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Evidence against dust-mediated control of glacial–interglacial changes in atmospheric CO2

B. A. Maher () and P. F. Dennis
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B. A. Maher: University of East Anglia
P. F. Dennis: University of East Anglia

Nature, 2001, vol. 411, issue 6834, 176-180

Abstract: Abstract The low concentration of atmospheric CO2 inferred to have been present during glacial periods is thought to have been partly caused by an increased supply of iron-bearing dust to the ocean surface1. This is supported by a recent model2 that attributes half of the CO2 reduction during past glacial stages to iron-stimulated uptake of CO2 by phytoplankton in the Southern Ocean. But atmospheric dust fluxes to the Southern Ocean, even in glacial periods, are thought to be relatively low and therefore it has been proposed that Southern Ocean productivity might be influenced by iron deposited elsewhere—for example, in the Northern Hemisphere3,4—which is then transported south via ocean circulation (similar to the distal supply of iron to the equatorial Pacific Ocean5,6,7). Here we examine the timing of dust fluxes to the North Atlantic Ocean, in relation to climate records from the Vostok ice core in Antarctica around the time of the penultimate deglaciation (about 130 kyr ago). Two main dust peaks occurred 155 kyr and 130 kyr ago, but neither was associated with the CO2 rise recorded in the Vostok ice core. This mismatch, together with the low dust flux supplied to the Southern Ocean, suggests that dust-mediated iron fertilization of the Southern Ocean did not significantly influence atmospheric CO2 at the termination of the penultimate glaciation.

Date: 2001
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DOI: 10.1038/35075543

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