Vegetation dynamics in the Northeastern Mediterranean region during the past 23 000 yr: insights from a new pollen record from the Sea of Marmara

High-resolution pollen analysis of core MD01-2430 from the Sea of Marmara (40 degrees 47.81' N, 27 degrees 43.51' E) allows us to reconstruct the vegetation response to climatic changes during the past 23 cal ka in the Northeastern Mediterranean. Variation in mesic/temperate forest cover i...

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Bibliographic Details
Published in:Climate of the Past
Main Authors: Valsecchi, V., Goni, M. F. Sanchez, Londeix, L.
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Gesellschaft Mbh 2012
Subjects:
North Atlantic
Online Access:https://archimer.ifremer.fr/doc/00139/25059/23165.pdf
https://doi.org/10.5194/cp-8-1941-2012
https://archimer.ifremer.fr/doc/00139/25059/
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Summary:High-resolution pollen analysis of core MD01-2430 from the Sea of Marmara (40 degrees 47.81' N, 27 degrees 43.51' E) allows us to reconstruct the vegetation response to climatic changes during the past 23 cal ka in the Northeastern Mediterranean. Variation in mesic/temperate forest cover indicates major climatic shifts connected to Heinrich Stadial 1, Bolling-Allerod, Younger Dryas and to the onset of the Holocene. Pollen-anthropogenic indicator approach was used to recognize human-induced landscape changes in the Sea of Marmara. The pollen-inferred onset of the Holocene occurs at ca. 11.5 cal ka, indicating that the Northeastern Mediterranean region represents a transitional zone where higher moisture availability supported an earlier forest expansion than the borderlands of the Aegean Sea and Black Sea. Two major forest retreats occurred during the Holocene at ca. 5.5 and 2.1 cal ka. The Holocene forest setbacks are in phase with previously published alkenone-inferred sea-surface temperature decreases in the Sea of Marmara reconstructed from the same core. Our new pollen record testifies the sensitivity of Mediterranean forests to changes in moisture availability, which is driven by changes in high-latitude atmospheric processes (North Atlantic Oscillations and/or Siberian High).

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