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3. A Paleogene calcareous microfossil Konservat-Lagerstatte from the Kilwa Group of coastal Tanzania

Author

Bown, P.R., Jones, T. Dunkley, Lees, J.A., Randell, R.D., Mizzi, J.A., Pearson, P.N., Coxall, H.K., Young, J.R., Nicholas, C.J., Karega, A., Singano, J., and Wade, B.S.

Subjects
Earth sciences
Abstract

Microfossil assemblages and their shell geochemistry are widely used in paleoceanography, but they can be significantly altered by subtle variations in preservation state. Clay-rich, hemipelagic sediments of the Paleogene Kilwa Group of coastal Tanzania host calcareous microfossils that are exceptionally preserved, as evidenced by morphological, taxonomic, and geochemical data. The planktonic foraminifera are preserved as glassy, translucent tests with original microgranular wall textures that resemble well-preserved modern specimens, and they arguably yield geochemical values that are relatively unaffected by recrystallization. The calcareous nannofossils are extraordinarily diverse and represented by unique assemblage compositions that include dissolution-susceptible taxa, especially holococcoliths and rhabdoliths, and fragile and very small ( Keywords: calcareous nannofossils, foraminifera, preservation, Lagerstatte, Paleogene, diversity.

Published
2008

4. Site U1490.

Author

Rosenthal, Y., Holbourn, A. E., Kulhanek, D. K., Aiello, I. W., Babila, T. L., Bayon, G., Beaufort, L., Bova, S. C., Chun, J.-H., Dang, H., Drury, A. J., Jones, T. Dunkley, Eichler, P. P. B., Fernando, A. G. S., Gibson, K., Hatfield, R. G., Johnson, D. L., Kumagai, Y., Li, T., and Linsley, B. K.

Subjects
OCEANOGRAPHY, PLEISTOCENE Epoch, CYCLOSTRATIGRAPHY, PALEOMAGNETISM
Published
2018
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5. Expedition 363 summary.

Author

Rosenthal, Y., Holbourn, A. E., Kulhanek, D. K., Aiello, I. W., Babila, T. L., Bayon, G., Beaufort, L., Bova, S. C., Chun, J.-H., Dang, H., Drury, A. J., Jones, T. Dunkley, Eichler, P. P. B., Fernando, A. G. S., Gibson, K., Hatfield, R. G., Johnson, D. L., Kumagai, Y., Li, T., and Linsley, B. K.

Subjects
OCEANOGRAPHY, CLIMATE change, BIOSTRATIGRAPHY, PALEOMAGNETISM, FOSSIL foraminifera
Abstract

International Ocean Discovery Program Expedition 363 sought to document the regional expression and driving mechanisms of climate variability (e.g., temperature, precipitation, and productivity) in the Indo-Pacific Warm Pool (IPWP) as it relates to the evolution of Neogene climate on millennial, orbital, and geological timescales. To achieve our objectives, we selected sites with a wide geographical distribution and variable oceanographic and depositional settings. Nine sites were cored during Expedition 363, recovering a total of 6956 m of sediment in 875-3421 m water depth with an average recovery of 101.3% during 39.6 days of on-site operations. Two moderate sedimentation rate (~3-10 cm/ky) sites are located off northwestern Australia at the southwestern maximum extent of the IPWP and span the late Miocene to present. Seven of the nine sites are situated at the heart of the Western Pacific Warm Pool (WPWP), including two sites on the northern margin of Papua New Guinea with very high sedimentation rates (>60 cm/ky) spanning the past ~450 ky, two sites in the Manus Basin (north of Papua New Guinea) with moderate sedimentation rates (~4-14 cm/ky) recovering upper Pliocene to present sequences, and three sites with low sedimentation rates (~1-3 cm/ky) on the southern and northern Eauripik Rise spanning the early Miocene to present. The wide spatial distribution of the cores, variable accumulation rates, exceptional biostratigraphic and paleomagnetic age constraints, and mostly excellent or very good foraminifer preservation will allow us to trace the evolution of the IPWP through the Neogene at different temporal resolutions, meeting the primary objectives of Expedition 363. Specifically, the high-sedimentation rate cores off Papua New Guinea will allow us to better constrain mechanisms influencing millennial-scale variability in the WPWP, their links to high-latitude climate variability, and implications for temperature and precipitation in this region under variable mean-state climate conditions. Furthermore, the high accumulation rates offer the opportunity to study climate variability during previous warm periods at a resolution similar to that of existing studies of the Holocene. With excellent recovery, Expedition 363 sites are suitable for detailed paleoceanographic reconstructions at orbital and suborbital resolution from the middle Miocene to Pleistocene and thus will be used to refine the astronomical tuning, biostratigraphy, magnetostratigraphy, and isotope stratigraphy of hitherto poorly constrained intervals within the Neogene timescale (e.g., the late Miocene) and to reconstruct the history of the Asian-Australian monsoon and the Indonesian Throughflow on orbital and tectonic timescales. Results from high-resolution interstitial water sampling at selected sites will be used to reconstruct density profiles of the western equatorial Pacific deep water during the Last Glacial Maximum. Additional geochemical analyses of interstitial water samples in this tectonically active region will be used to investigate volcanogenic mineral and carbonate weathering and their possible implications for the evolution of Neogene climate. [ABSTRACT FROM AUTHOR]

Published
2018
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6. Expedition 363 methods.

Author

Rosenthal, Y., Holbourn, A. E., Kulhanek, D. K., Aiello, I. W., Babila, T. L., Bayon, G., Beaufort, L., Bova, S. C., Chun, J.-H., Dang, H., Drury, A. J., Jones, T. Dunkley, Eichler, P. P. B., Fernando, A. G. S., Gibson, K., Hatfield, R. G., Johnson, D. L., Kumagai, Y., Li, T., and Linsley, B. K.

Subjects
SCIENTISTS, PALEONTOLOGISTS, GEOCHEMISTS
Published
2018
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7. A Model-data Comparison for a Multi-model Ensemble of Early Eocene Atmosphere-ocean Simulations: EoMIP

Author

Lunt, D. J., Jones, T. Dunkley, Heinemann, M., Huber, Matthew, LeGrande, A., Winguth, A., Loptson, C., Marotzke, J., Roberts, C. D., Tindall, J., Valdes, P., and Winguth, C.

Abstract

The early Eocene (~55 to 50 Ma) is a time period which has been explored in a large number of modelling and data studies. Here, using an ensemble of previously published model results, making up "EoMIP" – the Eocene Modelling Intercomparison Project – and syntheses of early Eocene terrestrial and sea surface temperature data, we present a self-consistent inter-model and model–data comparison. This shows that the previous modelling studies exhibit a very wide inter-model variability, but that at high CO2, there is good agreement between models and data for this period, particularly if possible seasonal biases in some of the proxies are considered. An energy balance analysis explores the reasons for the differences between the model results, and suggests that differences in surface albedo feedbacks, water vapour and lapse rate feedbacks, and prescribed aerosol loading are the dominant cause for the different results seen in the models, rather than inconsistencies in other prescribed boundary conditions or differences in cloud feedbacks. The CO2 level which would give optimal early Eocene model–data agreement, based on those models which have carried out simulations with more than one CO2 level, is in the range of 2500 ppmv to 6500 ppmv. Given the spread of model results, tighter bounds on proxy estimates of atmospheric CO2 and temperature during this time period will allow a quantitative assessment of the skill of the models at simulating warm climates. If it is the case that a model which gives a good simulation of the Eocene will also give a good simulation of the future, then such an assessment could be used to produce metrics for weighting future climate predictions.

Published
2012

9. A PALAEOGENE RECORD OF EXTANT LOWER PHOTIC ZONE CALCAREOUS NANNOPLANKTON.

Author

BOWN, P. R., JONES, T. DUNKLEY, YOUNG, J. R., and RANDELL, R.

Subjects
*PALEOGENE stratigraphic geology, *TONSTEINS, *FOSSILS, *HABITATS
Abstract

In this paper, we document Palaeogene occurrences of the extant nannoplankton genera Gladiolithus, Algirosphaera and Solisphaera from claystones of the Kilwa Group microfossil lagerstätte, coastal Tanzania. In the modern ocean, these taxa are restricted to tropical and subtropical lower photic zone habitats (100–200 m). All three genera produce small and/or fragile coccoliths, which have not previously been found as fossils or are only found in late Quaternary sediments. Their presence in the Kilwa Group sediments demonstrates the exceptional quality of preservation and provides a minimum origination time for these ecologically specialized nannoplankton. Gladiolithus is present in the oldest Palaeogene Kilwa Group material studied (late Paleocene, c. 59 Ma), which pushes back the origination time for lower photic zone coccolithophores by over 40 million years. The co-occurrence of several species of Gladiolithus alongside Algirosphaera and Solisphaera suggests that a relatively diverse lower photic zone assemblage was established by at least the Eocene. The abundant and consistent occurrence of specimens that are indistinguishable from the modern species Gladiolithus flabellatus has been observed in samples of late Paleocene (Nannofossil Zone NP6) to early Oligocene (Nannofossil Zone NP21) age and support an open ocean palaeoenvironmental interpretation for the Kilwa Group sediments. We describe three new species of Gladiolithus, G. brevis, G. ornatus and G. contus and one new combination, Algirosphaera fabaceus. [ABSTRACT FROM AUTHOR]

Published
2009
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