Floristic evidence for alternative biome states in tropical Africa
Aleman, J. C.; Fayolle, A.; Favier, C.; Staver, A. C.; Dexter, K. G.; Ryan, C. M.; Azihou, A. F.; Bauman, D.; te Beest, M.; Chidumayo, E. N.; Comiskey, J. A.; Cromsigt, J. P. G. M.; Dessard, H.; Doucet, J.-L.; Finckh, M.; Gillet, J.-F.; Gourlet-Fleury, S.; Hempson, G. P.; Holdo, R. M.; Kirunda, B.; Kouame, F. N.; Mahy, G.; Gonc calves, F. Maiato P.; McNicol, I.; Quintano, P. Nieto; Plumptre, A. J.; Pritchard, R. C.; Revermann, R.; Schmitt, C. B.; Swemmer, A. M.; Talila, H.; Woollen, E.; Swaine, M. D.
(2020) Proceedings of the National Academy of Sciences of the United States of America, volume 117, issue 45, pp. 28183 - 28190
(Article)
Abstract
The idea that tropical forest and savanna are alternative states is crucial to how we manage these biomes and predict their future under global change. Large-scale empirical evidence for alternative stable states is limited, however, and comes mostly from the multimodal distribution of structural aspects of vegetation. These approaches have
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been criticized, as structure alone cannot separate out wetter savannas from drier forests for example, and there are also technical challenges to mapping vegetation structure in unbiased ways. Here, we develop an alternative approach to delimit the climatic envelope of the two biomes in Africa using tree species lists gathered for a large number of forest and savanna sites distributed across the continent. Our analyses confirm extensive climatic overlap of forest and savanna, supporting the alternative stable states hypothesis for Africa, and this result is corroborated by paleoecological evidence. Further, we find the two biomes to have highly divergent tree species compositions and to represent alternative compositional states. This allowed us to classify tree species as forest vs. savanna specialists, with some generalist species that span both biomes. In conjunction with georeferenced herbarium records, we mapped the forest and savanna distributions across Africa and quantified their environmental limits, which are primarily related to precipitation and seasonality, with a secondary contribution of fire. These results are important for the ongoing efforts to restore African ecosystems, which depend on accurate biome maps to set appropriate targets for the restored states but also provide empirical evidence for broad-scale bistability.
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Keywords: Alternative stable states, tropical biomes, tree species, compostion, precipitation and seasonality, fire, Taverne
ISSN: 0027-8424
Publisher: National Academy of Sciences
(Peer reviewed)