Precessional forcing of productivity in the North Atlantic Ocean

Joan Villanueva; Joan O. Grimalt; Laurent D. Labeyrie; Elsa Cortijo; Laurence Vidal; Jean Louis-Turon

doi:10.1029/98PA02318

Precessional forcing of productivity in the North Atlantic Ocean

Joan Villanueva^*, Joan O. Grimalt, Laurent D. Labeyrie, Elsa Cortijo, Laurence Vidal, Jean Louis-Turon

^*Corresponding author for this work

Research output: Contribution to journal › Article › Research › peer-review

49 Citations (Scopus)

Abstract

The sedimentary C₃₇ alkenone fluxes in core SU90/08 situated in the North Atlantic (43°N) showed that export productivity related to some Haptophyta was driven by precession (1/23 kyr^-1) in the last 260 kyr during the glacial periods. In the interglacial stages these alkenones were strongly depleted. This different behaviour is attributed to the displacement of Ekman pumping to lower latitudes and to thermocline stability decreases in the glacial periods. The alkenones were coherent and nearly phased with boreal winter insolation, suggesting a link between productivity and the strength of the westerlies. They were also coherent with the precessionally driven nutriocline minima and winter sea surface temperature in the equatorial Atlantic Ocean. The combination of the measurements at these different latitudes point to a strong coupling in the dynamics of the Hadley and Ferrel cells and to a dominant North Atlantic modulation of marine productivity to precession during the glacial stages.

Original language	English
Pages (from-to)	561-571
Number of pages	11
Journal	Paleoceanography
Volume	13
Issue number	6
DOIs	https://doi.org/10.1029/98PA02318
Publication status	Published - 1998

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title = "Precessional forcing of productivity in the North Atlantic Ocean",

abstract = "The sedimentary C37 alkenone fluxes in core SU90/08 situated in the North Atlantic (43°N) showed that export productivity related to some Haptophyta was driven by precession (1/23 kyr-1) in the last 260 kyr during the glacial periods. In the interglacial stages these alkenones were strongly depleted. This different behaviour is attributed to the displacement of Ekman pumping to lower latitudes and to thermocline stability decreases in the glacial periods. The alkenones were coherent and nearly phased with boreal winter insolation, suggesting a link between productivity and the strength of the westerlies. They were also coherent with the precessionally driven nutriocline minima and winter sea surface temperature in the equatorial Atlantic Ocean. The combination of the measurements at these different latitudes point to a strong coupling in the dynamics of the Hadley and Ferrel cells and to a dominant North Atlantic modulation of marine productivity to precession during the glacial stages.",

author = "Joan Villanueva and Grimalt, \{Joan O.\} and Labeyrie, \{Laurent D.\} and Elsa Cortijo and Laurence Vidal and Jean Louis-Turon",

year = "1998",

doi = "10.1029/98PA02318",

language = "English",

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pages = "561--571",

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T1 - Precessional forcing of productivity in the North Atlantic Ocean

AU - Villanueva, Joan

AU - Grimalt, Joan O.

AU - Labeyrie, Laurent D.

AU - Cortijo, Elsa

AU - Vidal, Laurence

AU - Louis-Turon, Jean

PY - 1998

Y1 - 1998

N2 - The sedimentary C37 alkenone fluxes in core SU90/08 situated in the North Atlantic (43°N) showed that export productivity related to some Haptophyta was driven by precession (1/23 kyr-1) in the last 260 kyr during the glacial periods. In the interglacial stages these alkenones were strongly depleted. This different behaviour is attributed to the displacement of Ekman pumping to lower latitudes and to thermocline stability decreases in the glacial periods. The alkenones were coherent and nearly phased with boreal winter insolation, suggesting a link between productivity and the strength of the westerlies. They were also coherent with the precessionally driven nutriocline minima and winter sea surface temperature in the equatorial Atlantic Ocean. The combination of the measurements at these different latitudes point to a strong coupling in the dynamics of the Hadley and Ferrel cells and to a dominant North Atlantic modulation of marine productivity to precession during the glacial stages.

AB - The sedimentary C37 alkenone fluxes in core SU90/08 situated in the North Atlantic (43°N) showed that export productivity related to some Haptophyta was driven by precession (1/23 kyr-1) in the last 260 kyr during the glacial periods. In the interglacial stages these alkenones were strongly depleted. This different behaviour is attributed to the displacement of Ekman pumping to lower latitudes and to thermocline stability decreases in the glacial periods. The alkenones were coherent and nearly phased with boreal winter insolation, suggesting a link between productivity and the strength of the westerlies. They were also coherent with the precessionally driven nutriocline minima and winter sea surface temperature in the equatorial Atlantic Ocean. The combination of the measurements at these different latitudes point to a strong coupling in the dynamics of the Hadley and Ferrel cells and to a dominant North Atlantic modulation of marine productivity to precession during the glacial stages.

UR - https://www.scopus.com/pages/publications/0032425745

U2 - 10.1029/98PA02318

DO - 10.1029/98PA02318

M3 - Article

AN - SCOPUS:0032425745

SN - 0883-8305

VL - 13

SP - 561

EP - 571

JO - Paleoceanography

JF - Paleoceanography

IS - 6

ER -

Precessional forcing of productivity in the North Atlantic Ocean

Abstract

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