Figure 5. Trace metal analysis of sediment core PS1506-1

An increase in whole ocean alkalinity during glacial periods could account, in part, for the drawdown of atmospheric CO2 into the ocean. Such an increase was inevitable due to the near elimination of shelf area for the burial of coral reef alkalinity. We present evidence, based on down-core measurem...

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Bibliographic Details
Main Authors: Rickaby, Rosalind E M, Elderfield, Henry, Roberts, Natalie L, Hillenbrand, Claus-Dieter, Mackensen, Andreas
Format: Dataset
Language:English
Published: PANGAEA 2009
Subjects:
AGE
ANT-V/4
Boron/Calcium ratio
DEPTH
sediment/rock
Eastern Weddell Sea
Southern Ocean
Gravity corer (Kiel type)
Inductively coupled plasma - mass spectrometry (ICP-MS)
Magnesium/Calcium ratio
Polarstern
PS10
PS10/816
PS1506-1
SL
Pacific
Weddell
Weddell Sea
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.728597
https://doi.org/10.1594/PANGAEA.728597
Description
Summary:An increase in whole ocean alkalinity during glacial periods could account, in part, for the drawdown of atmospheric CO2 into the ocean. Such an increase was inevitable due to the near elimination of shelf area for the burial of coral reef alkalinity. We present evidence, based on down-core measurements of benthic foraminiferal B/Ca and Mg/Ca from a core in the Weddell Sea, that the deep ocean carbonate ion concentration, [CO3 2-], was elevated by ~25 µmol/kg during each glacial period of the last 800 kyrs. The heterogeneity of the preservation histories in the different ocean basins reflects control of the carbonate chemistry of the deep glacial ocean in the Atlantic and Pacific by the changing ventilation and chemistry of Weddell Sea waters. These waters are more corrosive than interglacial northern sourced waters, but not as undersaturated as interglacial southern sourced waters. Our inferred increase in whole ocean alkalinity can be reconciled with reconstructions of glacial saturation horizon depth and the carbonate budget, if carbonate burial rates also increased above the saturation horizon as a result of enhanced pelagic calcification. The Weddell records display low [CO3 2-] during deglaciations and peak interglacial warmth, coincident with maxima in %CaCO3 in the Atlantic and Pacific Oceans. Should the burial rate of alkalinity in the more alkaline glacial deepwaters outstrip the rate of alkalinity supply, then pelagic carbonate production by the coccolithophores, at the end of the glacial maximum could drive a decrease in ocean [CO3 2-] and act to trigger the deglacial rise in pCO2.

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