Abstract
The application of quantifying phylogenetic information into measures of forest β-diversity is increasing for investigating the underlying drivers of community assembly along environmental gradients. In terms of assessing evolutionary inferences of community processes, a variety of plant DNA barcodes has been widely used in phylogenetic diversity measurements. However, relatively few studies have evaluated the effectiveness of DNA barcodes with using nuclear region in estimating phylogenetic β-diversity, particularly for communities in tropical or subtropical forests. In this study, we employed DNA barcodes combing with the nuclear region to construct the community phylogeny and examined the patterns of phylogenetic β-diversity of three mid-subtropical evergreen broad-leaved forests (EBLFs) in South China. Three phylogenetic construction methods were performed, including a Phylomatic-generated tree and two ML trees based on the combination of rbcL +matK +ITS with or without a constrained tree. Our results showed that the DNA barcodes including nuclear ITS constructed a highly resolved phylogenetic tree, but the application of a constrained tree had little influence on estimation of phylogenetic diversity metrics (mean pairwise distances and mean nearest taxon distances) based on branch lengths. Using both metrics and their standardized effect size metrics, we found that the patterns of phylogenetic β-diversity in mid-subtropical forests were non-random. There was a slight decline of phylogenetic β-diversity with increasing latitudes, but no trend was found along the altitude gradient. According to the analysis of variation partition, both environmental filtering and dispersion limitation could explain the variation of phylogenetic dissimilarity between communities in mid-subtropical EBLFs of China. Our results highlight the importance of neutrality and the niche conservatism in structuring the patterns of species diversity in subtropical woody communities.
Highlights
Unraveling mechanisms that determine species diversity is an essential issue in ecology.Niche-based deterministic and neutrality-based stochastic processes are considered to be two main drivers for the variation of species composition [1,2,3,4]
We focus on the following issues: (1) the comparison of phylogenetic β-diversity between the rbcL + matK + ITS constructed tree and the Phylomatic-generated tree; (2) the patterns of phylogenetic turnover along latitudinal and altitudinal gradients in mid-subtropical mountain forests of China; and (3) the roles of environment filtering and spatial distances on shaping the phylogenetic β-diversity in subtropical forests
Three community phylogenetic trees were built in this study with different approaches including the phylomatic phylogeny, the unconstrained barcoding phylogeny, and the constrained barcoding phylogeny, which differed in phylogenetic topology
Summary
Unraveling mechanisms that determine species diversity is an essential issue in ecology. Niche-based deterministic and neutrality-based stochastic processes are considered to be two main drivers for the variation of species composition [1,2,3,4]. The relative importance of the deterministic or the stochastic process in shaping the patterns of species diversity has been debated for a long time by Forests 2019, 10, 923; doi:10.3390/f10100923 www.mdpi.com/journal/forests. Changes of species composition caused by deterministic processes may be strongly associated with environmental distances, as species distribution may differ in large environmental gradients. While the variation of species turnover caused by stochastic processes may have strong correlations with geographical distances, because species dispersal limitation may occur in biogeographic barriers
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