Land-ocean changes on orbital and millennial time scales and the penultimate glaciation

Past glacials can be thought of as natural experiments in which variations in boundary conditions influenced the character of climate change. However, beyond the last glacial, an integrated view of orbital-and millennial-scale changes and their relation to the record of glaciation has been lacking....

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Bibliographic Details
Published in:Geology
Main Authors: Margari, Vasiliki, Skinner, Luke C., Hodell, David A., Martrat, Belen, Toucanne, Samuel, Grimalt, Joan O., Gibbard, Philip L., Lunkka, J. P., Tzedakis, P. C.
Format: Article in Journal/Newspaper
Language:English
Published: Geological Soc Amer, Inc 2014
Subjects:
Ice Sheet
Online Access:https://archimer.ifremer.fr/doc/00187/29819/28262.pdf
https://archimer.ifremer.fr/doc/00187/29819/28295.pdf
https://doi.org/10.1130/G35070.1
https://archimer.ifremer.fr/doc/00187/29819/
Description
Summary:Past glacials can be thought of as natural experiments in which variations in boundary conditions influenced the character of climate change. However, beyond the last glacial, an integrated view of orbital-and millennial-scale changes and their relation to the record of glaciation has been lacking. Here, we present a detailed record of variations in the land-ocean system from the Portuguese margin during the penultimate glacial and place it within the framework of ice-volume changes, with particular reference to European ice-sheet dynamics. The interaction of orbital-and millennial-scale variability divides the glacial into an early part with warmer and wetter overall conditions and prominent climate oscillations, a transitional mid-part, and a late part with more subdued changes as the system entered a maximum glacial state. The most extreme event occurred in the mid-part and was associated with melting of the extensive European ice sheet and maximum discharge from the Fleuve Manche river. This led to disruption of the meridional overturning circulation, but not a major activation of the bipolar seesaw. In addition to stadial duration, magnitude of freshwater forcing, and background climate, the evidence also points to the influence of the location of freshwater discharges on the extent of interhemispheric heat transport.

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