Phylogenetic Analysis Under Reticulate Evolution

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Molecular Biology and Evolution 17:897-907 (2000)
© 2000 Society for Molecular Biology and Evolution

Article

Phylogenetic Analysis Under Reticulate Evolution

Shizhong Xu^,

Department of Botany and Plant Sciences, University of California at Riverside

The usual assumption that species have evolved from a commonancestor by a simple branching process—where each branchis genetically isolated—has been challenged by the observationof frequent hybridization between species in natural populations.In fact, most plant species are thought to have hybrid origins.This reticulate pattern of species evolution has posed problemsin the definition of speciation and in phylogenetic reconstruction,especially when molecular data are used. As a result, hybridizationhas been largely treated as an evolutionary accident or statisticalerror in phylogenetic analysis. In this paper, I explicitlyincorporate hybridization as an evolutionary occurrence andthen conduct phylogenetic reconstruction. I first examine thereticulate evolution under a pure drift model, and then extendthe theory to fit a mutation model. A least-squares method isdeveloped for reconstructing a reticulate phylogeny using genefrequency data. The efficacy of the method under the pure driftmodel is verified via Monte Carlo simulations.

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