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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Arctic Ocean
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Lomonosov Ridge (1)
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Norwegian Sea
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Voring Plateau (1)
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Atlantic Ocean
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Equatorial Atlantic (1)
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North Atlantic
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Gulf of Mexico (1)
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Chicxulub Crater (1)
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International Ocean Discovery Program (1)
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ODP Site 642 (1)
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Pacific Ocean
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South Pacific
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Southwest Pacific
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Tasman Sea (1)
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West Pacific
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Southwest Pacific
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Tasman Sea (1)
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Southern Ocean
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Weddell Sea
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Maud Rise (1)
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United States
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Texas
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Bastrop County Texas (1)
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elements, isotopes
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carbon
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Cenozoic
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Paleocene-Eocene Thermal Maximum (2)
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Wilcox Group (1)
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Primary terms
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Arctic Ocean
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Lomonosov Ridge (1)
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Norwegian Sea
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Voring Plateau (1)
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Atlantic Ocean
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Equatorial Atlantic (1)
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North Atlantic
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Gulf of Mexico (1)
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biogeography (1)
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carbon
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C-13/C-12 (1)
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Cenozoic
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Tertiary
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Paleogene
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Calvert Bluff Formation (1)
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Eocene
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middle Eocene
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Carrizo Sand (1)
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Paleocene-Eocene Thermal Maximum (2)
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Wilcox Group (1)
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Integrated Ocean Drilling Program (1)
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isotopes
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Ocean Drilling Program
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Leg 104 (1)
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Leg 113
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ODP Site 690 (1)
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Leg 159
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ODP Site 959 (1)
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Leg 174AX (1)
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Leg 189
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ODP Site 1172 (1)
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Pacific Ocean
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South Pacific
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Southwest Pacific
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Tasman Sea (1)
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West Pacific
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paleoclimatology (1)
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palynomorphs
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miospores
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pollen (1)
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Southern Ocean
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Weddell Sea
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United States
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Texas
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sedimentary rocks
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sediments
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PLANT COMMUNITY CHANGE ACROSS THE PALEOCENE–EOCENE BOUNDARY IN THE GULF COASTAL PLAIN, CENTRAL TEXAS
Stratigraphic and sedimentological aspects of the worldwide distribution of Apectodinium in Paleocene/Eocene Thermal Maximum deposits
Abstract The Paleocene/Eocene Thermal Maximum (PETM) is characterized by pronounced global warming and associated environmental changes. In the more-or-less two decades since prior regional syntheses of Apectodinium distribution at the PETM, extensive biological and geochemical datasets have elucidated the effect of rising world temperatures on climate and the biome. A Carbon Isotope Excursion (CIE) that marks the Paleocene/Eocene Boundary is associated with an acme of marine dinocysts of the genus Apectodinium in many locations. Distinctive foraminiferal and calcareous nannofossil populations may also be present. For this updated, dinocyst-oriented view of the PETM, data from worldwide locations have been evaluated with an emphasis on stratigraphic and sedimentological context. What has emerged is that a change in lithology is common, often to a distinctive siltstone or claystone unit, which contrasts with underlying and overlying lithotypes. This change, present in shallow marine/coastal settings and in deep-water turbidite deposits, is attributed to radical modifications of precipitation and erosional processes. An abrupt boundary carries the implication that some time (of unknowable duration) is potentially missing, which then requires caution in the interpretation of the pacing of events in relation to that boundary. In most instances an ‘abrupt’ or ‘rapid’ CIE onset can be attributed to a data gap at a hiatus, particularly in shallow shelf settings where transgression resulted from sea-level rise associated with the PETM. Truly gradational lower boundaries of the PETM interval are quite unusual and, if present, are poorly known so far. Gradational upper boundaries are more common, but erosional upper boundaries have been reported. Taxonomic changes have been made to clarify identification issues that have adversely impacted some biostratigraphic interpretations. Apectodinium hyperacanthum has been retained in Wetzeliella , its original genus. The majority of specimens previously assigned to Apectodinium hyperacanthum or Wetzeliella ( Apectodinium ) hyperacanthum have been reassigned to an informal species, Apectodinium sp. 1. Dracodinium astra has been retained in its original genus as Wetzeliella astra and is emended.
Abstract: An integrated palynological and sedimentological study of Wilcox/Carrizo outcrops in and near Tahitian Village, Bastrop County, Texas, has led to a reevaluation of their chronostratigraphic significance and depositional environments. Strata at the well-known Pine Forest Golf Course and nearby Red Bluff outcrops, together with lesser-known outcrops in the vicinity, are important for source-to-sink linkages with coeval downdip Wilcox Group strata in the deep-water Gulf of Mexico (GOM). This updip succession is fragmentary, with erosional breaks between lithologic units. It represents nearshore shallow-marine to coastal environments throughout, with widespread evidence of tidal influence. Shallow-marine trace fossils are present, and although these are generally sporadic in sandstones, the Calvert Bluff Formation includes extensive Ophiomorpha galleries. Sabinetown Formation parasequences are mostly mud-dominated tidalites with locally common marine trace fossils in more arenaceous intervals. A bioturbated siltstone immediately above the Sabinetown Formation yielded the first Texas record of common to abundant Apectodinium, an acme potentially indicating the Paleocene–Eocene Thermal Maximum (PETM), and thereby providing a correlation with PETM intervals in GOM wells. At all locations, the base of the Carrizo Formation is a marine Glossifungites surface. Siltstone rip-up clasts draped on sigmoidal cross-beds and robust Ophiomorpha indicate the Carrizo Formation probably represents a tidal delta, not fluvial channels.