2022
DOI: 10.1038/s43247-022-00457-y
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Synchronous vegetation response to the last glacial-interglacial transition in northwest Europe

Abstract: The North Atlantic region experienced abrupt high-amplitude cooling at the onset of the Younger Dryas stadial. However, due to chronological uncertainties in the available terrestrial records it is unclear whether terrestrial ecosystem response to this event was instantaneous and spatially synchronous, or whether regional or time-transgressive lags existed. Here we use new palynological results from a robustly dated lake sediment sequence retrieved from lake Hämelsee (north Germany) to show that vegetation cha… Show more

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Cited by 14 publications
(5 citation statements)
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“…2013; Engels et al . 2022). Consequently, the apparent ~2500–3000‐year difference between our new minimum duration estimate of ~15 000 years for the Eemian at Bispingen and the latest duration estimates of ~18 000 years from southern Europe (Brauer et al .…”
Section: Discussionmentioning
confidence: 99%
“…2013; Engels et al . 2022). Consequently, the apparent ~2500–3000‐year difference between our new minimum duration estimate of ~15 000 years for the Eemian at Bispingen and the latest duration estimates of ~18 000 years from southern Europe (Brauer et al .…”
Section: Discussionmentioning
confidence: 99%
“…Whereas for the 2PEncke Event of 12.8 ka considerable evidence remains to reconstruct postglacial environmental change with unparalleled accuracy. Moreover, despite BM deniers, it is now possible with unprecedented AMS C14 accuracy to date LG/YD pollen sections in Europe to 12,820 cal yr BP with two sigma uncertainty of ~100 yr (Engels et al, 2022), the wider spread of European pollen sites slightly advancing the earlier mean age of 12,737 ± 31 cal yr BP from Krakenes, Norway (Lohne et al, 2013(Lohne et al, , 2014 and black mat sites worldwide at 12.8 ka (Kennett et al, 2015). This explains the connectiveness of the 2PEncke Airburst of 12.8 ka with the fallout result of a pollen shift trailing by decades to 12.7 ka.…”
Section: Linkage Of Terrestrial and Cosmic Theoriesmentioning
confidence: 99%
“…As summarized by Wolbach et al (2018aWolbach et al ( , 2018b in the 120-kyr worldwide fire record, sedimentary evidence shows such an event occurred approximately 12.8 ka, supporting such a cooling event. Heaton's (2022) (Engels et al, 2022).…”
Section: Younger Dryas Significancementioning
confidence: 99%
“…Considering the variation in impact timing of the K/T on Earth for Chicxulub, coupled with the Noachian (~ 4 Ga) for Gale on Mars, considerable loss of material has occurred in post-event time; whereas for the Encke Event of 12.8 ka considerable evidence remains to reconstruct postglacial environmental change with unparalleled accuracy. Moreover, despite BM deniers, it is now possible with unprecedented AMS C14 accuracy to date LG/YD pollen sections in Europe to 12,820 cal yr BP with two sigma uncertainty of ~ 100 year (Engels et al, 2022), and black mat sites worldwide at 12.8 ka (Kennett et al, 2015). This explains the connectiveness of the Encke Impact/Airburst of 12.8 ka with the fallout result of a pollen shift trailing by decades to 12.7 ka.…”
Section: Linkage Of Terrestrial and Cosmic Theoriesmentioning
confidence: 99%