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RESEARCH PRODUCT

Towards a dendrochronologically refined date of the Laacher See eruption around 13,000 years ago

Jan EsperPaolo CherubiniClive OppenheimerStefan EngelsCornelia ParkHans-ulrich SchminckeGiulia GuidobaldiUlf BüntgenFrederick ReinigHardy PfanzDaniel NievergeltOlaf JörisFelix RiedeChristine LaneMartin StreetLukas Wacker

subject

TEPHRA010506 paleontologyArcheology010504 meteorology & atmospheric sciencesPleistoceneVARVE CHRONOLOGYPyroclastic rock01 natural scienceslaw.inventionVOLCANIC-ERUPTIONPaleontologylawINTCAL13Glacial periodRadiocarbon datingEcology Evolution Behavior and SystematicsHolocene0105 earth and related environmental sciencesCALIBRATIONGlobal and Planetary Changegeographygeography.geographical_feature_categorySubfossilGeologyRECORDABRUPT CLIMATE-CHANGEPALAEOLAKEVolcano13. Climate actionMEERFELDER MAARBiologieSEDIMENTSGeology

description

Highlights • Previous age estimates of the Laacher See Eruptions (LSE) around 12,900 years are still diverging and imprecise. • The combination of dendrochronology, wood anatomy, and 14C measurements holds the potential to establish a precise LSE date. • An absolute calendric date of the LSE would improve the synchronization of European Late Glacial to Holocene archives. Abstract The precise date of the Laacher See eruption (LSE), central Europe’s largest Late Pleistocene volcanic event that occurred around 13,000 years ago, is still unknown. Here, we outline the potential of combined high-resolution dendrochronological, wood anatomical and radiocarbon (14C) measurements, to refine the age of this major Plinian eruption. Based on excavated, subfossil trees that were killed during the explosive LSE and buried under its pyroclastic deposits, we describe how a firm date of the eruption might be achieved, and how the resulting temporal precision would further advance our understanding of the environmental and societal impacts of this event. Moreover, we discuss the relevance of an accurate LSE date for improving the synchronization of European terrestrial and lacustrine Late Glacial to Holocene archives.

yearjournalcountryeditionlanguage
2020-02-01Quaternary Science Reviews
https://doi.org/10.1016/j.quascirev.2019.106128