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Nd and Pb isotope signatures of the clay-size fraction of Labrador Sea sediments during the Holocene: Implications for the inception of the modern deep circulation pattern
Fagel, N.; Hillaire-Marcel, C.; Humblet, M.; Brasseur, R.; Weis, D.; Stevenson, R. (2004). Nd and Pb isotope signatures of the clay-size fraction of Labrador Sea sediments during the Holocene: Implications for the inception of the modern deep circulation pattern. Paleoceanography 19(3). dx.doi.org/10.1029/2003PA000993
In: Paleoceanography. American Geophysical Union: Washington, DC. ISSN 0883-8305, more
Peer reviewed article  

Available in  Authors 
    VLIZ: Open Repository 231440 [ OMA ]

Keyword
    Marine
Author keywords
    clay-size fraction; sedimentary mixings; deep circulation; Nd and Pb

Authors  Top 
  • Fagel, N., more
  • Hillaire-Marcel, C.
  • Humblet, M., more
  • Brasseur, R., more
  • Weis, D.
  • Stevenson, R.

Abstract
    Nd and Pb isotopes were measured on the fine fraction of one sediment core drilled off southern Greenland. This work aims to reconstruct the evolution of deep circulation patterns in the North Atlantic during the Holocene on the basis of sediment supply variations. For the last 12 kyr, three sources have contributed to the sediment mixture: the North American Shield, the Pan-African and Variscan crusts, and the Mid-Atlantic Ridge. Clay isotope signatures indicate two mixtures of sediment sources. The first mixture (12.2-6.5 ka) is composed of material derived from the North American shield and from a "young'' crustal source. From 6.5 ka onward the mixture is characterized by a young crustal component and by a volcanic component characteristic of the Mid-Atlantic Ridge. Since the significant decrease in proximal deglacial supplies, the evolution of the relative contributions of the sediment sources suggests major changes in the relative contributions of the deep water masses carried by the Western Boundary Undercurrent over the past 8.4 kyr. The progressive intensification of the Western Boundary Undercurrent was initially associated mainly with the transport of the Northeast Atlantic Deep Water mass until 6.5 ka and with the Denmark Strait Overflow Water thereafter. The establishment of the modern circulation at 3 ka suggests a reduced influence of the Denmark Strait Overflow Water, synchronous with the full appearance of the Labrador Seawater mass. Our isotopic data set emphasizes several changes in the relative contribution of the two major components of North Atlantic Deep Water throughout the Holocene.

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