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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Canada
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Elk Point Basin (4)
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Western Canada
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Alberta
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Athabasca Oil Sands (2)
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Athabasca River (1)
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Fort McMurray Alberta (1)
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Peace River Arch (2)
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Manitoba (1)
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Saskatchewan (6)
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Clearwater River (1)
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North America
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Appalachians
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Appalachian Plateau (1)
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Canadian Shield (1)
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Western Canada Sedimentary Basin (2)
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commodities
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bitumens (1)
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brines (1)
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energy sources (1)
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mineral deposits, genesis (1)
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mineral exploration (1)
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oil and gas fields (4)
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petroleum
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natural gas
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shale gas (1)
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potash (2)
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elements, isotopes
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carbon
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C-13/C-12 (2)
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isotopes
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stable isotopes
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C-13/C-12 (2)
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O-18/O-16 (1)
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S-34/S-32 (1)
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oxygen
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O-18/O-16 (1)
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sulfur
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organic sulfur (1)
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S-34/S-32 (1)
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fossils
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Invertebrata
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Porifera
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geochronology methods
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paleomagnetism (1)
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geologic age
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Cenozoic
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Tertiary
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Eocene (1)
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Mesozoic
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Cretaceous
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Lower Cretaceous
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Mannville Group (1)
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McMurray Formation (1)
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Paleozoic
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Cambrian (3)
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Carboniferous
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Pennsylvanian (1)
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Deadwood Formation (1)
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Devonian
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Beaverhill Lake Group (4)
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Keg River Formation (4)
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Middle Devonian
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Elk Point Group (21)
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Givetian (1)
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Marcellus Shale (1)
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Onondaga Limestone (1)
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Prairie Evaporite (7)
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Sulphur Point Formation (1)
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Winnipegosis Formation (3)
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Slave Point Formation (1)
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Swan Hills Formation (1)
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Upper Devonian
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Famennian
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Wabamun Group (1)
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Frasnian (1)
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Silurian
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Upper Silurian
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Salina Group (1)
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minerals
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carbonates
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calcite (1)
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dolomite (1)
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halides
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chlorides
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halite (2)
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silicates
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sheet silicates
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clay minerals (1)
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sulfates
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anhydrite (4)
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Primary terms
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bitumens (1)
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brines (1)
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Canada
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Elk Point Basin (4)
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Western Canada
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Alberta
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Athabasca Oil Sands (2)
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Athabasca River (1)
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Fort McMurray Alberta (1)
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Peace River Arch (2)
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Manitoba (1)
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Saskatchewan (6)
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carbon
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C-13/C-12 (2)
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Cenozoic
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Tertiary
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Paleogene
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Eocene (1)
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data processing (1)
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deformation (2)
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diagenesis (6)
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economic geology (3)
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energy sources (1)
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faults (4)
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folds (1)
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geochemistry (2)
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geochronology (1)
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geophysical methods (5)
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ground water (2)
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intrusions (1)
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Invertebrata
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Porifera
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Stromatoporoidea (1)
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isotopes
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stable isotopes
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C-13/C-12 (2)
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O-18/O-16 (1)
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S-34/S-32 (1)
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maps (1)
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Mesozoic
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Cretaceous
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Lower Cretaceous
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Mannville Group (1)
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McMurray Formation (1)
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metasomatism (1)
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mineral deposits, genesis (1)
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mineral exploration (1)
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North America
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Appalachians
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Appalachian Plateau (1)
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Canadian Shield (1)
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Western Canada Sedimentary Basin (2)
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oil and gas fields (4)
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oxygen
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O-18/O-16 (1)
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paleoclimatology (1)
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paleogeography (2)
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paleomagnetism (1)
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Paleozoic
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Cambrian (3)
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Carboniferous
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Pennsylvanian (1)
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Deadwood Formation (1)
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Devonian
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Beaverhill Lake Group (4)
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Keg River Formation (4)
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Middle Devonian
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Elk Point Group (21)
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Givetian (1)
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Marcellus Shale (1)
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Onondaga Limestone (1)
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Prairie Evaporite (7)
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Sulphur Point Formation (1)
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Winnipegosis Formation (3)
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Slave Point Formation (1)
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Swan Hills Formation (1)
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Upper Devonian
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Famennian
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Wabamun Group (1)
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Frasnian (1)
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Silurian
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Upper Silurian
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Salina Group (1)
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petroleum
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natural gas
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shale gas (1)
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potash (2)
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reefs (3)
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sea water (1)
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sea-level changes (1)
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sedimentary petrology (2)
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sedimentary rocks
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carbonate rocks
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dolostone (1)
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grainstone (1)
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limestone (1)
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rudstone (1)
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chemically precipitated rocks
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evaporites
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salt (3)
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clastic rocks
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conglomerate (1)
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mudstone (2)
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sandstone (2)
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oil sands (1)
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sedimentary structures
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biogenic structures
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algal structures
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algal mats (1)
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algal mounds (1)
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bioherms
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mud mounds (1)
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bioturbation (1)
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planar bedding structures
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cross-stratification (1)
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sedimentation (2)
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stratigraphy (3)
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sulfur
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organic sulfur (1)
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S-34/S-32 (1)
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tectonics
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salt tectonics (1)
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well-logging (1)
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sedimentary rocks
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calcrete (1)
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floatstone (2)
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laminite (1)
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sedimentary rocks
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carbonate rocks
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dolostone (1)
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grainstone (1)
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limestone (1)
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rudstone (1)
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chemically precipitated rocks
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evaporites
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salt (3)
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clastic rocks
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conglomerate (1)
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mudstone (2)
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sandstone (2)
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oil sands (1)
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sedimentary structures
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laminite (1)
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sedimentary structures
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biogenic structures
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algal structures
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algal mats (1)
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algal mounds (1)
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bioherms
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mud mounds (1)
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bioturbation (1)
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planar bedding structures
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cross-stratification (1)
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Elk Point Group
Acadian hinterland-vergent detachment structures in southwestern Appalachian Plateau: Implications for Marcellus Shale gas exploration and production
New insights from regional-scale mapping and modelling of the Paleozoic succession in northeast Alberta: Paleogeography, evaporite dissolution, and controls on Cretaceous depositional patterns on the sub-Cretaceous unconformity
A review and new descriptions of Elk Point Group outcrops in the Athabasca Oil Sands mining region
Breccia pipe and sinkhole linked fluidized beds and debris flows in the Athabasca Oil Sands: dynamics of evaporite karst collapse-induced fault block collisions
Paleokarst in Middle Devonian Winnipegosis mud mounds, subsurface of south-central Saskatchewan, Canada
Stratigraphic relationships between the Middle Devonian Shell Lake Member and the Upper Winnipegosis reef mounds, Saskatchewan Sub-basin
Abstract The Middle Devonian carbonates of the Slave Point Formation, Hamburg field, northwestern Alberta, are composed mainly of stromatoporoid and Amphipora floatstones and rudstones, with interbedded mudstone and grainstone facies characteristic of deposition in open to slightly restricted marine platform environments. These carbonates have undergone a complex diagenetic history, from shallow to deep burial, as represented by fracturing, calcite cementation, silicification, and dolomitization. Petrographically, four different types of dolomite have been identified (from early to late): (1) fine-crystalline matrix dolomite; (2) pseudomorphic dolomite; (3) medium-crystalline pervasive dolomite; and (4) saddle dolomite. Fine-crystalline dolomite (5–50 (μm) replaces the mud matrix and slightly penetrates the edges of allochems. It occurred in mud-supported facies and was precipitated by marine fluids. Oxygen isotope values range from −11.62 to −9.34‰ (Peedee belemnite), lower than postulated values for Devonian carbonates. The enriched 87 Sr/ 86 Sr isotope value from this phase (0.71002) suggests that later diagenetic fluids may have recrystallized this dolomite. Pseudomorphic dolomite (50–100 μm) replaces crinoids and occurs as single, large dolomite crystals. Its oxygen and carbon isotopic values range from −10.58 to −9.65 and +4.24 to +4.49‰, respectively. Medium-crystalline pervasive dolomite (10–100 μm) occurs along dissolution seams and obliterates all previous fabrics. It is proposed that this medium-crystalline dolomite formed during shallow to intermediate burial because of its association with dissolution seams and high iron content. The range of oxygen isotope values for this dolomite (−11.74 to −9.5‰) suggests precipitation from a warm fluid, possibly in a burial environment, and/or later recrystallization by hydrothermal fluids. The relatively wide range of carbon isotope values (+1.19 to +4.49‰) and enriched strontium isotope ratio (0.710020) suggests recrystallization. Saddle dolomite (250–2000 μm) partially to completely occludes void spaces (both fractures and vugs) and also occurs as a minor replacement mineral. The oxygen isotope values for saddle dolomite (−?13.95 to −?11.97‰), as well as the nonradiogenic to enriched strontium isotope ratios for saddle dolomite (0.70494 to 0.710351), and the fluid-inclusion data (homogenization temperature, T h , range between 125 and 161°C and estimated salinity, between 22.2 and 24.7 wt.% NaCl equivalent) indicate precipitation from hot, highly saline, hydrothermal fluids, which were probably expelled tectonically during the Late Devonian-Mississippian Antler thrust belt development.
Revised stratigraphy of the Middle Devonian (Givetian) Winnipegosis Carbonate–Prairie Evaporite Transition, Elk Point Group, southern Saskatchewan
Facies and lithological controls on paleomagnetism: an example from the Rainbow South field, Alberta, Canada
Devonian hydrocarbon source rocks and their derived oils in the Western Canada Sedimentary Basin
Toward a sequence stratigraphic framework for the Frasnian of the Western Canada Basin
Granite wash alluvial fans, fan-deltas and tidal environments, northwestern Alberta: implications for controls on distribution of Devonian clastic wedges associated with the Peace River Arch
Petrographic study of marginal sediments from the Elk Point Group of Northwestern Alberta, Canada
An overview of some of the larger scale mechanisms of salt dissolution in Western Canada
Timing of the dissolution of Middle Devonian Elk Point Group evaporites — Townships 47 to 103 and Ranges 15 W3M to 20 W4M
Geochemical Characterization of Evaporite and Carbonate Depositional Environments and Correlation of Associated Crude Oils in the Black Creek Basin, Alberta
Three-dimensional seismic exploration; a cost-effective approach
Geology of Paleozoic Strata in West-Central Saskatchewan: ABSTRACT
The Elk Point salt beds of the Prairie Provinces were deposited in two distinct, but connected, basins: the Alberta Basin to the northwest and the Saskatchewan basin to the southeast. Deposition began earlier in the Alberta Basin, resulting in the formation of two salt beds which have no equivalent in the Saskatchewan basin. Later, in Elk Point time, waters moving southeastward were apparently progressively concentrated so that carbonates and anhydrite are common to the northwest, whereas salt and potash predominate to the southeast. Subsurface solution of the salt beds in the Saskatchewan basin began in Devonian time and continued intermittently until at least late Cretaceous time, resulting in the formation of many anomalous structures. Exploitation of the salt beds and related brine springs began with the earliest settlement of the area and continued until the present. In recent years, the potash salts of Saskatchewan have been intensively explored, and commercial production is under way.