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Sea-surface hydrographical conditions off South Faeroes and within the North-Eastern North Atlantic through MIS 2: the response of dinocysts
Caulle, C.; Penaud, A.; Eynaud, F.; Zaragosi, S.; Roche, D.M.; Michel, E.; Boulay, S.; Richter, T. (2013). Sea-surface hydrographical conditions off South Faeroes and within the North-Eastern North Atlantic through MIS 2: the response of dinocysts. J. Quaternary Sci. 28(3): 217-228. dx.doi.org/10.1002/jqs.2601
In: Journal of Quaternary Science. John Wiley & Sons: Harlow, Essex. ISSN 0267-8179; e-ISSN 1099-1417, more
Peer reviewed article  

Available in  Authors 
    NIOZ: NIOZ files 256388

Author keywords
    dinoflagellate cysts; European ice sheets; Faeroe Margin; Last GlacialMaximum; sea-surface parameters

Authors  Top 
  • Caulle, C.
  • Penaud, A.
  • Eynaud, F.
  • Zaragosi, S.
  • Roche, D.M.
  • Michel, E.
  • Boulay, S.
  • Richter, T., more

Abstract
    The last glacial period, showing the progressive development of large boreal ice sheets, was punctuated by large climatic excursions. These excursions were triggered mainly by atmosphereoceanice coupled dynamics and are thus exemplary case studies of natural climate variability. To characterize the sea-surface palaeohydrographical changes accompanying these oscillations along the European margin, we have integrated new palynological data (dinocysts) acquired on core MD99-2281 (60 degrees N, Faeroe Margin) during Marine Isotope Stage 2 in a latitudinal transect including published cores MD95-2002 (47 degrees N, Celtic Margin) and MD95-2010 (66 degrees N, Voring Plateau). This transect is superimposed on the modern North Atlantic Drift pathway, but also at the outskirts of glacial European ice sheets, thus ideally located to track sea-ice extent and ice-sheet instabilities through time. The results show a coherent and sensitive response of sea-surface environments to the complex chain of abrupt events that punctuated the end of the last glacial period. The Last Glacial Maximum was marked by large seasonal contrasts of temperatures, whereas Heinrich events (HE) were characterized by a sharp cooling and sea-ice development. A tripartite structure is identified within HE1, with indices of melting at 19k cal a BP, followed by a temperate phase synchronous of a relative stability of ice sheets, and a terminal phase (17.515k cal a BP) characteristic of the conventional Laurentian' HE1. Copyright (c) 2013 John Wiley & Sons, Ltd.

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