Multilocus Phylogenetics of a Rapid Radiation in the Genus Thomomys (Rodentia: Geomyidae)

doi:10.1080/10635150802044011

Systematic Biology 2008 57(2):294-310; doi:10.1080/10635150802044011

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Multilocus Phylogenetics of a Rapid Radiation in the Genus Thomomys (Rodentia: Geomyidae)

Natalia M. Belfiore¹, Liang Liu² and Craig Moritz¹

¹ 3101 VLSB 3160, Museum of Vertebrate Zoology, University of California Berkeley, California 94720, USA; E-mail: nmb{at}berkeley.edu (N.M.B.)
² Museum of Comparative Zoology, Harvard University Cambridge, Massachusetts, USA

Edited by Laura Kubatko

Abstract

Species complexes undergoing rapid radiation present a challengein molecular systematics because of the possibility that ancestralpolymorphism is retained in component gene trees. Coalescenttheory has demonstrated that gene trees often fail to matchlineage trees when taxon divergence times are less than theancestral effective population sizes. Suggestions to increasethe number of loci and the number of individuals per taxon havebeen proposed; however, phylogenetic methods to adequately analyzethese data in a coalescent framework are scarce. We comparetwo approaches to estimating lineage (species) trees using multipleindividuals and multiple loci: the commonly used partitionedBayesian analysis of concatenated sequences and a modificationof a newly developed hierarchical Bayesian method (BEST) thatsimultaneously estimates gene trees and species trees from multilocusdata. We test these approaches on a phylogeny of rapidly radiatingspecies wherein divergence times are likely to be smaller thaneffective population sizes, and incomplete lineage sorting isknown, in the rodent genus, Thomomys. We use seven independentnoncoding nuclear sequence loci (total $~$ 4300 bp) and between1 and 12 individuals per taxon to construct a phylogenetic hypothesisfor eight Thomomys species. The majority-rule consensus treefrom the partitioned concatenated analysis included 14 stronglysupported bipartitions, corroborating monophyletic species statusof five of the eight named species. The BEST tree strongly supportedonly the split between the two subgenera and showed very lowsupport for any other clade. Comparison of both lineage treesto individual gene trees revealed that the concatenation methodappears to ignore conflicting signals among gene trees, whereasthe BEST tree considers conflicting signals and downweightssupport for those nodes. Bayes factor analysis of posteriortree distributions from both analyses strongly favor the modelunderlying the BEST analysis. This comparison underscores therisks of overreliance on results from concatenation, and ignoringthe properties of coalescence, especially in cases of recent,rapid radiations.

Keywords: Gene tree; importance sampling; incomplete lineage sorting; multilocus phylogeny; pocket gopher; species tree; Thomomys; Geomyidae

Received March 31, 2007; Revised June 22, 2007; Accepted September 12, 2007
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