Rees, M.; Godlee, J.L.; Harris, D.J.; Ryan, C.M.; Dexter, K.G. Testing White’s Floristic Impoverishment Hypothesis in the Forest-Savanna Transition Zones of Africa. Diversity2023, 15, 833.
Rees, M.; Godlee, J.L.; Harris, D.J.; Ryan, C.M.; Dexter, K.G. Testing White’s Floristic Impoverishment Hypothesis in the Forest-Savanna Transition Zones of Africa. Diversity 2023, 15, 833.
Rees, M.; Godlee, J.L.; Harris, D.J.; Ryan, C.M.; Dexter, K.G. Testing White’s Floristic Impoverishment Hypothesis in the Forest-Savanna Transition Zones of Africa. Diversity2023, 15, 833.
Rees, M.; Godlee, J.L.; Harris, D.J.; Ryan, C.M.; Dexter, K.G. Testing White’s Floristic Impoverishment Hypothesis in the Forest-Savanna Transition Zones of Africa. Diversity 2023, 15, 833.
Abstract
In tropical Africa, forests and savannas are the two most widespread biomes and potentially represent alternative stable states with divergent species composition. A classic, but untested, hypothesis posited by White (1983) suggests that the transition zones between forests and savannas contain a floristically impoverished assemblage with few representatives from each biome. Further, the evolutionary dimension of diversity has received limited attention, despite its importance for understanding the biogeographic history of biomes. Here, we quantify species richness and several measures of evolutionary diversity in 1° grid cells, using c. 300K occurrence records of trees and shrubs combined with biome affiliation data for 3,125 species. We find that assemblages in transition zones hold fewer woody species than assemblages in forest and savanna zones, as posited by White. However, transition zones hold more phylogenetic diversity than expected given their species richness, whether one considers forest and savanna assemblages separately or together. We also show that the Congo basin forest has low levels of phylogenetic diversity given the number of species and highlight south-eastern African savannas as a centre of savanna woody species richness and phylogenetic diversity. Regions with high phylogenetic diversity given the number of both forest and savanna species were centred around the Dahomey Gap and Cameroon, mainly in transition zones. Overall, our study shows that even if floristically impoverished, transition zones lead to unexpectedly high evolutionary diversity, suggesting they are important centres of evolutionary innovation and diversification.
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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