Pollen counts of sediment core MD95-2039

Pollen and oceanographic data from deep ocean core MD95-2039 provide a centennial to millennial scale record of conditions offshore and of the vegetation of north-west Iberia for the period 10–65 ka. The planktonic oxygen isotope record of this core, reflecting predominantly sea surface temperature...

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Bibliographic Details
Main Authors: Roucoux, Katherine H, de Abreu, Lucia, Shackleton, Nicholas J, Tzedakis, Polychronis C
Format: Dataset
Language:English
Published: PANGAEA 2005
Subjects:
Abies
Adonis
Alnus
Androsace
Apium
Armeria maritima-type
Artemisia
Betula
Bryophyte spores
Buxus
Callitriche
Calluna
CALYPSO
Calypso Corer
Cannabis-type
Caryophyllaceae
Castanea
Cedrus
Centaurea
cf. Alchemilla
cf. Chelidonium majus
cf. Lithospermum
cf. Myrica
cf. Quercus
Chenopodiaceae
Chrysosplenium
Cistaceae
Compositae Liguliflorae
Compositae Tubuliflorae
Consolida ambigua
Cornaceae
Corylus
Counting
palynology
Crassulaceae
Crithmum maritimum
Cruciferea
Cyperaceae
DEPTH
sediment/rock
Empetrum
Ephedra distachya
Ephedra fragilis
Ericaceae undifferentiated
Euphorbia
Exotic grains
Fabaceae
Fagus
Filipendula
Frangula alnus
Greenland
Greenland ice core
ice core
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.484979
https://doi.org/10.1594/PANGAEA.484979
Description
Summary:Pollen and oceanographic data from deep ocean core MD95-2039 provide a centennial to millennial scale record of conditions offshore and of the vegetation of north-west Iberia for the period 10–65 ka. The planktonic oxygen isotope record of this core, reflecting predominantly sea surface temperature (SST), shows a pattern of millennial-scale oscillations that is very similar to climatic changes recorded by the Greenland ice core records over the same interval. In turn, tree populations show a pattern of rapid expansions and contractions that follow the pronounced and abrupt isotopic shifts recorded offshore. Through Marine Isotope Stage (MIS) 3, this millennial-scale pattern of vegetation change, alternating between steppe and open woodland, is superimposed on a longer-term pattern of shrinking ericaceous heathland and decreasing size of successive interstadial tree populations. Trees persisted during the Last Glacial Maximum (LGM), at greater abundance than during many of the coldest episodes of MIS 3. This agrees with the marine data which indicate that LGM sea surface temperatures here were significantly warmer than the minima recorded in MIS 3. Our combined marine-terrestrial record, together with data from nearby sequences, provides a stepping stone between terrestrial sequences and the Greenland ice core and North Atlantic marine records. This will permit a better understanding of the behaviour of vegetation across different regions at several scales of climatic forcing.

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