruption volume and high eruption frequency) involved in LIP magmatism cannot be accounted for by normal plate tectonic processes. Anomalously hot mantle often appears to be required, and this requirement has been a key consideration in the formulation of the currently favoured plume-head hypothesis in which LIPs are formed through rapid decompression and melting in the head of a newly ascended mantle plume (e.g. Richards et al. 1989 ; Campbell & Griffiths 1990 ). Eruption of enormous volumes of basaltic magma over short time intervals, especially in the subaerial environment, may have had significant effects on climate and the biosphere, and LIP formation has been proposed as one of the causes of
Abstract A new model of Pacific absolute plate motion between 140 and 0 Ma, generated in the fixed hot-spot frame of reference, has been used to track palaeogeographic positions of the Ontong Java Plateau (OJP) from the time ( c. 122 Ma) and location ( c. 43°S) of its formation to its present location north of the Solomon Islands. The resulting OJP seafloor flow-line suggests that changes in Pacific plate motion, passage over hot spots and Pacific Rim tectonism all have influenced the continuing structural development and deformation of the plateau. Satellite-derived gravity, bathymetry and Rayleigh-wave tomography potentially reveal the structural fabric of the OJP and adjoining Nauru Basin, including the orientation of probable fracture zones, location of possible relict spreading centres and the presence of a thick lithospheric root, as well as possible later hot-spot-related modification of the fabric. The most recent phase of OJP deformation, which began about 6 Ma, accelerated at 2.6 Ma and continues today, has resulted in the uplift of the islands of Malaita and Santa Isabel, and the formation of the Malaita Anticlinorium, with slip along the old fracture zones possibly triggering submarine canyon formation on the NE side of the OJP. This collision-related deformation also is probably responsible for the ongoing uplift and tilting of the islands of Nauru and Banaba NE of the OJP high plateau.
Abstract Formation of the Ontong Java Plateau (OJP), a large igneous province in the western Pacific, has been attributed to a rising plume head in the initial stage of the Louisville hot spot, approximately 120–125 Ma ago. However, the Neal et al. plate reconstruction suggests that the plateau formed approximately 9° north of the current location of this hot spot at 51°S. The magnetization of the plateau’s basement records a palaeolatitude of approximately 25°S which further increases the discrepancy with the plume-head model. Modelling the motion of the Louisville hot spot for the last 120 Ma yields a possible southward motion of up to about 6°. True polar wander (TPW) models also shift the predicted palaeolatitudes of the plateau farther north. Taking into account both hot-spot motion and TPW, formation of the OJP by the Louisville not spot remains a possibility.
Abstract We present new palaeomagnetic data from Ocean Drilling Program Site 1184 on the eastern salient of the Ontong Java Plateau (OJP) where 337.7 m of Early Cretaceous ( c. 120 Ma) volcaniclastic rocks were drilled. Alternating field and thermal demagnetizations were equally effective in removing secondary components, allowing the characteristic remanent magnetization directions from a total of 173 samples (out of 183) to be defined. All samples have negative inclinations (normal polarity), and by treating each sample as an independent reading of the palaeomagnetic field a site-mean inclination of −53.9° ( N = 173; α 95 = 1.0°, k = 109) was obtained. The corresponding palaeo-colatitude is in excellent accordance with previously published time-averaged palaeo-colatitudes from contemporaneous basalts drilled at OJP and the Nauru Basin. Based on the intersection of the seven palaeo-colatitudes a new Early Cretaceous ( c. 120 Ma) Pacific palaeomagnetic pole was obtained with co-ordinates 63.0°N, 10.1°E (95% confidence ellipse with a minor semi-axis of 2.9° with an azimuth of 32° and a major semi-axis of 47.7° with an azimuth of 122°). This pole is far more easterly than previously published Early Cretaceous Pacific palaeomagnetic poles. Based on published Pacific palaeogeographic reconstructions in the fixed hot-spot reference frame we were able to calculate different Pacific true polar wander (TPW) poles. All Pacific TPW poles are found to be statistically different from contemporaneous TPW poles obtained in the Indo-Atlantic realm, illustrating motion between the two groups of hot spots.
Abstract A rock magnetic study has been performed on rock samples recovered at Ocean Drilling Program Leg 192 sites on the Ontong Java Plateau in the western Pacific. Igneous rocks from the five Leg 192 sites displayed variable rock magnetic properties. The differences in the rock magnetic properties are a function of mineralogy and alteration. Titanomagnetite and titanomaghemite are present in the Ontong Java rocks. Samples with titanomagnetite exhibit Verwey transitions in the vicinity of 120K. Low-temperature curves for samples with multiple magnetic phases do not clearly show the Verwey transition. The inversion of titanomaghemite to a strongly magnetized magnetite is shown by the irreversible thermomagnetic-cooling curve. Despite the geographically widespread locations of the drill sites, variations in rock magnetic properties closely resemble each other, consistent with the fundamental results of the leg that the basement rocks were derived from homogeneous Kwaimbaita-type magma with a single age of approximately 120 Ma. The rock magnetic investigation provides constraints to evaluate the fidelity of the natural magnetic memory in the basalt rocks and corroborates the palaeomagnetic palaeolatitudes determinations for the Ontong Java Plateau. The generally good quality of rock magnetic data exhibited by Leg 192 rocks supports the inference that the characteristic directions of magnetization isolated from the Cretaceous Ontong Java Plateau sites were acquired near the onset of the Cretaceous Long Normal Superchron about 120 Ma. The portion of the Pacific plate containing the Leg 192 sites was in the southern hemisphere during the mid-Cretaceous volcanism.