Enhanced Atlantic Meridional Overturning Circulation supports the Last Glacial Inception

• Published in: Quaternary science reviews Vol. 30; no. 13; pp. 1576 - 1582
• Main Authors: Guihou, Abel, Pichat, Sylvain, Govin, Aline, Nave, Silvia, Michel, Elisabeth, Duplessy, Jean-Claude, Telouk, Philippe, Labeyrie, Laurent
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.06.2011; Elsevier
• Subjects: 231Pa/230Th; AMOC; Earth Sciences; Glacial inception; Last Interglacial; Paleoceanography; Sciences of the Universe; Paleoceanography; Glacial inception; 231Pa/230Th; Last Interglacial; AMOC
• ISSN: 0277-3791; 1873-457X
• DOI: 10.1016/j.quascirev.2011.03.017

The Atlantic Meridional Overturning Circulation (AMOC) is a key feature of the climate system. However, its role during climate change is still poorly constrained particularly during an Interglacial to Glacial climate transition and the associated global cooling. We present here the first reconstruction of the evolution of the vertical structure of the rate of the AMOC from the Last Interglaciation to the subsequent glaciation (128,000–60,000 years ago) based on sedimentary ( 231Pa/ 230Th) records. We show a deep AMOC during the interglacial warmth Marine Isotope Stage (MIS) 5.5 and a shallower glacial one during glacial MIS 4. The change between these two patterns occurred mostly during the glacial inception, i.e. the transition from MIS 5.5 to MIS 5.4. Our data show that AMOC was enhanced during this latter transition as a consequence of a large increase of the overturning rate of the Intermediate Waters, above 2500 m. We suggest that this AMOC pattern required a reinforced Gulf Stream-North Atlantic Current system that ultimately supported ice-sheet growth by providing heat and moisture to the Northern high latitudes. From MIS 5.4 to MIS 5.1, the AMOC was broadly continuous below 2000 m and supported periods of ice-sheet growth. As a result, a glacial AMOC is triggered at the beginning of MIS 4 due to the extension of ice-sheet and the subsequent reorganization of deep-water formation. This study highlights the role of intermediate waters as a major player during climate change. ► Unprecedented ( 231Pa/ 230Th) records covering the Last Interglaciation. ► Reconstruction of the evolution of the vertical structure of the AMOC export. ► AMOC was enhanced due to increased intermediate water export. ► AMOC transported moisture to the Northern high latitudes feeding ice-sheet growth.