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NARROW
GeoRef Subject
-
all geography including DSDP/ODP Sites and Legs
-
Africa
-
North Africa
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Algeria
-
Hassi Messaoud Field (1)
-
-
-
-
Asia
-
Baikal region (1)
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Buryat Russian Federation (1)
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Central Asia (1)
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Far East
-
Borneo
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Kalimantan Indonesia
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Mahakam Delta (1)
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China
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Bohaiwan Basin (1)
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Hebei China (1)
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Hunan China (1)
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Jilin China (2)
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North China Platform (1)
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Sanjiang (1)
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Sichuan Basin (1)
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South China Block (1)
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Taihang Mountains (1)
-
Xinjiang China
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Tarim Basin (1)
-
-
Xizang China (1)
-
Yunnan China
-
Ailao Shan (1)
-
-
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Indonesia
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Kalimantan Indonesia
-
Mahakam Delta (1)
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Mongolia
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Hangay Mountains (1)
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Tibetan Plateau (1)
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Australasia
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Australia
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Lachlan fold belt (1)
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Victoria Australia (1)
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Western Australia
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Pilbara Craton (1)
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Canada
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Eastern Canada
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Maritime Provinces
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Nova Scotia (1)
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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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Guadeloupe
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La Grande Soufriere (1)
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Commonwealth of Independent States
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Russian Federation
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Baikal region (1)
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Buryat Russian Federation (1)
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Europe
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Central Europe
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Germany (1)
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Western Europe
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United Kingdom
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English Channel Islands
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Guernsey (1)
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Huanghua Depression (1)
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Malay Archipelago
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Borneo
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Kalimantan Indonesia
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Mahakam Delta (1)
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-
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Pacific Ocean
-
North Pacific
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Northwest Pacific
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Shatsky Rise (1)
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Yellow Sea
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Bohai Sea
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Bohai Bay (1)
-
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-
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West Pacific
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Northwest Pacific
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Shatsky Rise (1)
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Yellow Sea
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Bohai Sea
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Bohai Bay (1)
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South America
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Brazil (1)
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United States
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Arkoma Basin (1)
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Illinois (1)
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Kansas
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-
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Midcontinent (1)
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Missouri
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Viburnum Trend (1)
-
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North Carolina
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Lee County North Carolina (1)
-
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Ozark Mountains (1)
-
-
-
commodities
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brines (2)
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geothermal energy (1)
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metal ores
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antimony ores (1)
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copper ores (1)
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gold ores (7)
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lead ores (2)
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lead-zinc deposits (1)
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nickel ores (1)
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platinum ores (1)
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zinc ores (2)
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mineral deposits, genesis (11)
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mineral exploration (1)
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oil and gas fields (3)
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petroleum
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natural gas
-
coalbed methane (1)
-
-
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tight sands (1)
-
-
elements, isotopes
-
carbon
-
C-13/C-12 (7)
-
-
halogens
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bromine (4)
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chlorine (4)
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fluorine (1)
-
iodine (3)
-
-
hydrogen
-
D/H (3)
-
-
isotope ratios (29)
-
isotopes
-
radioactive isotopes
-
Ar-38/Ar-36 (3)
-
Ar-40/Ar-39 (1)
-
Pb-206/Pb-204 (1)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
Sm-147/Nd-144 (1)
-
-
stable isotopes
-
Ar-36 (3)
-
Ar-38/Ar-36 (3)
-
Ar-40 (1)
-
Ar-40/Ar-36 (32)
-
Ar-40/Ar-39 (1)
-
C-13/C-12 (7)
-
D/H (3)
-
He-3 (1)
-
He-4/He-3 (17)
-
Kr-84 (2)
-
N-15/N-14 (3)
-
Ne-20 (1)
-
Ne-22/Ne-20 (4)
-
Ne-22/Ne-21 (5)
-
O-17/O-16 (1)
-
O-18/O-16 (7)
-
Pb-206/Pb-204 (1)
-
Pb-207/Pb-204 (1)
-
Pb-207/Pb-206 (1)
-
Pb-208/Pb-204 (1)
-
S-34/S-32 (2)
-
Sm-147/Nd-144 (1)
-
Sr-87/Sr-86 (2)
-
Xe-129 (1)
-
Xe-130/Xe-129 (1)
-
Xe-132 (1)
-
-
-
metals
-
actinides
-
thorium (2)
-
uranium (2)
-
-
alkali metals
-
potassium (2)
-
-
alkaline earth metals
-
strontium
-
Sr-87/Sr-86 (2)
-
-
-
lead
-
Pb-206/Pb-204 (1)
-
Pb-207/Pb-204 (1)
-
Pb-207/Pb-206 (1)
-
Pb-208/Pb-204 (1)
-
-
platinum group
-
platinum ores (1)
-
-
precious metals (1)
-
rare earths
-
neodymium
-
Sm-147/Nd-144 (1)
-
-
samarium
-
Sm-147/Nd-144 (1)
-
-
-
-
nitrogen
-
N-15/N-14 (3)
-
-
noble gases
-
argon
-
Ar-36 (3)
-
Ar-38/Ar-36 (3)
-
Ar-40 (1)
-
Ar-40/Ar-36 (32)
-
Ar-40/Ar-39 (1)
-
-
helium
-
He-3 (1)
-
He-4/He-3 (17)
-
-
krypton
-
Kr-84 (2)
-
-
neon
-
Ne-20 (1)
-
Ne-22/Ne-20 (4)
-
Ne-22/Ne-21 (5)
-
-
xenon
-
Xe-129 (1)
-
Xe-130/Xe-129 (1)
-
Xe-132 (1)
-
-
-
oxygen
-
O-17/O-16 (1)
-
O-18/O-16 (7)
-
-
sulfur
-
S-34/S-32 (2)
-
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geochronology methods
-
Ar/Ar (4)
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K/Ar (5)
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Nd/Nd (1)
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Rb/Sr (2)
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U/Pb (1)
-
-
geologic age
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Cenozoic
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Quaternary (1)
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Mesozoic
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Cretaceous
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Lower Cretaceous (4)
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Jurassic
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Lower Jurassic (1)
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Middle Jurassic (2)
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Upper Jurassic (2)
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Triassic
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Upper Triassic
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Norian (1)
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Paleozoic
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Cambrian (1)
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Carboniferous
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Mississippian
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Middle Mississippian (1)
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-
Pennsylvanian
-
Springfield Coal Member (1)
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-
-
Devonian (1)
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lower Paleozoic (1)
-
middle Paleozoic (1)
-
New Albany Shale (1)
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Ordovician (2)
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Permian
-
Rotliegendes (1)
-
-
Silurian (1)
-
-
Precambrian
-
Archean
-
Neoarchean (1)
-
-
Brockman Iron Formation (1)
-
Hamersley Group (1)
-
upper Precambrian
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Proterozoic
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Neoproterozoic
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Cryogenian (1)
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Riphean
-
upper Riphean (1)
-
-
-
Paleoproterozoic (1)
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Sinian (1)
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-
-
igneous rocks
-
igneous rocks
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plutonic rocks
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diabase (2)
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gabbros
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granites (1)
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ultramafics
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peridotites
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dunite (1)
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lherzolite (1)
-
-
-
-
volcanic rocks
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basalts
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alkali basalts
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trachybasalts (1)
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mid-ocean ridge basalts (1)
-
ocean-island basalts (1)
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-
glasses
-
volcanic glass (1)
-
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tephrite (1)
-
-
-
wehrlite (1)
-
-
metamorphic rocks
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metamorphic rocks
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metasomatic rocks
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skarn (1)
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turbidite (1)
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meteorites
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meteorites
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stony meteorites
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chondrites (1)
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-
-
minerals
-
carbonates
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calcite (2)
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halides
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fluorides
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fluorite (1)
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native elements
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silicates
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chain silicates
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framework silicates
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adularia (1)
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silica minerals
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-
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orthosilicates
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zircon group
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zircon (1)
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-
-
-
sheet silicates
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clay minerals
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kaolinite (1)
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illite (3)
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mica group (1)
-
-
-
sulfides
-
pyrite (2)
-
-
wehrlite (1)
-
-
Primary terms
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absolute age (6)
-
Africa
-
North Africa
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Algeria
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Hassi Messaoud Field (1)
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-
-
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Asia
-
Baikal region (1)
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Buryat Russian Federation (1)
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Central Asia (1)
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Far East
-
Borneo
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Kalimantan Indonesia
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Mahakam Delta (1)
-
-
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China
-
Bohaiwan Basin (1)
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Hebei China (1)
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Hunan China (1)
-
Jilin China (2)
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North China Platform (1)
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Sanjiang (1)
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Sichuan Basin (1)
-
South China Block (1)
-
Taihang Mountains (1)
-
Xinjiang China
-
Tarim Basin (1)
-
-
Xizang China (1)
-
Yunnan China
-
Ailao Shan (1)
-
-
-
Indonesia
-
Kalimantan Indonesia
-
Mahakam Delta (1)
-
-
-
Mongolia
-
Hangay Mountains (1)
-
-
-
Tibetan Plateau (1)
-
-
atmosphere (4)
-
Australasia
-
Australia
-
Lachlan fold belt (1)
-
Victoria Australia (1)
-
Western Australia
-
Pilbara Craton (1)
-
-
-
-
biography (1)
-
brines (2)
-
Canada
-
Eastern Canada
-
Maritime Provinces
-
Nova Scotia (1)
-
-
-
-
carbon
-
C-13/C-12 (7)
-
-
Caribbean region
-
West Indies
-
Antilles
-
Lesser Antilles
-
Guadeloupe
-
La Grande Soufriere (1)
-
-
-
-
-
-
Cenozoic
-
Quaternary (1)
-
-
clay mineralogy (1)
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crust (1)
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data processing (1)
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deformation (1)
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diagenesis (3)
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Earth (1)
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Europe
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Central Europe
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Germany (1)
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Western Europe
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United Kingdom
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Guernsey (1)
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-
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faults (3)
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folds (1)
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geochemistry (9)
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geochronology (1)
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geothermal energy (1)
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ground water (3)
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heat flow (3)
-
hydrogen
-
D/H (3)
-
-
hydrology (1)
-
igneous rocks
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plutonic rocks
-
diabase (2)
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diorites
-
diorite porphyry (1)
-
-
gabbros
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norite (1)
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troctolite (1)
-
-
granites (1)
-
granodiorites
-
granodiorite porphyry (1)
-
-
ultramafics
-
peridotites
-
dunite (1)
-
lherzolite (1)
-
-
-
-
volcanic rocks
-
basalts
-
alkali basalts
-
trachybasalts (1)
-
-
mid-ocean ridge basalts (1)
-
ocean-island basalts (1)
-
-
glasses
-
volcanic glass (1)
-
-
tephrite (1)
-
-
-
inclusions
-
fluid inclusions (10)
-
-
Integrated Ocean Drilling Program
-
Expedition 324
-
IODP Site U1347 (1)
-
IODP Site U1350 (1)
-
-
-
intrusions (3)
-
isotopes
-
radioactive isotopes
-
Ar-38/Ar-36 (3)
-
Ar-40/Ar-39 (1)
-
Pb-206/Pb-204 (1)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
Sm-147/Nd-144 (1)
-
-
stable isotopes
-
Ar-36 (3)
-
Ar-38/Ar-36 (3)
-
Ar-40 (1)
-
Ar-40/Ar-36 (32)
-
Ar-40/Ar-39 (1)
-
C-13/C-12 (7)
-
D/H (3)
-
He-3 (1)
-
He-4/He-3 (17)
-
Kr-84 (2)
-
N-15/N-14 (3)
-
Ne-20 (1)
-
Ne-22/Ne-20 (4)
-
Ne-22/Ne-21 (5)
-
O-17/O-16 (1)
-
O-18/O-16 (7)
-
Pb-206/Pb-204 (1)
-
Pb-207/Pb-204 (1)
-
Pb-207/Pb-206 (1)
-
Pb-208/Pb-204 (1)
-
S-34/S-32 (2)
-
Sm-147/Nd-144 (1)
-
Sr-87/Sr-86 (2)
-
Xe-129 (1)
-
Xe-130/Xe-129 (1)
-
Xe-132 (1)
-
-
-
magmas (5)
-
Malay Archipelago
-
Borneo
-
Kalimantan Indonesia
-
Mahakam Delta (1)
-
-
-
-
mantle (5)
-
Mesozoic
-
Cretaceous
-
Lower Cretaceous (4)
-
-
Jurassic
-
Lower Jurassic (1)
-
Middle Jurassic (2)
-
Upper Jurassic (2)
-
-
Triassic
-
Upper Triassic
-
Norian (1)
-
-
-
-
metal ores
-
antimony ores (1)
-
copper ores (1)
-
gold ores (7)
-
lead ores (2)
-
lead-zinc deposits (1)
-
nickel ores (1)
-
platinum ores (1)
-
zinc ores (2)
-
-
metals
-
actinides
-
thorium (2)
-
uranium (2)
-
-
alkali metals
-
potassium (2)
-
-
alkaline earth metals
-
strontium
-
Sr-87/Sr-86 (2)
-
-
-
lead
-
Pb-206/Pb-204 (1)
-
Pb-207/Pb-204 (1)
-
Pb-207/Pb-206 (1)
-
Pb-208/Pb-204 (1)
-
-
platinum group
-
platinum ores (1)
-
-
precious metals (1)
-
rare earths
-
neodymium
-
Sm-147/Nd-144 (1)
-
-
samarium
-
Sm-147/Nd-144 (1)
-
-
-
-
metamorphic rocks
-
metasomatic rocks
-
skarn (1)
-
-
-
metamorphism (2)
-
metasomatism (2)
-
meteorites
-
stony meteorites
-
chondrites (1)
-
-
-
mineral deposits, genesis (11)
-
mineral exploration (1)
-
Moon (1)
-
nitrogen
-
N-15/N-14 (3)
-
-
noble gases
-
argon
-
Ar-36 (3)
-
Ar-38/Ar-36 (3)
-
Ar-40 (1)
-
Ar-40/Ar-36 (32)
-
Ar-40/Ar-39 (1)
-
-
helium
-
He-3 (1)
-
He-4/He-3 (17)
-
-
krypton
-
Kr-84 (2)
-
-
neon
-
Ne-20 (1)
-
Ne-22/Ne-20 (4)
-
Ne-22/Ne-21 (5)
-
-
xenon
-
Xe-129 (1)
-
Xe-130/Xe-129 (1)
-
Xe-132 (1)
-
-
-
ocean floors (1)
-
oil and gas fields (3)
-
orogeny (1)
-
oxygen
-
O-17/O-16 (1)
-
O-18/O-16 (7)
-
-
Pacific Ocean
-
North Pacific
-
Northwest Pacific
-
Shatsky Rise (1)
-
Yellow Sea
-
Bohai Sea
-
Bohai Bay (1)
-
-
-
-
-
West Pacific
-
Northwest Pacific
-
Shatsky Rise (1)
-
Yellow Sea
-
Bohai Sea
-
Bohai Bay (1)
-
-
-
-
-
-
Paleozoic
-
Cambrian (1)
-
Carboniferous
-
Mississippian
-
Middle Mississippian (1)
-
-
Pennsylvanian
-
Springfield Coal Member (1)
-
-
-
Devonian (1)
-
lower Paleozoic (1)
-
middle Paleozoic (1)
-
New Albany Shale (1)
-
Ordovician (2)
-
Permian
-
Rotliegendes (1)
-
-
Silurian (1)
-
-
petroleum
-
natural gas
-
coalbed methane (1)
-
-
-
pollution (1)
-
Precambrian
-
Archean
-
Neoarchean (1)
-
-
Brockman Iron Formation (1)
-
Hamersley Group (1)
-
upper Precambrian
-
Proterozoic
-
Neoproterozoic
-
Cryogenian (1)
-
Riphean
-
upper Riphean (1)
-
-
-
Paleoproterozoic (1)
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Sinian (1)
-
-
-
-
sea water (1)
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sedimentary rocks
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carbonate rocks
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dolostone (1)
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limestone (1)
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chemically precipitated rocks
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chert (1)
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iron formations
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banded iron formations (1)
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-
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clastic rocks
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sandstone (3)
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shale (1)
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coal (1)
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sedimentation (3)
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sediments
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clastic sediments
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clay (1)
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South America
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Brazil (1)
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springs (1)
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sulfur
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S-34/S-32 (2)
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tectonics (2)
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thermal waters (1)
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United States
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Arkoma Basin (1)
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Illinois (1)
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Illinois Basin (1)
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Kansas
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Sedgwick Basin (1)
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Midcontinent (1)
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Missouri
-
Viburnum Trend (1)
-
-
North Carolina
-
Lee County North Carolina (1)
-
-
Ozark Mountains (1)
-
-
-
sedimentary rocks
-
sedimentary rocks
-
carbonate rocks
-
dolostone (1)
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limestone (1)
-
-
chemically precipitated rocks
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chert (1)
-
iron formations
-
banded iron formations (1)
-
-
-
clastic rocks
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sandstone (3)
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shale (1)
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-
coal (1)
-
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Ar-40/Ar-36
Genesis of the Jinying gold deposit, southern Jilin Province, NE China: Constraints from geochronology and isotope geochemistry
A comprehensive genetic model for the world’s largest Sb deposit (Xikuangshan, China)
Fluid source and metal precipitation mechanism of sediment-hosted Chang'an orogenic gold deposit, SW China: Constraints from sulfide texture, trace element, S, Pb, and He-Ar isotopes and calcite C-O isotopes
Geochemical survey of the Colpitas-Taapaca volcanic-hydrothermal system, northern Chile
4. INTERMEZZO: VOLCANOES AND FIELD WORK
Geochemical Characteristics and Genesis of Deep Marine Carbonate Natural Gas in China
Archean to Paleoproterozoic seawater halogen ratios recorded by fluid inclusions in chert and hydrothermal quartz
NOBLE GASES FINGERPRINT THE SOURCE AND EVOLUTION OF ORE-FORMING FLUIDS OF CARLIN-TYPE GOLD DEPOSITS IN THE GOLDEN TRIANGLE, SOUTH CHINA
Potassium-argon timing of episodic mica and illite crystallization in highly indurated Hassi Messaoud (Algeria) hydrocarbon-bearing sandstones
NOBLE GAS ISOTOPES APPLIED TO GEOTHERMAL RESOURCES
Abstract: While coalbed methane (CBM) is a significant source of natural gas production globally, uncertainties regarding the proportions of biogenic and thermogenic natural gas in CBM reservoirs still remain. We integrate major gases, hydrocarbon composition, hydrocarbon stable isotopes and noble gases in fluids from 20 producing CBM wells to more accurately constrain the genetic source of natural gases in the eastern Illinois Basin, USA. Previous studies have indicated primarily biogenic production of methane (>99.6%) with negligible contributions from thermogenic natural gases. However, by integrating noble gases, we identify quantifiable (up to 19.2%) contributions of exogenous thermogenic gas in produced gases from the Seelyville and Springfield coal seams. Thermogenic gases are distinguished by a positive relationship between methane, ethane and helium-4, lower C 1 /C 2 +, heavier δ 13 C-CH 4 , more radiogenic noble gases ( 4 He, 21 Ne*, 40 Ar*), and lower abundances of atmospherically derived gases ( 20 Ne, 36 Ar). Biogenic gases displayed lighter δ 13 C-CH 4 , higher C 1 /C 2 +, higher levels of atmospheric gases and lower abundances of radiogenic noble gases. Our data suggest that natural gases from a deeper, exogenous thermogenic source likely migrated to the Pennsylvanian-aged coals at an unknown time and later mixed with biogenic methane diluting the geochemical signature of the thermogenic methane within the Springfield and Seelyville coal seams.
Hydrothermal Fluid Origins of Carbonate-Hosted Pb-Zn Deposits of the Sanjiang Thrust Belt, Tibet: Indications from Noble Gases and Halogens
Determining fluid migration and isolation times in multiphase crustal domains using noble gases
Origin and evolution of ore-forming fluids, and genesis of the Duhuangling and Jiusangou gold deposits in eastern Yanbian, northeast China
Abstract Noble gas isotopes, major element isotopes, and gas composition were obtained from the shut-in Butler #3 (API 32-105-00008) and Simpson #1 (API 32-105-00007) wells, drilled in 1998, and sample gas from the Cumnock Formation of Late Norian age. This is the first gas chemistry compilation of these wells. The wells’ gas, sampled in 2009 and in 2014, had a strong “fruity” light petroleum odor, a visible condensate plume when the wells were flowed, and are in the oil and wet gas window. Shutin well pressures were ~900 psi (Butler #3), and ~200 psi (Simpson #1); both had a substantial initial gas flow. Limited data are from the 1982 Dummitt-Palmer #1 CBM well (API 32-105-00002), now plugged and abandoned. Helium concentrations were ~0.20% to 0.24% from the noble gas analysis, neon ranged from 0.11 to 0.04 ppm, and argon was approximately 33 ppm. The measured noble gas composition contains very low atmospheric contamination with helium isotopes (0.07 R/R A ) clearly defined by a crustal origin, while neon and krypton and are mainly attributed to atmospheric origin ( 20 Ne/ 22 Ne ~9.8, 86 Kr/ 84 Kr ~0.3). Argon isotopes are mixed between crustal and atmospheric origins with 40 Ar/ 36 Ar values ~ 418 to 520. The F 20 Ne/ 36 Ar (~0.9 to 2.6), F 84 Kr/ 36 Ar (~0.8) and F 132 Xe/ 36 Ar (0.6-0.7) in the gas show enrichment in the light isotope associated with multi-stage fractionation processes with gas and fluid interaction. The methane content (range ~58 to 64%) is inverse to the nitrogen content from denitrification of very thin ammonium-bearing units (also rich in oil), and likely from illite in overlying strata.
Noble gas evidence for the presence of recycled material in magma sources of the Shatsky Rise
The Shatsky Rise is an oceanic plateau consisting of three main massifs that were constructed in the Pacific Ocean by intense volcanism during the Late Jurassic to Early Cretaceous. In order to explore the sources of this oceanic plateau, we present noble gas compositions from fresh quenched glasses cored by ocean drilling at Integrated Ocean Drilling Program Site U1347 on the Tamu Massif and Site U1350 on the Ori Massif. The studied glasses are normal-type basalts, the most abundant of four types of basalts defined by trace element compositions. Possible disturbances of noble gas compositions by posteruption radiogenic ingrowth in aged glasses are assessed by extraction of gases from glass vesicles by stepwise crushing. The 3 He/ 4 He ratios in glasses from Site U1347 are lower than atmospheric 3 He/ 4 He, presumably owing to magma degassing coupled with radiogenic ingrowth of 4 He. In contrast, glasses from Site U1350 exhibit a limited range of 3 He/ 4 He (5.5–5.9 Ra). Uniform 3 He/ 4 He cannot be achieved if gases in glass vesicles have been affected by secondary contamination or posteruption radiogenic ingrowth. Therefore, the uniform 3 He/ 4 He in the normal-type basalts from Site U1350 is ascribed to their source characteristics. Relatively low 3 He/ 4 He among oceanic basalts suggests the involvement of recycled slab material in the source of the normal-type basalts. However, the depleted radiogenic isotope signatures are inconsistent with recycled slab being a distinct melting component. Instead, we propose that the normal-type basalts of the Shatsky Rise were sourced from a domain where subducted fertile material is dispersed in the mantle.
Abstract Mineral separates of adularia have been extracted from three samples of highly silicified hydrothermal breccias, newly discovered in the active Bouillante geothermal field (Guadeloupe archipelago), and investigated by 40 Ar/ 39 Ar geochronology in order to constrain the timing of geothermal activity in this part of the active Lesser Antilles island arc. The inverse isochron diagram indicates an age of 248±50 ka (2σ) for all adularia from one breccia sample ( n =8), with an initial 40 Ar/ 36 Ar ratio of atmospheric composition (309±12 (2σ)) attesting that this age is valid. This age is concordant with the weighted mean age of 290±40 ka for the same sample. Adularia from other samples yields concordant ages. The obtained 40 Ar/ 39 Ar ages can be related either to the magmatic activity of the Bouillante Volcanic Chain ( c. 850–250 ka ago) or to the initiation of the volcanic activity of the active Grande Découverte–Soufrière system (200 ka ago–present day). Our results demonstrate that the Bouillante hydrothermal event is coeval with change in the volcanic pulses previously recognized in the magmatic history of the studied area. The possible duration calculated for this hydrothermal activity requires at least two superposed volcanic pulses to be developed.