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Eemian climate fluctuations observed in a European pollen record

Nature volume 371pages 779–783 (1994)Cite this article

Abstract

RECENT ice-core data from Greenland1,2 suggest that the climate during the last interglacial period (the Eemian) was more unstable than that of the Holocene (about 10,000 years ago to the present), being characterized in particular by a series of cold episodes each lasting about 70 to 750 years. Subsequent analysis of a second Greenland ice core3,4, however, failed to corroborate the details of these Eemian climate fluctuations, a result that may be attributable to the effects of ice flow4. To resolve this discrepancy, it is imperative to seek alternative sources of information about the Eemian climate. Here we present climate reconstructions from pollen data from the annually laminated Eemian lake-sediment record at Bispingen5 and from the Eemian and Holocene peat records at La Grande Pile6. The former record indicates that an initially warm period of 2,900 yr was followed by cooling and a series of colder episodes, one of which had winter temperatures comparable to those at the end of the preceding cold stage. The latter records show greater climate instability during the Eemian than the Holocene. These results are in broad agreement with those from the GRIP ice core, but contrast both with the GISP2 core3,4 and with recent high-resolution marine records from the North Atlantic7,8.

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Authors and Affiliations

  1. Sub-Department of Quaternary Research, University of Cambridge, The Botany School, Downing Street, Cambridge, CB2 SEA, UK

    Michael H. Field

  2. Environmental Research Centre, University of Durham, Department of Biological Sciences, South Road, Durham, DH1 3LE, UK

    Brian Huntley

  3. Bundesanstalt für Geowissenschaften und Rohstoffe, Zi.X32, Postfach 51 01 53, D 30631, Hannover, 51, Germany

    Helmut Müller

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Field, M., Huntley, B. & Müller, H. Eemian climate fluctuations observed in a European pollen record. Nature 371, 779–783 (1994). https://doi.org/10.1038/371779a0

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