Abstract
Human-modified ecosystems such as plantations, previously considered as green deserts, can serve as stepping-stones or corridors for species to migrate between source and sink populations, thus maintaining metapopulations. Understanding community assembly in the understory of plantations and how this is mediated by ecological and anthropogenic processes can shed light on their role in biodiversity conservation. Human disturbance, such as fire, can limit the successful establishment of species dispersing from nearby forests. We investigated the direct and indirect effects of African mahogany (Khaya senegalensis) plantation size, age, fire, and distance to forest reserves on understory plant species richness and phylogenetic diversity. We conducted biodiversity surveys in African mahogany plantations in Benin and developed a piecewise structural equation model to test the effects of plantation size, age, proximity to forests, and the effect of fire on understory plant species richness and phylogenetic diversity. Species richness and phylogenetic diversity increased with plantation size, but only species richness was positively associated with plantation age. Species richness decreased with increasing plantation isolation and disturbance. However, phylogenetic diversity was not associated with fire or plantation proximity to forests. Our study suggests that small plantations and those far from forest reserves are more vulnerable to biodiversity filters and need more attention from conservation planners. We further showed that plantations can harbor important species richness in their understory if disturbance is limited.