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Article Dans Une Revue Climate of the Past Année : 2022

Parallel between the isotopic composition of coccolith calcite and carbon levels across Termination II: developing a new paleo-CO$_2$ probe

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Beyond the pCO$_2$ records provided by ice core measurements, the quantification of atmospheric CO$_2$ concentrations and changes thereof relies on proxy data, the development of which represents a foremost challenge in paleoceanography. In the paleoceanographic toolbox, the coccolithophores occupy a notable place, as the magnitude of the carbon isotopic fractionation between ambient CO$_2$ and a type of organic compounds that these photosynthetic microalgae synthesize (the alkenones) represents a relatively robust proxy to reconstruct past atmospheric CO$_2$ concentrations during the Cenozoic. The isotopic composition of coeval calcite biominerals found in the sediments and also produced by the coccolithophores (the coccoliths) have been found to record an ambient CO$_2$ signal through culture and sediment analyses. These studies have, however, not yet formalized a transfer function that quantitatively ties the isotopic composition of coccolith calcite to the concentrations of aqueous CO$_2$ and, ultimately, to atmospheric CO$_2$ levels. Here, we make use of a microseparation protocol to compare the isotopic response of two size-restricted coccolith assemblages from the North Atlantic to changes in surface ocean CO$_2$ during Termination II (ca. 130–140 ka). Performing paired measurements of the isotopic composition (δ$^{13}$C and δ$^{18}$O) of relatively large and small coccoliths provides an isotopic offset that can be designated as a “differential vital effect”. We find that the evolution of this offset follows that of aqueous CO$_2$ concentrations computed from the ice core CO$_2$ curve and an independent temperature signal. We interpret this biogeochemical feature to be the result of converging carbon fixation strategies between large and small cells as the degree of carbon limitation for cellular growth decreases across the deglaciation. We are therefore able to outline a first-order trend between the coccolith differential vital effects and aqueous CO$_2$ in the range of Quaternary CO$_2$ concentrations. Although this study would benefit from further constraints on the other controls at play on coccolith geochemistry (growth rate, air–sea gas exchange, etc.), this test of the drivers of coccolith Δδ$^{13}$C and Δδ$^{18}$O in natural conditions is a new step in the development of a coccolith paleo-CO$_2$ probe.
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hal-03607366 , version 1 (13-03-2022)

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Camille Godbillot, Fabrice Minoletti, Franck Bassinot, Michaël Hermoso. Parallel between the isotopic composition of coccolith calcite and carbon levels across Termination II: developing a new paleo-CO$_2$ probe. Climate of the Past, 2022, 18 (3), pp.449 - 464. ⟨10.5194/cp-18-449-2022⟩. ⟨hal-03607366⟩
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