Journal article
The amplifying effect of Indonesian Throughflow heat transport on Late Pliocene Southern Hemisphere climate cooling
D De Vleeschouwer, G Auer, R Smith, K Bogus, B Christensen, J Groeneveld, B Petrick, J Henderiks, IS Castañeda, E O'Brien, M Ellinghausen, SJ Gallagher, CS Fulthorpe, H Pälike
Earth and Planetary Science Letters | ELSEVIER SCIENCE BV | Published : 2018
Abstract
An unusually short glaciation interrupted the warm Pliocene around 3.3 Ma (Marine Isotope Stage (MIS) M2). Different hypotheses exist to explain why this glaciation event was so pronounced, and why the global climate system returned to warm Pliocene conditions relatively quickly afterwards. One of these proposed mechanisms is a reduced equator-to-pole heat transfer, in response to a tectonically reduced Indonesian Throughflow (ITF). The ITF is a critical part of the global thermohaline ocean circulation, transporting heat from the Indo-Pacific Warm Pool to the Indian Ocean. When ITF connectivity is reduced, the water and heat supply for the Leeuwin Current, flowing poleward along Australia's..
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Funding Acknowledgements
This research used samples and data provided by the International Ocean Discovery Program (IODP). The German Science Foundation (DFG) provided funding for this research through project VL96/1-1, project number 319497259. The Vocatio Foundation provided additional funding through a scholarship to DDV, laureate in the 2016 promotion. GA's contribution was funded by JSPS grant 17H07412. Funding was provided by the Australian IODP office and the ARC Basins Genesis Hub (IH130200012) to S.J.G. DDV is a post-doctoral researcher and HP is the principal investigator in ERC Consolidator grant "EARTHSEQUENCING" (grant agreement 617462). We thank two anonymous reviewers for their constructive feedback. All proxy data presented in this manuscript are available at https://doi.pangaea.de/10.1594/PANGAEA.892422.