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Reversed flow of Atlantic deep water during the Last Glacial Maximum

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  • C. Negre
  • R. Zahn
  • A.L. Thomas
  • P. Masqué
  • G.M. Henderson
  • G. Martínez-Méndez
  • I.R. Hall
  • J.L. Mas

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    Rights statement: The final version of this work was published in Nature of the Nature Publishing Group (2010)

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    Rights statement: The final version of this work was published in Nature of the Nature Publishing Group (2010)

    Accepted author manuscript, 171 KB, PDF document

http://www.nature.com/nature/journal/v468/n7320/full/nature09508.html
Original languageEnglish
Pages (from-to)84-88
Number of pages5
JournalNature
Volume468
Issue number7320
DOIs
Publication statusPublished - 3 Nov 2010

Abstract

The meridional overturning circulation (MOC) of the Atlantic Ocean is considered to be one of the most important components of the climate system. This is because its warm surface currents, such as the Gulf Stream, redistribute huge amounts of energy from tropical to high latitudes and influence regional weather and climate patterns, whereas its lower limb ventilates the deep ocean and affects the storage of carbon in the abyss, away from the atmosphere. Despite its significance for future climate, the operation of the MOC under contrasting climates of the past remains controversial. Nutrient-based proxies and recent model simulations indicate that during the Last Glacial Maximum the convective activity in the North Atlantic Ocean was much weaker than at present. In contrast, rate-sensitive radiogenic 231 Pa/ Th isotope ratios from the North Atlantic have been interpreted to indicate only minor changes in MOC strength. Here we show that the basin-scale abyssal circulation of the Atlantic Ocean was probably reversed during the Last Glacial Maximum and was dominated by northward water flow from the Southern Ocean. These conclusions are based on new high-resolution data from the South Atlantic Ocean that establish the basin-scale north to south gradient in 231 Pa/ 230 Th, and thus the direction of the deep ocean circulation. Our findings are consistent with nutrient-based proxies and argue that further analysis of 231 Pa/ 230 Th outside the North Atlantic basin will enhance our understanding of past ocean circulation, provided that spatial gradients are carefully considered. This broader perspective suggests that the modern pattern of the Atlantic MOCg-with a prominent southerly flow of deep waters originating in the North Atlanticg-arose only during the Holocene epoch.

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