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High-latitude obliquity as a dominant forcing in the Agulhas current system
Caley, T.; Kim, J.H.; Malaize, B.; Giraudeau, J.; Laepple, T.; Caillon, N.; Charlier, K.; Rebaubier, H.; Rossignol, L.; Castañeda, I.S; Schouten, S.; Sinninghe Damsté, J.S. (2011). High-latitude obliquity as a dominant forcing in the Agulhas current system. Clim. Past 7(4): 1285-1296. dx.doi.org/10.5194/cp-7-1285-2011
In: Climate of the Past. Copernicus: Göttingen. ISSN 1814-9324, more
Peer reviewed article  

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Authors  Top 
  • Caley, T.
  • Kim, J.H., more
  • Malaize, B.
  • Giraudeau, J.
  • Laepple, T.
  • Caillon, N.
  • Charlier, K.
  • Rebaubier, H.
  • Rossignol, L.
  • Castañeda, I.S, more
  • Schouten, S., more
  • Sinninghe Damsté, J.S., more

Abstract
    The Agulhas Current transport of heat and salt from the Indian Ocean into the South Atlantic around South Africa (Agulhas leakage), can affect the Atlantic meridional overturning circulation (AMOC) and, thus, influence global climate. However, efforts to elucidate forcing mechanisms connecting the Agulhas leakage with the upstream dynamics of the current have been hampered by a lack of climate records extracted from the area where the Agulhas current originates. We determine 800-kyr sea surface temperature (SST) and salinity (SSS) records from the "precursor" region of the Agulhas current and show that these records contain strong 100-kyr and 41-kyr cycles. This latter obliquity-driven cycle is nearly in phase with changes in the annual mean insolation and air temperature at high southern latitudes. In contrast, our SST and SSS records did not reveal precession-driven cycles, which is surprising given the low-latitude location of the upstream Agulhas current. Together, this indicates that the dynamics of the Agulhas current system is mainly controlled by high latitude obliquity through its influence on the position of the Southern Hemisphere subtropical front (STF) and its associated westerlies. Our study demonstrates that obliquity may drive an important part of the 100 kyr cycles observed in the system rather than precession. Our results also suggest that a stronger Agulhas current, associated with a northward shift of the wind system during glacial periods, leads to reduced leakage, in accordance with the theory. We argue that during terminations, stronger Agulhas leakage of heat and salt was triggered by increased obliquity exerting a positive feedback on the global climate system through modulating long-term AMOC variations.

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