Mbi Crater (Cameroon) illustrates the relations between mountain and lowland forests over the past 15,000 years in western equatorial Africa

• Published in: Quaternary international Vol. 657; pp. 67 - 76
• Main Authors: Lézine, A.-M., Izumi, K., Achoundong, G.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 30.05.2023; Elsevier
• Subjects: Afromontane forest; biodiversity; Biomes; Cameroon; climate; climate change; Diversity; Earth Sciences; ecosystems; ecotones; forests; grasslands; Holocene; Last deglaciation; Pollen; Sciences of the Universe; sediments; Cameroon; Afromontane forest; Cameroon; Diversity; Biomes; Pollen; Holocene; Last deglaciation
• ISSN: 1040-6182
• DOI: 10.1016/j.quaint.2020.12.014

Pollen-based vegetation, biodiversity, and biome reconstructions over the last 15,500 years from sediment core data at Mbi Crater in the Cameroon highlands (6.089273° N, 10.348549° E; 2015 m above sea level) are used to discuss the behavior of the lower edge of the Afromontane forest facing climate change. The data reveal that the post-glacial forest change gradually happened at Mbi and that the forest-wooded grassland ecotone was highly influenced by the climate variability related to the North Atlantic. The forest disruption and diversity loss intermittently occurred over the whole period, and their vegetation changes temporally match dry-cold events at the northern latitudes during the Younger Dryas, at 9.5–9.1 ka, 8.6–8.0 ka, 6.7–6.0 ka, 3.2 ka, and during the Little Ice Age (LIA). During the LIA, the mountain forest was subject to unprecedented levels of disturbance at all altitudes, unlike the seasonal lowland forests, which appears to have been only marginally affected.