Diatom carbon isotope data and CO2 reconstruction from ODP Site 145-882 through the late Pliocene

The development of large ice-sheets across the Northern Hemisphere during the late Pliocene and the emergence of the glacial-interglacial cycles that punctuate the Quaternary mark a significant threshold in Earth's climate history. Although a number of different mechanisms have been proposed to...

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Bibliographic Details
Main Authors: Swann, George E A, Kendrick, Christopher P, Dickson, Alexander J, Worne, Savannah
Format: Dataset
Language:English
Published: PANGAEA 2018
Subjects:
145-882A
145-882B
AGE
Carbon dioxide
partial pressure
standard deviation
Coscinodiscus marginatus
Coscinodiscus radiatus
Diatoms
other
DRILL
Drilling/drill rig
Event label
Joides Resolution
Leg145
North Pacific Ocean
Ocean Drilling Program
ODP
Sample code/label
δ13C
diatom-bound organic matter
Pacific
Subarctic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.889751
https://doi.org/10.1594/PANGAEA.889751
Description
Summary:The development of large ice-sheets across the Northern Hemisphere during the late Pliocene and the emergence of the glacial-interglacial cycles that punctuate the Quaternary mark a significant threshold in Earth's climate history. Although a number of different mechanisms have been proposed to initiate this cooling and the onset of major Northern Hemisphere glaciation, reductions in atmospheric concentrations of CO2 likely played a key role. The emergence of a stratified (halocline) water column in the subarctic north-west Pacific Ocean at 2.73 Ma has often been interpreted as an event which would have limited oceanic ventilation of CO2 to the atmosphere, thereby helping to cool the global climate system. Here, diatom carbon isotopes (δ13Cdiatom) are used to reconstruct changes in regional carbon dynamics through this interval. Results show that the development of a salinity stratification did not fundamental alter the net oceanic/atmospheric flux of CO2 in the subarctic north-west Pacific Ocean through the late Pliocene/early Quaternary. These results provide further insights into the long-term controls on global carbon cycling and the role of the subarctic Pacific Ocean in instigating global climatic changes.

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