Abstract
Until recently, most phylogenetic and population genetics studies of nonhuman primates have relied on mitochondrial DNA and/or a small number of nuclear DNA markers, which can limit our understanding of primate evolutionary and population history. Here, we describe a cost-effective reduced representation method (ddRAD-seq) for identifying and genotyping large numbers of SNP loci for taxa from across the New World monkeys, a diverse radiation of primates that shared a common ancestor ~20–26 mya. We also estimate, for the first time, the phylogenetic relationships among 15 of the 22 currently-recognized genera of New World monkeys using ddRAD-seq SNP data using both maximum likelihood and quartet-based coalescent methods. Our phylogenetic analyses robustly reconstructed three monophyletic clades corresponding to the three families of extant platyrrhines (Atelidae, Pitheciidae and Cebidae), with Pitheciidae as basal within the radiation. At the genus level, our results conformed well with previous phylogenetic studies and provide additional information relevant to the problematic position of the owl monkey (Aotus) within the family Cebidae, suggesting a need for further exploration of incomplete lineage sorting and other explanations for phylogenetic discordance, including introgression. Our study additionally provides one of the first applications of next-generation sequencing methods to the inference of phylogenetic history across an old, diverse radiation of mammals and highlights the broad promise and utility of ddRAD-seq data for molecular primatology.
Highlights
Molecular genetic studies can provide important and unique insight into the evolutionary history, phylogenetic relationships, migration patterns, and demographic histories of natural populations [1]
The evolutionary history of platyrrhines was characterized by an early, rapid diversification into three lineages corresponding to the three extant New World monkey families [52,57,117], with short phylogenetic branches between these clades that contain few diagnostic character states
The more recent history of divergences among genera, species and subspecies within particular platyrrhine genera has been difficult to resolve with confidence using a limited number of traditional sequence-based markers due to incomplete lineage sorting and, in some cases, hybridization
Summary
Molecular genetic studies can provide important and unique insight into the evolutionary history, phylogenetic relationships, migration patterns, and demographic histories of natural populations [1]. Over the past two decades, the field of primatology has benefited greatly from the use of molecular markers to describe and interpret the patterns of genetic variation found. RADseq—New World primates phylogeny for the Future program, Primate Conservation, Inc., the Margot Marsh Biodiversity Foundation, the American Society of Primatologists, the Rufford Foundation, the Primate Society of Great Britain, CNPq – Science Without Borders Program, and the University of Texas at Austin (to LMV and AM). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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