Abstract
In this study we examine the role that is played by interocean fluxes of buoyancy
in stabilizing the present-day overturning circulation of the Atlantic Ocean.
A 2D model of the Atlantic overturning circulation is used, in which the interocean
fluxes of heat and salt (via the Bering Strait, the Drake Passage and via
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Agulhas
Leakage) are represented by sources and sinks. The profiles and amplitudes of
these sources are based mainly on the heat and salt fluxes in a high-resolution
ocean model (OCCAM).
When applying realistic sources and sinks, a circulation is favored that is characterized
by major downwelling in the northern hemisphere (NPP circulation),
and resembles the present-day Atlantic overturning circulation. The Southern
Ocean sources appear to stabilize this circulation, whereas Bering Strait freshwater
input tends to destabilize it. Already a small buoyancy input at southerly
latitudes is enough to prohibit the existence of a southern sinking circulation
(SPP),lea ving the NPP circulation as a unique and stable solution. A large, factor
three increase in Bering Strait freshwater import would be necessary to bring
the SPP circulation back into existence.
Especially the Indian-Atlantic transfer of heat and salt, brought about by
Agulhas Leakage,c ontributes considerably to the strength and, in particular, the
stability of the northern sinking circulation. According to this model,sh utting
off Agulhas Leakage, and consequently the so-called warm water route for North
Atlantic Deep Water (NADW) compensation, leads to a reduction of the overturning
strength by 10% at most. These results imply that the way in which the
NADW renewal takes place has implications for both the strength and stability
of the Atlantic overturning circulation,giv ing the discussion about the warm vs.
cold water route for NADW compensation dynamical significance.
Moreover, when the stabilizing effect of Agulhas Leakage on the overturning
disappears, the destabilizing influence of the Bering Strait freshwater input becomes
more effective. The system is then close to a regime where the northern
and southern overturning circulations coexist as stable solutions. Perturbations
in Bering Strait inflow may then easily lead to switches between the two circulation
states. These results suggest that the absence of Agulhas Leakage during
the last ice-age may have contributed to weakening the glacial overturning circulation
in the Atlantic. It may have made the thermohaline circulation vulnerable
to variability, caused either by regime switches, or by the excitation of oscillatory
modes. The sudden restart of the Atlantic overturning circulation at the beginning
of the Holocene may well have been stimulated by the coincident reopening
of the Agulhas gap.
The presence of Agulhas Leakage may contribute to the relative stability of
Holocene climate. Present-day climate may thus be more stable than previously
thought.
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