Testing macro–evolutionary models using incomplete molecular phylogenies

Abstract

Phylogenies reconstructed from gene sequences can be used to investigate the tempo and mode of species diversification. Here we develop and use new statistical methods to infer past patterns of speciation and extinction from molecular phylogenies. Specifically, we test the null hypothesis that per-lineage speciation and extinction rates have remained constant through time. Rejection of this hypothesis may provide evidence for evolutionary events such as adaptive radiations or key adaptations. In contrast to previous approaches, our methods are robust to incomplete taxon sampling and are conservative with respect to extinction. Using simulation we investigate, first, the adverse effects of failing to take incomplete sampling into account and, second, the power and reliability of our tests. When applied to published phylogenies our tests suggest that, in some cases, speciation rates have decreased through time.

Keywords

Genetic algorithmBiologyExtinction (optical mineralogy)Lineage (genetic)Evolutionary biologyNull hypothesisTaxonNull modelStatisticsGeneEcologyGeneticsMathematicsPaleontology

Affiliated Institutions

University of Oxford GB

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Publication Info

Year: 2000
Type: article
Volume: 267
Issue: 1459
Pages: 2267-2272
Citations: 826
Access: Closed

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APA Style

                            
                                    Oliver G. Pybus, 
                                
                                    Paul Harvey
                                
                            (2000). 
                            Testing macro–evolutionary models using incomplete molecular phylogenies. 
                            Proceedings of the Royal Society B Biological Sciences
                            , 267
                            (1459)
                            , 2267-2272.
                            https://doi.org/10.1098/rspb.2000.1278

Identifiers

DOI: 10.1098/rspb.2000.1278