Subdecadal-scale vegetation responses to a previously unknown late-Alleroed climate fluctuation and Younger Dryas cooling at Lake Meerfelder Maar (Germany)

Lake Meerfelder Maar (MFM) is the northernmost Western European sediment record with annual laminations across the Younger Dryas (YD), and the onset of the YD in the record of MFM has previously been defined as an increase in non-arboreal pollen abundance at ca. 12680 varve a BP. Here we present a p...

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Veröffentlicht in:	Journal of quaternary science 2016-10, Vol.31 (7), p.741-752
Hauptverfasser:	Engels, Stefan, Brauer, Achim, Buddelmeijer, Nico, Martin-Puertas, Celia, Rach, Oliver, Sachse, Dirk, van Geel, Bas
Format:	Artikel
Sprache:	eng
Schlagworte:	Betula Climate Fluctuation Instability Lakes Pinus Pollen Sediments Stability Vegetation
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container_title	Journal of quaternary science
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creator	Engels, Stefan Brauer, Achim Buddelmeijer, Nico Martin-Puertas, Celia Rach, Oliver Sachse, Dirk van Geel, Bas
description	Lake Meerfelder Maar (MFM) is the northernmost Western European sediment record with annual laminations across the Younger Dryas (YD), and the onset of the YD in the record of MFM has previously been defined as an increase in non-arboreal pollen abundance at ca. 12680 varve a BP. Here we present a palynological record at unprecedented subdecadal resolution for MFM, covering the Alleroed-YD transition. Our results show a fluctuation in pollen accumulation rates (PARs) before the onset of the YD, with lower rates between ca. 12725 and 12685 varve a BP. The fluctuation in PARs occurs simultaneous with a previously undescribed short fluctuation in sediment composition and varve thickness, as well as with changes in biogeochemical proxies. The combined evidence indicates signs of climatic instability ca. 45 years before the onset of the YD. The PAR records of Betula and Pinus furthermore show earlier and more abrupt changes at the onset of the YD than the percentage-records do. Finally, heliophilous herbaceous taxa show a delayed increase following the onset of the YD of ca. 145 years. This paper illustrates the potential to identify previously unrecognized climate variability and vegetation change when using subdecadal-resolution analyses.
doi_str_mv	10.1002/jqs.2900
format	Article
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Here we present a palynological record at unprecedented subdecadal resolution for MFM, covering the Alleroed-YD transition. Our results show a fluctuation in pollen accumulation rates (PARs) before the onset of the YD, with lower rates between ca. 12725 and 12685 varve a BP. The fluctuation in PARs occurs simultaneous with a previously undescribed short fluctuation in sediment composition and varve thickness, as well as with changes in biogeochemical proxies. The combined evidence indicates signs of climatic instability ca. 45 years before the onset of the YD. The PAR records of Betula and Pinus furthermore show earlier and more abrupt changes at the onset of the YD than the percentage-records do. Finally, heliophilous herbaceous taxa show a delayed increase following the onset of the YD of ca. 145 years. 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Here we present a palynological record at unprecedented subdecadal resolution for MFM, covering the Alleroed-YD transition. Our results show a fluctuation in pollen accumulation rates (PARs) before the onset of the YD, with lower rates between ca. 12725 and 12685 varve a BP. The fluctuation in PARs occurs simultaneous with a previously undescribed short fluctuation in sediment composition and varve thickness, as well as with changes in biogeochemical proxies. The combined evidence indicates signs of climatic instability ca. 45 years before the onset of the YD. The PAR records of Betula and Pinus furthermore show earlier and more abrupt changes at the onset of the YD than the percentage-records do. Finally, heliophilous herbaceous taxa show a delayed increase following the onset of the YD of ca. 145 years. 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This paper illustrates the potential to identify previously unrecognized climate variability and vegetation change when using subdecadal-resolution analyses.</abstract><doi>10.1002/jqs.2900</doi><tpages>12</tpages></addata></record>
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subjects	Betula Climate Fluctuation Instability Lakes Pinus Pollen Sediments Stability Vegetation
title	Subdecadal-scale vegetation responses to a previously unknown late-Alleroed climate fluctuation and Younger Dryas cooling at Lake Meerfelder Maar (Germany)
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