Phylogenetic beta diversity in tropical forests: Implications for the roles of geographical and environmental distance

Various mechanistic theories of community assembly have been proposed ranging from niche-based theory to neutral theory. Analyses of beta diversity in a phylogenetic context could provide an excellent opportunity for testing many of these hypotheses. We analyzed the patterns of phylogenetic beta div...

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Bibliographic Details
Published in:Journal of systematics and evolution : JSE 2013, Vol.51 (1), p.71-85
Main Authors: ZHANG, Jin-Long, SWENSON, Nathan G., CHEN, Sheng-Bin, LIU, Xiao-Juan, LI, Zong-Shan, HUANG, Ji-Hong, MI, Xiang-Cheng, MA, Ke-Ping
Format: Article
Language:English
Subjects:
community
distance decay
environmental filtering
Hypotheses
neotropical forests
niche conservatism
null model
Phylogenetics
地理距离
多样性分析
热带森林
环境梯度
系统发育
系统进化
装配过程
距离和
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Summary:Various mechanistic theories of community assembly have been proposed ranging from niche-based theory to neutral theory. Analyses of beta diversity in a phylogenetic context could provide an excellent opportunity for testing many of these hypotheses. We analyzed the patterns of phylogenetic beta diversity in tropical tree communities in Panama to test several community assembly hypotheses. In particular, the degree to which the phylogenetic dissimilarity between communities can be explained by geographical or environmental distance can yield support for stochastic or deterministic assembly processes, respectively. Therefore, we examined: (i) the existence of distance decay of phylogenetic similarity among communities and its degree of departure from that expected under a null model; and (ii) the relative importance of geographical versus environmental distance in predicting the phylogenetic dissimilarity of communities. We found evidence that the similarity in the phylogenetic composition of communities decayed with geographical distance and environmental gradients. Null model evidence showed that beta diversity in the study system was phylogenetically non-random. Our results highlighted not only the role of local ecological mechanisms, including environmental filtering and competitive exclusion, but also biogeographical processes such as speciation, dispersal limitation, and niche evolution in structuring phylogenetic turnover. These results also highlight the importance of niche conservatism in structuring species diversity patterns.
ISSN:1674-4918
1759-6831
DOI:10.1111/j.1759-6831.2012.00220.x