1. CEREGE (UMR 6635), Collège de France, University Paul-Cézanne Aix-Marseille, CNRS, IRD, Europole de l'Arbois BP 80, 13545 Aix-en-Provence Cedex 4, France
2. Department of Earth Sciences, Oxford University, Parks Road, Oxford OX1 3PR, UK

Correspondence to: Edouard Bard¹Rosalind E. M. Rickaby² Correspondence and requests for materials should be addressed to E.B. (Email: bard@cerege.fr) or R.E.M.R. (Email: rosr@earth.ox.ac.uk).

Abstract

Ice cores extracted from the Antarctic ice sheet suggest that glacial conditions, and the relationship between isotopically derived temperatures and atmospheric have been constant over the last 800,000 years of the Late Pleistocene epoch¹. But independent lines of evidence, such as the extent of Northern Hemisphere ice sheets², sea level³ and other temperature records⁴, point towards a fluctuating severity of glacial periods, particularly during the more extreme glacial stadials centred around 340,000 and 420,000 years ago (marine isotope stages 10 and 12). Previously unidentified mechanisms therefore appear to have mediated the relationship between insolation, CO₂ and climate. Here we test whether northward migration of the subtropical front (STF) off the southeastern coast of South Africa acts as a gatekeeper for the Agulhas current^{5, 6}, which controls the transport of heat and salt from the Indo-Pacific Ocean to the Atlantic Ocean. Using a new 800,000-year record of sea surface temperature and ocean productivity from ocean sediment core MD962077, we demonstrate that during cold stadials (particularly marine isotope stages 10 and 12), productivity peaked and sea surface temperature was up to 6 °C cooler than modern temperatures. This suggests that during these cooler stadials, the STF moved northward by up to 7° latitude, nearly shutting off the Agulhas current. Our results, combined with faunal assemblages from the south Atlantic^{7, 8} show that variable northwards migration of the Southern Hemisphere STF can modulate the severity of each glacial period by altering the strength of the Agulhas current carrying heat and salt to the Atlantic meridional overturning circulation. We show hence that the degree of northwards migration of the STF can partially decouple global climate from atmospheric partial pressure of carbon dioxide, , and help to resolve the long-standing puzzle of differing glacial amplitudes within a consistent range of atmospheric .

1. CEREGE (UMR 6635), Collège de France, University Paul-Cézanne Aix-Marseille, CNRS, IRD, Europole de l'Arbois BP 80, 13545 Aix-en-Provence Cedex 4, France
2. Department of Earth Sciences, Oxford University, Parks Road, Oxford OX1 3PR, UK

Correspondence to: Edouard Bard¹Rosalind E. M. Rickaby² Correspondence and requests for materials should be addressed to E.B. (Email: bard@cerege.fr) or R.E.M.R. (Email: rosr@earth.ox.ac.uk).

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