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Cocoa Sand Member
Definition of Cocoa Sand Member of Jackson Formation
ABSTRACT Micropaleontologists using planktonic foraminifera for biostratigraphic age correlation differ on the placement of the Eocene-Oligocene boundary from those workers utilizing calcareous nannoplankton. Employing the stratigraphic distribution of the planktonic foraminifera recovered from the upper Eocene Yazoo Clay and lower Oligocene Red Bluff Clay/Bumpnose Limestone, Forest Hill Sand and Mint Spring Marl Member of the Marianna Limestone in southeastern Mississippi and southwestern Alabama, the epoch boundary is recognized to be at or near the top of the Yazoo Clay. The extinctions of the key calcareous nannoplankton species occur at a lower stratigraphic level. The dilemma regarding the placement of the Eocene-Oligocene boundary exists probably because changes in faunal and floral assemblages were gradual during the late Eocene through the early Oligocene and because this epoch boundary represents a stratigraphically condensed section of a Type 2 depositional sequence. No dramatic faunal or floral changes should be expected at the Eocene-Oligocene boundary because of the absence of a major drop in sea level and because no sudden climatic changes occurred at this time. In southeastern Mississippi and southwestern Alabama, the Cocoa Sand, Pachuta Marl and Shubuta Clay Members of the Yazoo Clay, the Red Bluff Clay, the Bumpnose Limestone, and the Forest Hill Sand comprise an unconformity-bounded, Type 2 depositional sequence that accumulated during the TE3.3 coastal onlap cycle of the Td supercycle. The contact of the Cocoa/Pachuta with the underlying North Twistwood Creek Clay Member of the Yazoo Clay (highstand regressive deposits of the underlying depositional sequence) is a Type 2 unconformity. The transgressive deposits of the TE3.3 sequence consist of the Cocoa and Pachuta. The condensed section of the sequence includes the Shubuta (lower condensed section deposits) and Red Bluff/Bumpnose (upper condensed section deposits). The Shubuta-Red Bluff/Bumpnose contact, which approximates the Eocene-Oligocene boundary, is a surface of maximum starvation associated with the greatest landward transgression of the coastline during a relative rise in sea level. The Forest Hill Sand overlies the Red Bluff/ Bumpnose and comprises the highstand regressive deposits of the sequence. The contact of the Forest Hill with the overlying Mint Spring is a Type 2 unconformity. The Mint Spring represents the transgressive deposits of the overlying sequence. The use of stratigraphically condensed sections, sequence boundaries and genetic depositional sequences has the potential to be a useful correlation tool for resolving stratigraphic and depositional problems in the Gulf Coastal Plain. The age of a condensed section within a specific depositional sequence should be synchronous worldwide.
Micro-Paleontologic Analysis of Jackson Eocene of Eastern Mississippi
Eocene–Oligocene global climate and sea-level changes: St. Stephens Quarry, Alabama
INTERTIDAL MANGROVE FORAMINIFERA FROM THE CENTRAL GREAT BARRIER REEF SHELF, AUSTRALIA: IMPLICATIONS FOR SEA-LEVEL RECONSTRUCTION
Microfacies Characteristics of a Tropical, Mangrove-Fringed Shoreline, Cleveland Bay, Queensland, Australia: Sedimentary and Taphonomic Controls on Mangrove Facies Development
COCOAROTA MADRASENSIS RAJESHWARA RAO AND REVETS N. SP.—A NEW FORAMINIFERAL TAXON FROM THE INNER SHELF OF THE BAY OF BENGAL, OFF MADRAS, INDIA
GEOLOGY AND OIL RESOURCES OF TRINIDAD, BRITISH WEST INDIES
Cenozoic Deposits of Central Gulf Coastal Plain
Abstract: The Moodys Branch Formation and North Twistwood Creek Clay Member of the Yazoo Clay represent relative sea-level Cycle TE 3.2 in the eastern Gulf Coastal Plain. Examination of Cycle TE 3.2 in two cores in Mississippi separated by 185 km in an east–west direction (the Mississippi Office of Geology #1 Mossy Grove core in Hinds County and the Mobil–Mississippi #1 Young in Wayne County) was undertaken to identify benthic foraminiferal assemblages. The goal was to gain insight into paleoecologic conditions, especially relative paleobathymetry, in two distinct locations within the sedimentary record of the same relative sea-level cycle. In both cores, the Moodys Branch Formation represents the Transgressive Systems Tract (TST) and the North Twistwood Creek Clay Member of the Yazoo Clay represents the Highstand Systems Tract (HST). Foraminifera were picked from a total of 40 samples from the Young core and 55 from the Mossy Grove core. A census of the total population of benthic foraminifera represented was obtained for each sample. These values were analyzed by hierarchal cluster analysis with the goal of identifying meaningful assemblages of benthic foraminifera within the Moodys Branch Formation and Yazoo Clay. Four clusters of samples correlate with the benthic foraminiferal biofacies ( Nonion, Siphonina–Cibicidoides, Hanzawaia, Uvigerina ) previously recognized in the St. Stephens core in western Alabama. Two clusters of samples in the Young core define assemblages ( Textularia, Discorbis–Quinqueloculina ) that had no analog in the St. Stephens core. The results of this study show two different successions of benthic foraminiferal biofacies in the cores. The succession of assemblages in the Young core is characteristic of a shallowing of paleobathymetry, while the pattern in the Mossy Grove core represents increasing depth. It is suggested that the biofacies succession of the Young core was produced in a section dominated by sediment supply, while the succession in the Mossy Grove core was dominated by subsidence.
Status of Micropaleontology in Eastern Gulf Region
Texas Jackson Foraminifera
Late Eocene and Early Oligocene Benthic Foraminiferal Paleoecology and Sequence Stratigraphy in the Eastern Gulf Coastal Plain, U.S.A.
Abstract The sequence stratigraphy of the lower Oligocene in the eastern Gulf Coastal Plain of Alabama and Mississippi has been the focus of research since the early 1980s. The Red Bluff Clay and its correlatives have long been recognized as the lowermost Oligocene lithostratigraphic units in the region. The contact of the Red Bluff Clay with the underlying Shubuta Clay Member of the Yazoo Clay is considered by most workers to be the Eocene–Oligocene boundary. Interpretations of the Vailian sequence stratigraphy of this interval vary, with the Yazoo–Red Bluff contact being viewed as a maximum flooding surface by some workers and as a depositional sequence boundary by others. If the uppermost Yazoo Clay is a condensed section within a sequence, the overlying Red Bluff Clay is a part of the highstand systems tract. If the Yazoo–Red Bluff contact is a depositional sequence boundary, the Red Bluff Clay is a part of the transgressive systems tract. Nearly two decades of studies of this interval have failed to resolve this question satisfactorily. Benthic foraminiferal assemblages and planktic:benthic (P:B) ratios can provide proxies for fluctuating sea level. Both the Yazoo Clay and the Red Bluff Clay are rich in foraminifera that provide additional data for the study of the sequence stratigraphy of the Yazoo–Red Bluff contact. Benthic foraminifera were collected from the upper Shubuta Clay Member of the Yazoo Clay and from the Red Bluff Clay in the Mobil–Mississippi cores in Wayne County, Mississippi, with the goal of understanding the detailed paleoecology of this interval. Samples were taken at 10 cm intervals through the upper Yazoo Clay and the Red Bluff Clay. Samples collected from outcrops of this interval at Little Stave Creek in Alabama and along the Chickasawhay River in Mississippi were also processed for foraminifera. The benthic foraminiferal assemblage in the Red Bluff Clay is characterized by Cibicidoides pippeni, Cibicidoides cookei, Hanzawaia mississippiensis, Lenticulina vicksburgensis, Siphonina advena, Spiroplectammina latior, Massilina cookei, and Uvigerina vicksburgensis. Subtle changes in species composition are present from sample to sample. This Cibicidoides-Hanzawaia benthic foraminiferal assemblage is characteristic of middle-neritic environments in the early Oligocene and contrasts with the outer-neritic Uvigerina-Bulimina assemblage collected from the upper Yazoo Clay. Planktonic:benthic (P:B) ratios are lower at the base of the Red Bluff than in the upper Yazoo but increase upwards through the Red Bluff before falling sharply in the upper half. The Yazoo–Red Bluff contact also marks the appearances of numerous species typical of the Vicksburg benthic foraminiferal fauna. The benthic foraminiferal assemblages collected in this study suggest that the Red Bluff Clay was formed as a part of a transgressive systems tract in a depositional sequence. It represents the earliest Oligocene transgression in the eastern Gulf Coastal Plain and is likely associated with the end of the Oi-1 glacial event. Geologic Problem Solving with Microfossils: A Volume in Honor of Garry D. Jones SEPM Special Publication No. 93, Copyright © 2009 SEPM (Society for Sedimentary Geology), ISBN 978-1-56576-137-7, p. 293-307.
Basal Beds of Salado Formation in Fletcher Potash Core Test, Near Carlsbad, New Mexico
Refugian Stage of Pacific Coast Tertiary
Cenezoic Geology of Southeastern Alabama, Florida, and Georgia
THE EOCENE-OLIGOCENE BOUNDARY IN THE NORTHERN GULF-A SEQUENCE BOUNDARY
The Paleogene section of Alabama and Mississippi has been the focus of several sequence stratigraphy studies. A sequence model proposed by Baum and Vail (1988) focuses strongly on the southern Alabama marine section and has Late Eocene and Early Oligoccne sequence boundaries that are out of sync with the Gulf Coast stage/group boundaries and (in the opinion presented here) with the regional stratigraphy. The transgressive marine sands of the Middle Eocene Gosport Sand of the upper Claiborne Group are placed as lowstand deposits at the base of the Late Eocene Jackson Group sequence TE3. The Gulf Coast Eocene-Oligocene boundary, which coincides with the Jackson-Vicksburg Group boundary, is placed as a surface of maximum flooding (a condensed section) contrary to regional evidence to the opposite-that it was formed at a lowstand associated with a sequence boundary. Late Oligoccne channel sands, lignites, and shales of the basal Vicksburg Group’s Forest Hill Formation are placed as highstand regressive deposits of the Late Eocene sequence TE3 even though these sediments unconformably overlie a deeply channelled (type 1 unconformity) upper Jackson Group surface. At its type locality in central Mississippi, lignitic shales of the Forest Hill Formation unconformably overlie a paleosol developed on marine clays of the upper Jackson Group’s Yazoo Formation. Both biostratigraphy and unpublished radiometric dates on bentonites by Obradovich and Swisher that range between 34 and 35 Ma indicate the upper Yazoo Formation to be equivalent to the latest Late Eocene sediments of the Eocene-Oligocene boundary stratotype at Massignano, Italy, The youngest date of 34.3 Ma occurred in an unweathered cored section just below the upper contact with the Forest Hill Formation. Paleogene molluscan faunal turnovers also argue agaiast the Late Eocene - Early Oligoccne sequence stratigraphy of Baum and Vail (1988) . High extinction rates occur at the Claibome-Jackson and Jackson-Vicksburg Group boundaries. These mass extinctions of benthic invertebrates are more likely to have occurred during the loss of habitat associated with a lowstand rather than during a time of marine transgresion or maximum flooding.