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  • 1
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    (Table S1) Benthic foraminifera at Ancora, Millville and Bass River drill sites (2010)
    PANGAEA
    In:  Supplement to: Harris, Asley D; Miller, Kenneth G; Browning, James V; Sugarman, Peter J; Olsson, Richard K; Cramer, Benjamin S; Wright, James D (2010): Integrated stratigraphic studies of Paleocene–lowermost Eocene sequences, New Jersey Coastal Plain: Evidence for glacioeustatic control. Paleoceanography, 25(3), PA3211, https://doi.org/10.1029/2009PA001800
    Details
    Publication Date: 2024-01-09
    Description: We describe seven Paleocene to lowermost Eocene sequences in core holes at Island Beach, Bass River, Ancora, Millville, and Sea Girt, NJ (Ocean Drilling Program Leg 150X, 174AX) and analyze benthic foraminiferal assemblages to assess paleodepth changes within sequences. These sequences are referred to as Pa0, Pa1a, Pa1b, Pa2a, Pa2b, Pa3a, and Pa3b. Paleocene sequence boundaries are identified by unconformities and variations in benthic foraminiferal biofacies. We used Q-mode factor analysis and paleoslope modeling to identify three distinct middle-outer neritic benthic foraminiferal assemblages and their associated water depths. Paleodepths during the early Paleocene and deposition of Pa0, Pa1a, and Pa2b were ~80 m with ~20 m changes across sequence boundaries. A long-term shallowing occurred through the late Paleocene where paleodepths were ~50-70 m in Pa3a. This trend drastically changes in the earliest Eocene where the paleodepths of sequence Pa3b were ~120-150 m. New Jersey Paleocene sequence boundaries correlate with those in other regions and with d18O increases in the deep sea, suggesting Paleocene eustatic lowerings were associated with ice-growth events.
    Keywords: Alabamina wilcoxensis; Allomorphina paleocenica; Ancora; Angulogerina cuneata; Angulogerina wilcoxensis; Anomalinoides acuta; Anomalinoides midwayensis; Anomalinoides welleri; Bass_River_Site; Bolivina midwayensis; BR; Bulimina aspero-aculeata; Bulimina cacumenata; Bulimina hornerstownensis; Bulimina kugleri; Bulimina midwayensis; Bulimina ovata; Bulimina paleocenica; Bulimina quadrata; Bulimina sp.; Bullopora sp.; CDRILL; Chrysalogonium arkansanum; Cibicides howelli; Cibicidoides alleni; Cibicidoides incognita; Cibicidoides sp.; Cibicidoides succedens; Core drilling; Cornuspira sp.; Counting 〉105 µm fraction; Dentalina aculeata; Dentalina alabamensis; Dentalina colei; Dentalina eocenica; Dentalina insulsa; Dentalina nasuta; Dentalina paleocenica; Dentalina plummerae; Dentalina pseudoaculeata; Dentalina pseudo-obliquestriata; Dentalina sp.; Dentalina wilcoxensis; DEPTH, sediment/rock; DRILL; Drilling/drill rig; Ellipsonodosaria arkansasanum; Ellipsonodosaria midwayensis; Ellipsonodosaria paleocenica; Ellipsonodosaria plummerae; Elphidiella prima; Entosolenia sp.; Epistominoides wilcoxensis; Eponides elevatus; Eponides plummerae; Event label; Foraminifera, benthic; Foraminifera, benthic indeterminata; Gaudryina pyramidata; Gavelinella danica; Gavelinella lellingensis; Glandulina sp.; Globulina gibba; Guttulina sp.; Gyroidinoides octocameratus; Gyroidinoides subangulatus; Lagena laevis; Lagena sp.; Lagena sulcata; Lamarckina sp.; Leg174AX; Lenticulina discus; Lenticulina jenningsi; Lenticulina orbicularis; Lenticulina rotulata; Lenticulina semicostata; Lenticulina sp.; Lenticulina turbinata; Loxostomoides applinae; Loxostomum sp.; Marginulina sp.; Marginulinopsis tuberculata; Millville; New Jersey; Nodosarella attenuata; Nodosarella paleocenica; Nodosaria affinis; Nodosaria cf. amphioxys; Nodosaria cf. longiscata; Nodosaria granti; Nodosaria longiscata; Nodosaria macneili; Nodosaria plummerae; Nodosaria sp.; Nonionella soldadoensis; Nonionella sp.; Nonion sp.; North American East Coast; Ocean Drilling Program; ODP; Osangularia plummerae; Palmula robusta; Planularia toddae; Pleurostomella alternans; Pleurostomella paleocenica; Polymorphinella cf. elongata; Pseudoglandulina sp.; Pullenia quinqueloba; Pulsiphonina prima; Quadrimorphina allomorphinoides; Ramulina spp.; Saracenaria trigonata; Sigmomorphina sp.; Spiroplectammina mexiaensis; Spiroplectammina plummerae; Spiroplectammina rossae; Stensioeina cf. beccariiformis parvula; Stilostomella midwayensis; Stilostomella paleocenica; Stilostomella plummerae; Stilostomella sp.; Tappanina selmensis; Trifarina herberti; Turrilina brevispira; Turrilina sp.; Uvigerina sp.; Vaginulina sp.
    Type: Dataset
    Format: text/tab-separated-values, 6719 data points
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    DATA PANGAEA
  • 2
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    Cenozoic sea-level relative to modern from deep-sea geochemical and continental margin records (2020)
    PANGAEA
    Details
    Publication Date: 2024-04-25
    Description: We use published Pacific benthic foraminiferal oxygen isotope data and Mg/Ca records to derive a Cenozoic (66 Ma) global mean sea level (GMSL) estimate. This paper is novel in providing the first Pacific benthic foraminiferal oxygen isotopic splice for the entire Cenozoic, a detailed (Myr scale) sea-level record for the last 48 Ma based on the benthic foraminiferal oxygen isotopic and Mg/Ca approach (Mg/Ca records older than 48 Ma are uncertain). We use the 2012 Geological Time Scale (GTS), a 2-Myr smoothed paleotemperatures (Cramer et al., 2011) who used a low-pass filter that passes 〉80% of the amplitude for frequencies 〈0.5/Myr (wavelength 〉2 Myr), ramping down to 〈20% of the amplitude for frequencies 〉1.25/Myr (wavelength 〈0.8 Myr). We used equation 7b Cramer et al. (2011) and a simplified paleotemperature equation for benthic foraminifera T = 16.1– 4.76 [δ18Obenthic – (δ18Oseawater – 0.27)] to solve for oxygen isotopic changes of seawater. We assume that shorter term (〈2 Myr) temperature changes comprise ~20% of the oxygen isotopic changes of seawater changes. The resultant oxygen isotopic changes of seawater estimate was scaled to GMSL changes using a revised seawater oxygen isotopes to sea-level calibration of 0.13‰/10 m of Winnick and Caves (2015). Because of temperature effects notable during peak Pleistocene interglacials, we iteratively fit the last interglacial cycle to known sea level during MIS5e and applied these temperatures (1.8°C) to major Middle to Late Pleistocene peak interglacials, tapering the temperature from the long term estimates for the peak interglacials using a Gaussian filter. We applied an empirically correction for carbonate ion change across the Eocene-Oligocene transition, to remove an apparent warming effect of ~1.5°C; we applied their empirical correction to the sea-level curve, reducing the amplitude by 28 meters from 34.17 to 34.30 Ma.
    Keywords: 138-846; 184-1146; 198-1209; 199-1218; 321-U1337; 321-U1338; AGE; Calculated; Calculated according to Cramer et al. (2011); Cenozoic; COMPCORE; Composite Core; Cryosphere; Event label; Exp321; Foraminifera, benthic δ18O; Joides Resolution; Leg138; Leg184; Leg198; Leg199; North Pacific Ocean; Oxygen isotopes; Pacific Equatorial Age Transect II / Juan de Fuca; PC; Piston corer; Reference/source; sea-level; Sea level, relative; South China Sea; South Pacific Ocean; V19; V19-30; Vema; δ18O, seawater, reconstructed
    Type: Dataset
    Format: text/tab-separated-values, 64115 data points
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  • 3
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    (Table S1) Age models of DSDP Site 73-522, ODP Site 199-1218 and St. Stephens Quarry (2008)
    PANGAEA
    Details
    Publication Date: 2024-04-25
    Keywords: 199-1218; 73-522_Site; Age model; Alabama, Alabama, U.S.A., North America; COMPCORE; Composite Core; Datum level; Deep Sea Drilling Project; DEPTH, sediment/rock; DRILL; Drilling/drill rig; DSDP; Event label; Glomar Challenger; Joides Resolution; Leg199; Leg73; North Pacific Ocean; Ocean Drilling Program; ODP; Reference/source; South Atlantic/PLATEAU; SSQ; St-Stephens-Quarry
    Type: Dataset
    Format: text/tab-separated-values, 59 data points
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  • 4
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    (Table DR2) Benthic foraminiferal oxygen and carbon isotopic record for St. Stephens Quarry corehole samples (2008)
    PANGAEA
    Details
    Publication Date: 2024-04-25
    Keywords: Alabama, Alabama, U.S.A., North America; Cibicidoides spp., δ13C; Cibicidoides spp., δ18O; DEPTH, sediment/rock; DRILL; Drilling/drill rig; Mass spectrometer VG Optima; SSQ; St-Stephens-Quarry
    Type: Dataset
    Format: text/tab-separated-values, 56 data points
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  • 5
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    (Table DR1) Rotated Q-Mode varimax factor loading values for St. Stephens Quarry corehole samples (2008)
    PANGAEA
    Details
    Publication Date: 2024-04-25
    Keywords: Alabama, Alabama, U.S.A., North America; DEPTH, sediment/rock; DRILL; Drilling/drill rig; Factor 1; Factor 2; Factor 3; Factor 4; SSQ; St-Stephens-Quarry
    Type: Dataset
    Format: text/tab-separated-values, 156 data points
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  • 6
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    (Table S2) Stable isotope record and Mg/Ca ratios of benthic foraminifera from the St. Stephens Quarry (2008)
    PANGAEA
    Details
    Publication Date: 2024-04-25
    Keywords: AGE; Alabama, Alabama, U.S.A., North America; Calculated; Cibicidoides cocoaensis, magnesium/calcium ratio; Cibicidoides cocoaensis, δ13C; Cibicidoides cocoaensis, δ18O; Cibicidoides pippeni, magnesium/calcium ratio; Cibicidoides pippeni, δ13C; Cibicidoides pippeni, δ18O; Cibicidoides spp., δ13C; Cibicidoides spp., δ18O; delta; DEPTH, sediment/rock; DRILL; Drilling/drill rig; Foraminifera, benthic δ13C; Foraminifera, benthic δ18O; Inductively coupled plasma - mass spectrometry (ICP-MS); Mass spectrometer VG Optima; Reference of data; SSQ; St-Stephens-Quarry; Temperature, calculated
    Type: Dataset
    Format: text/tab-separated-values, 421 data points
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  • 7
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    Stable isotope record, Mg/Ca ratios and age model of St. Stephens Quarry, Alabama (2008)
    PANGAEA
    In:  Supplement to: Katz, Miriam E; Miller, Kenneth G; Wright, James D; Wade, Bridget S; Browning, James V; Cramer, Benjamin S; Rosenthal, Yair (2008): Stepwise transition from the Eocene greenhouse to the Oligocene icehouse. Nature Geoscience, 1, 329-334, https://doi.org/10.1038/ngeo179
    Details
    Publication Date: 2024-04-25
    Description: In the largest global cooling event of the Cenozoic Era, between 33.8 and 33.5 Myr ago, warm, high-CO2 conditions gave way to the variable 'icehouse' climates that prevail today. Despite intense study, the history of cooling versus ice-sheet growth and sea-level fall reconstructed from oxygen isotope values in marine sediments at the transition has not been resolved. Here, we analyse oxygen isotopes and Mg/Ca ratios of benthic foraminifera, and integrate the results with the stratigraphic record of sea-level change across the Eocene-Oligocene transition from a continental-shelf site at Saint Stephens Quarry, Alabama. Comparisons with deep-sea (Sites 522 (South Atlantic) and 1218 (Pacific)) d18O and Mg/Ca records enable us to reconstruct temperature, ice-volume and sea-level changes across the climate transition. Our records show that the transition occurred in at least three distinct steps, with an increasing influence of ice volume on the oxygen isotope record as the transition progressed. By the early Oligocene, ice sheets were ~25% larger than present. This growth was associated with a relative sea-level decrease of approximately 105 m, which equates to a 67 m eustatic fall.
    Keywords: 199-1218; 73-522_Site; Alabama, Alabama, U.S.A., North America; COMPCORE; Composite Core; Deep Sea Drilling Project; DRILL; Drilling/drill rig; DSDP; Glomar Challenger; Joides Resolution; Leg199; Leg73; North Pacific Ocean; Ocean Drilling Program; ODP; South Atlantic/PLATEAU; SSQ; St-Stephens-Quarry
    Type: Dataset
    Format: application/zip, 2 datasets
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  • 8
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    Benthic foraminiferal biofacies and stable isotopic record of St. Stephens Quarry, Alabama (2011)
    PANGAEA
    In:  Supplement to: Miller, Kenneth G; Browning, James V; Aubry, Marie-Pierre; Wade, Bridget S; Katz, Miriam E; Kulpecz, Andrew A; Wright, James D (2008): Eocene-Oligocene global climate and sea-level changes: St. Stephens Quarry, Alabama. Geological Society of America Bulletin, 120(1/2), 34-53, https://doi.org/10.1130/B26105.1
    Details
    Publication Date: 2024-04-25
    Description: We integrate upper Eocene-lower Oligocene lithostratigraphic, magnetostratigraphic, biostratigraphic, stable isotopic, benthic foraminiferal faunal, downhole log, and sequence stratigraphic studies from the Alabama St. Stephens Quarry (SSQ) core hole, linking global ice volume, sea level, and temperature changes through the greenhouse to icehouse transition of the Cenozoic. We show that the SSQ succession is dissected by hiatuses associated with sequence boundaries. Three previously reported sequence boundaries are well dated here: North Twistwood Creek-Cocoa (35.4-35.9 Ma), Mint Spring-Red Bluff (33.0 Ma), and Bucatunna-Chickasawhay (the mid-Oligocene fall, ca. 30.2 Ma). In addition, we document three previously undetected or controversial sequences: mid-Pachuta (33.9-35.0 Ma), Shubuta-Bumpnose (lowermost Oligocene, ca. 33.6 Ma), and Byram-Glendon (30.5-31.7 Ma). An ~0.9 per mil d18O increase in the SSQ core hole is correlated to the global earliest Oligocene (Oi1) event using magnetobiostratigraphy; this increase is associated with the Shubuta-Bumpnose contact, an erosional surface, and a biofacies shift in the core hole, providing a first-order correlation between ice growth and a sequence boundary that indicates a sea-level fall. The d18O increase is associated with a eustatic fall of ~55 m, indicating that ~0.4 per mil of the increase at Oi1 time was due to temperature. Maximum d18O values of Oi1 occur above the sequence boundary, requiring that deposition resumed during the lowest eustatic lowstand. A precursor d18O increase of 0.5 per mil (33.8 Ma, midchron C13r) at SSQ correlates with a 0.5 per mil increase in the deep Pacific Ocean; the lack of evidence for a sea-level change with the precursor suggests that this was primarily a cooling event, not an ice-volume event. Eocene-Oligocene shelf water temperatures of ~17-19 °C at SSQ are similar to modern values for 100 m water depth in this region. Our study establishes the relationships among ice volume, d18O, and sequences: a latest Eocene cooling event was followed by an earliest Oligocene ice volume and cooling event that lowered sea level and formed a sequence boundary during the early stages of eustatic fall.
    Keywords: Alabama, Alabama, U.S.A., North America; DRILL; Drilling/drill rig; SSQ; St-Stephens-Quarry
    Type: Dataset
    Format: application/zip, 2 datasets
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  • 9
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    Smoothed Cenozoic sea-level relative to modern from deep-sea geochemical and continental margin records (2020)
    PANGAEA
    Details
    Publication Date: 2024-04-25
    Description: We use published Pacific benthic foraminiferal oxygen isotope data and Mg/Ca records to derive a Cenozoic (66 Ma) global mean sea level (GMSL) estimate. This paper is novel in providing the first Pacific benthic foraminiferal oxygen isotopic splice for the entire Cenozoic, a detailed (Myr scale) sea-level record for the last 48 Ma based on the benthic foraminiferal oxygen isotopic and Mg/Ca approach (Mg/Ca records older than 48 Ma are uncertain). We use the 2012 Geological Time Scale (GTS), a 2-Myr smoothed paleotemperatures (Cramer et al., 2011) who used a low-pass filter that passes 〉80% of the amplitude for frequencies 〈0.5/Myr (wavelength 〉2 Myr), ramping down to 〈20% of the amplitude for frequencies 〉1.25/Myr (wavelength 〈0.8 Myr). We used equation 7b Cramer et al. (2011) and a simplified paleotemperature equation for benthic foraminifera T = 16.1– 4.76 [δ18Obenthic – (δ18Oseawater – 0.27)] to solve for oxygen isotopic changes of seawater. We assume that shorter term (〈2 Myr) temperature changes comprise ~20% of the oxygen isotopic changes of seawater changes. The resultant oxygen isotopic changes of seawater estimate was scaled to GMSL changes using a revised seawater oxygen isotopes to sea-level calibration of 0.13‰/10 m of Winnick and Caves (2015). Because of temperature effects notable during peak Pleistocene interglacials, we iteratively fit the last interglacial cycle to known sea level during MIS5e and applied these temperatures (1.8°C) to major Middle to Late Pleistocene peak interglacials, tapering the temperature from the long term estimates for the peak interglacials using a Gaussian filter. We applied an empirically correction for carbonate ion change across the Eocene-Oligocene transition, to remove an apparent warming effect of ~1.5°C; we applied their empirical correction to the sea-level curve, reducing the amplitude by 28 meters from 34.17 to 34.30 Ma.
    Keywords: 138-846; 184-1146; 198-1209; 199-1218; 321-U1337; 321-U1338; AGE; Cenozoic; COMPCORE; Composite Core; Cryosphere; Exp321; Joides Resolution; Leg138; Leg184; Leg198; Leg199; North Pacific Ocean; Oxygen isotopes; Pacific Equatorial Age Transect II / Juan de Fuca; PC; Piston corer; sea-level; Sea level, relative; South China Sea; South Pacific Ocean; V19; V19-30; Vema
    Type: Dataset
    Format: text/tab-separated-values, 3193 data points
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  • 10
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    High tide of the warm Pliocene: Implications of global sea level for Antarctic deglaciation (2012)
    Geological Society of America (GSA)
    Details
    Publication Date: 2012-05-01
    Description: We obtained global sea-level (eustatic) estimates with a peak of ∼22 m higher than present for the Pliocene interval 2.7–3.2 Ma from backstripping in Virginia (United States), New Zealand, and Enewetak Atoll (north Pacific Ocean), benthic foraminiferal δ18O values, and Mg/Ca-δ18O estimates. Statistical analysis indicates that it is likely (68% confidence interval) that peak sea level was 22 ± 5 m higher than modern, and extremely likely (95%) that it was 22 ± 10 m higher than modern. Benthic foraminiferal δ18O values appear to require that the peak was
    Print ISSN: 0091-7613
    Electronic ISSN: 1943-2682
    Topics: Geosciences
    Published by Geological Society of America (GSA)
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