Abstract
Ecological communities are the result of not only present ecological processes, such as competition among species and environmental filtering, but also past and continuing evolutionary processes. Based on these assumptions, we may infer mechanisms of contemporary coexistence from the phylogenetic relationships of the species in a community. We studied the phylogenetic structure of plant communities in four cerrado sites, in southeastern Brazil. We calculated two raw phylogenetic distances among the species sampled. We estimated the phylogenetic structure by comparing the observed phylogenetic distances to the distribution of phylogenetic distances in null communities. We obtained null communities by randomizing the phylogenetic relationships of the regional pool of species. We found a phylogenetic overdispersion of the cerrado species. Phylogenetic overdispersion has several explanations, depending on the phylogenetic history of traits and contemporary ecological interactions. However, based on coexistence models between grasses and trees, density-dependent ecological forces, and the evolutionary history of the cerrado flora, we argue that the phylogenetic overdispersion of cerrado species is predominantly due to competitive interactions, herbivores and pathogen attacks, and ecological speciation. Future studies will need to include information on the phylogenetic history of plant traits.
Highlights
Ecological communities are assemblages of co-occurring species that potentially interact with one another
We found an overall phylogenetic overdispersion in the cerrado sites
We assessed the phylogenetic relationship of cerrado species and found a phylogenetic overdispersion
Summary
Ecological communities are assemblages of co-occurring species that potentially interact with one another They are the result of present ecological processes, such as competition among species (Hutchinson, 1959; Leibold, 1998) and environmental filtering (Weiher and Keddy, 1995; Chase, 2003), and past and continuing evolutionary processes (Tofts and Silvertown, 2000; Ackerly, 2003; Reich et al, 2003). If functional traits evolve convergently and closely related species tend to be functionally different, environmental filtering is expected to favour co-occurrence of more distantly related species (Webb et al, 2002) Competition, in this case, is expected to remove any systematic associations, resulting in assemblages indistinguishable from random (Webb et al, 2002)
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