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Interhemispheric controls on deep ocean circulation and carbon chemistry during the last two glacial cycles

DRS at CSIR-National Institute of Oceanography

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Title Interhemispheric controls on deep ocean circulation and carbon chemistry during the last two glacial cycles
 
Creator Wilson, D.J.
Galy, A.
Piotrowski, A.M.
Banakar, V.K.
 
Subject OCEANOGRAPHY AND LIMNOLOGY
PALAEO-STUDIES
 
Description Changes in ocean circulation structure, together with biological cycling, have been proposed for trapping carbon in the deep ocean during glacial periods of the Late Pleistocene, but uncertainty remains in the nature and timing of deep ocean circulation changes through glacial cycles. In this study, we use neodymium (Nd) and carbon isotopes from a deep Indian Ocean sediment core to reconstruct water mass mixing and carbon cycling in Circumpolar Deep Water over the past 250 thousand years, a period encompassing two full glacial cycles and including a range of orbital forcing. Building on recent studies, we use reductive sediment leaching supported by measurements on isolated phases (foraminifera and fish teeth) in order to obtain a robust seawater Nd isotope reconstruction. Neodymium isotopes record a changing North Atlantic Deep Water (NADW) component in the deep Indian Ocean that bears a striking resemblance to Northern Hemisphere climate records. In particular, we identify both an approximately in-phase link to Northern Hemisphere summer insolation in the precession band and a longer-term reduction of NADW contributions over the course of glacial cycles. The orbital timescale changes may record the influence of insolation forcing, for example via NADW temperature and/or Antarctic sea ice extent, on deep stratification and mixing in the Southern Ocean, leading to isolation of the global deep oceans from an NADW source during times of low Northern Hemisphere summer insolation. That evidence could support an active role for changing deep ocean circulation in carbon storage during glacial inceptions. However, mid-depth water mass mixing and deep ocean carbon storage were largely decoupled within glacial periods, and a return to an interglacial-like circulation state during marine isotope stage (MIS) 6.5 was accompanied by only minor changes in atmospheric CO2. Although a gradual reduction of NADW export through glacial periods may have produced slow climate feedbacks linked to the growth of Northern Hemisphere ice sheets, carbon cycling in the glacial ocean was instead more strongly linked to Southern Ocean processes
 
Date 2015-10-16T06:10:29Z
2015-10-16T06:10:29Z
2015
 
Type Journal Article
 
Identifier Paleoceanography, vol.30; 2015; 621-641
http://drs.nio.org/drs/handle/2264/4800
 
Language en
 
Rights An edited version of this paper was published by AGU. Copyright [2015] AGU. To view the published open abstract, go to http://dx.doi.org/10.1002/2014PA002707
 
Publisher American Geophysical Union