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Impact of the Younger Dryas dry event on equatorial forest ecosystems: Insight from Lake Child, Manengouba crater, Cameroon

This paper presents the pollen, microcharcoal and geochemical data generated by a sediment core extracted from Lake Child in the Manengouba massif of Cameroon (MAN-01: 5.02996 N, 9.822910E; 1948 m asl) covering the time interval between 15.4 and 9.6 ka. With an exceptional sedimentation rate of up t...

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Published in:Review of palaeobotany and palynology 2025-01, Vol.332, p.105237, Article 105237
Main Authors: Lézine, A.-M., Turcq, B., Desjardins, T., Mandeng-Yogo, M., Cetin, F., Tchiengué, B., Achoundong, G.
Format: Article
Language:English
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Summary:This paper presents the pollen, microcharcoal and geochemical data generated by a sediment core extracted from Lake Child in the Manengouba massif of Cameroon (MAN-01: 5.02996 N, 9.822910E; 1948 m asl) covering the time interval between 15.4 and 9.6 ka. With an exceptional sedimentation rate of up to 13 cm per year, this record represents the highest resolution of the environmental changes that took place in the highlands of equatorial Atlantic Africa during the last deglaciation. Our study shows (1) that the Younger Dryas (YD) dry event consisted of two distinct phases: a dry phase between 12.8 and 11.7 ka followed by a wetter and colder phase between 11.7 and 11.3 ka; (2) that the Afromontane forest elements that were present during the last glacial period were replaced by sub-montane forest elements during the Holocene; (3) that vegetation and the hydrological environment have not always evolved in parallel: this was particularly the case at the YD/Holocene transition when the abrupt shift in hydrological conditions contrasted with the gradual spread of forests. •Environmental changes recorded during the last deglaciation by pollen and lake deposits.•Younger Dryas (YD) with dry phase 12.8 to 11.7 ka followed by a wetter and colder phase 11.7 to 11.3 ka.•Abrupt hydrological shift at the YD/Holocene transition contrasted with the gradual gradual forest spread.•Holocene submontane trees replaced the Afromontane trees of the last glacial period.
ISSN:0034-6667
DOI:10.1016/j.revpalbo.2024.105237