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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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Southern Africa
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Namibia
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Damara Belt (1)
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Atlantic Ocean
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Equatorial Atlantic (2)
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Mid-Atlantic Ridge (2)
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North Atlantic
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Cape Verde Basin (1)
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Cape Verde Rise (1)
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Ceara Rise (1)
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Northwest Atlantic
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Demerara Rise (2)
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Sierra Leone Rise (1)
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South Atlantic
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Angola Basin (2)
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Brazil Basin (1)
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Cape Basin (2)
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Falkland Plateau (1)
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Rio Grande Rise (2)
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Walvis Ridge (3)
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West Atlantic (2)
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Atlantic Ocean Islands
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Tristan da Cunha (1)
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Europe
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Western Europe
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United Kingdom
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Great Britain
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England
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Lincolnshire England (1)
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North America
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Western Interior
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Western Interior Seaway (1)
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Pacific Ocean (1)
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South America
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Brazil
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Pelotas Basin (1)
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Dom Feliciano Belt (1)
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Rio de la Plata Craton (1)
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Uruguay (1)
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commodities
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petroleum (1)
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fossils
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microfossils (2)
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palynomorphs
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Dinoflagellata (1)
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Plantae
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algae
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nannofossils
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Discoasteridae (1)
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thallophytes (1)
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geochronology methods
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paleomagnetism (1)
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geologic age
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Cenozoic (2)
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Mesozoic
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Cretaceous
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Lower Cretaceous
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Albian
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lower Albian (1)
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Aptian (1)
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Barremian (1)
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Upper Cretaceous (2)
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igneous rocks
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igneous rocks
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volcanic rocks (1)
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Primary terms
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Africa
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Southern Africa
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Namibia
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Damara Belt (1)
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Atlantic Ocean
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Equatorial Atlantic (2)
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Mid-Atlantic Ridge (2)
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North Atlantic
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Cape Verde Basin (1)
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Cape Verde Rise (1)
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Ceara Rise (1)
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Northwest Atlantic
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Demerara Rise (2)
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Sierra Leone Rise (1)
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South Atlantic
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Angola Basin (2)
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Brazil Basin (1)
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Cape Basin (2)
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Falkland Plateau (1)
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Rio Grande Rise (2)
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Walvis Ridge (3)
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West Atlantic (2)
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Atlantic Ocean Islands
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Tristan da Cunha (1)
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Cenozoic (2)
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clay mineralogy (1)
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crust (1)
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Deep Sea Drilling Project
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IPOD
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DSDP Site 603 (1)
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Leg 71
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DSDP Site 511 (1)
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DSDP Site 513 (1)
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DSDP Site 514 (1)
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Leg 72
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DSDP Site 516 (1)
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DSDP Site 517 (1)
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Leg 73
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DSDP Site 519 (1)
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DSDP Site 522 (1)
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DSDP Site 524 (1)
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Leg 74
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DSDP Site 525 (1)
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Leg 75
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DSDP Site 530 (2)
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Leg 14
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DSDP Site 144 (2)
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Leg 16
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DSDP Site 162 (1)
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Leg 3
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DSDP Site 14 (1)
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DSDP Site 15 (1)
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DSDP Site 16 (1)
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DSDP Site 17 (1)
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DSDP Site 18 (1)
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DSDP Site 19 (1)
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Leg 36
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DSDP Site 327 (1)
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DSDP Site 328 (1)
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Leg 39
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DSDP Site 354 (1)
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DSDP Site 355 (1)
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DSDP Site 356 (2)
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DSDP Site 357 (1)
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Leg 40
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DSDP Site 360 (1)
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DSDP Site 361 (6)
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DSDP Site 362 (1)
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DSDP Site 363 (1)
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DSDP Site 364 (2)
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Leg 41
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DSDP Site 366 (1)
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DSDP Site 367 (1)
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DSDP Site 368 (1)
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Europe
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Western Europe
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United Kingdom
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Great Britain
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England
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Lincolnshire England (1)
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geochemistry (1)
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geophysical methods (1)
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igneous rocks
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volcanic rocks (1)
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mantle (1)
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Mesozoic
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Cretaceous
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Lower Cretaceous
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Albian
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lower Albian (1)
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Aptian (1)
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Barremian (1)
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Upper Cretaceous (2)
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Mohorovicic discontinuity (1)
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North America
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Western Interior
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Western Interior Seaway (1)
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Ocean Drilling Program
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Leg 108
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ODP Site 664 (1)
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Leg 114
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ODP Site 699 (1)
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ODP Site 700 (1)
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ODP Site 704 (1)
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Leg 154
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ODP Site 925 (1)
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ODP Site 927 (1)
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ODP Site 929 (1)
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Leg 159
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ODP Site 959 (1)
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ODP Site 960 (1)
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ODP Site 961 (1)
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Leg 175
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ODP Site 1082 (1)
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ODP Site 1083 (1)
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Leg 177
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ODP Site 1088 (1)
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ODP Site 1089 (1)
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ODP Site 1090 (1)
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ODP Site 1091 (1)
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ODP Site 1092 (1)
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ODP Site 1093 (1)
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ODP Site 1094 (1)
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Leg 207
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ODP Site 1257 (1)
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ODP Site 1258 (1)
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ODP Site 1260 (1)
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Leg 208
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ODP Site 1262 (1)
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ODP Site 1263 (1)
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ODP Site 1264 (1)
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ODP Site 1265 (1)
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ODP Site 1266 (1)
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ODP Site 1267 (1)
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oceanography (1)
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Pacific Ocean (1)
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paleobotany (1)
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paleoclimatology (1)
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paleomagnetism (1)
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palynomorphs
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Dinoflagellata (1)
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petroleum (1)
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Plantae
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algae
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nannofossils
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Discoasteridae (1)
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plate tectonics (1)
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sea-floor spreading (1)
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sedimentary rocks
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clastic rocks
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black shale (1)
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sedimentation (1)
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South America
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Brazil
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Pelotas Basin (1)
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Dom Feliciano Belt (1)
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Rio de la Plata Craton (1)
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Uruguay (1)
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stratigraphy (1)
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thallophytes (1)
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sedimentary rocks
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sedimentary rocks
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clastic rocks
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black shale (1)
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DSDP Site 361
Two areoligeracean dinoflagellate cysts from the Carstone Formation (Lower Cretaceous) at Middlegate Quarry, North Lincolnshire, UK
The carbonate compensation depth in the South Atlantic Ocean since the Late Cretaceous
Hotspot origin for asymmetrical conjugate volcanic margins of the austral South Atlantic Ocean as imaged on deeply penetrating seismic reflection lines
Abstract Post-Turonian (Late Cretaceous) rudist-bearing limestones of the Nurra region in northwestern Sardinia (northern Tethyan margin) and in the central-southern Apennines and Apulia (central Tethyan domain) have recorded relevant changes in the characteristics of the carbonate platforms following the “middle” Cretaceous crisis events which affected the peri-Tethyan region as well as other regions worldwide. Rudist bivalves became the dominant lithogenetic taxon owing to their proliferation in shallow-water environments and strong dominance of Late Cretaceous carbonate factories. Their inception, evolution, and demise were seemingly controlled by a complex interplay of environmental processes that, acting on a global scale, profoundly modified the Early Cretaceous hydrosphere-atmosphere system and forced Tethyan depositional systems to change their organization, internal architecture, and facies patterns. As a result, wide, open shelves developed where the almost ubiquitous mode of carbonate fixation was that of foramol factories. In this paper, evidence of the remarkable regional variability in the rudist-bearing carbonate platforms of the Mediterranean Tethys is presented. The analysis of the resulting shallow-water facies has demonstrated that, in spite of several stratigraphic similarities and common sedimentological features, some remarkable differences occurred between the northern Tethyan margin and the central Tethyan banks as regards the areal partitioning of the main paleoecologic controlling factors. This resulted in the deposition of rhodalgal successions in Sardinia (northern Tethyan margin) and rudist-rich foramol facies in the Apennine-Apulia (central Tethys) regions, respectively. Such Late Cretaceous carbonate systems can be viewed as geological products which have closely and coherently recorded the globally changing environmental conditions of the oceanic realm. In spite of this, the difference of the facies partitioning in different Tethyan regions according to a latitudinal gradient is interpreted as derived mainly from local variable paleoceanographic and paleoclimatic conditions.