Enhanced Mid-depth Southward Transport in the Northeast Atlantic at the Last Glacial Maximum Despite a Weaker AMOC
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Authors
Menviel, L
Spence, P.
Skinner, L. C.
Tachikawa, K
Friedrich, Tobias
Missiaen, L.
Yu, Jimin
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Wiley
Abstract
While previous studies consistently suggest that North Atlantic Deep Water (NADW) was
shallower at the Last Glacial Maximum (LGM) than at pre-industrial, its strength is still controversial.
Here, using a series of LGM experiments, we show that proxy records are consistent with a shallower and
∼50% weaker NADW, associated with a ∼3◦ equatorward shift of the sea ice edge and convection sites in
the Norwegian Sea. A shoaling and weakening of NADW further allow penetration of Antarctic Bottom
Water in the North Atlantic, despite Antarctic Bottom Water transport being reduced by ∼40%. While the
Deep Western Boundary Current in the northwest Atlantic weakens with NADW, the mid-depth
southward flow on the east side of the north Mid-Atlantic Ridge strengthens, consistent with paleorecords.
This northeast Atlantic intensification is due to a change in density gradients: a weaker AMOC reduces the
transport of equatorial waters to the northeast Atlantic, thus weakening the North Atlantic zonal density
gradient. The resultant globally weaker oceanic circulation at the LGM would have contributed to an
increase in oceanic carbon content and thus a decrease in atmospheric CO2 concentration.
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Paleoceanography and Paleoclimatology
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2037-12-31
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