1. Early Palaeogene temperature evolution of the southwest Pacific Ocean.
- Author
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Bijl, Peter K., Schouten, Stefan, Sluijs, Appy, Reichart, Gert-Jan, Zachos, James C., and Brinkhuis, Henk
- Subjects
EOCENE stratigraphic geology ,ICE sheets ,CENOZOIC stratigraphic geology ,GREENHOUSE gases ,CLIMATE change ,OCEAN temperature ,GEOGRAPHICAL positions - Abstract
Relative to the present day, meridional temperature gradients in the Early Eocene age (∼56–53 Myr ago) were unusually low, with slightly warmer equatorial regions but with much warmer subtropical Arctic and mid-latitude climates. By the end of the Eocene epoch (∼34 Myr ago), the first major Antarctic ice sheets had appeared, suggesting that major cooling had taken place. Yet the global transition into this icehouse climate remains poorly constrained, as only a few temperature records are available portraying the Cenozoic climatic evolution of the high southern latitudes. Here we present a uniquely continuous and chronostratigraphically well-calibrated TEX
86 record of sea surface temperature (SST) from an ocean sediment core in the East Tasman Plateau (palaeolatitude ∼65° S). We show that southwest Pacific SSTs rose above present-day tropical values (to ∼34 °C) during the Early Eocene age (∼53 Myr ago) and had gradually decreased to about 21 °C by the early Late Eocene age (∼36 Myr ago). Our results imply that there was almost no latitudinal SST gradient between subequatorial and subpolar regions during the Early Eocene age (55–50 Myr ago). Thereafter, the latitudinal gradient markedly increased. In theory, if Eocene cooling was largely driven by a decrease in atmospheric greenhouse gas concentration, additional processes are required to explain the relative stability of tropical SSTs given that there was more significant cooling at higher latitudes. [ABSTRACT FROM AUTHOR]- Published
- 2009
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