First Molecular Phylogenetic Analysis of the Lagothrix Taxon Living in Southern Peru and Northern Bolivia: Lagothrix lagothricha tschudii (Atelidae, Primates), a New Subspecies.

We sequenced mitochondrial COI and COII genes (1,377 base pairs) of 166 woolly monkeys (Lagothrix) to determine the phylogenetic relationships of tschudii in reference to the other taxa within the genus Lagothrix, to provide the first genetic diversity level estimates for tschudii, and to reconstruct the historical demographic evolution of this taxon. The sample set included, for the first time, 10 individuals of the elusive tschudii taxon sensu Groves from southern Peru and northern Bolivia. Our phylogenetic analyses showed that these 10 exemplars formed a statistically significant and differentiated (molecularly and morphologically) monophyletic clade relative to other traditional subspecies of Lagothrix lagothricha. Therefore, tschudii should be recognized as a fifth subspecies: Lagothrix lagothricha tschudii. The temporal divergence of the ancestors of tschudii and L. l. cana was estimated to have occurred around 1.8 million years ago (MYA). Additionally, mitochondrial diversification within tschudii started no later than 0.96 MYA (Bayesian Inference) or 0.88 MYA (Median Joining -Network), respectively. In contrast to the phylogenetic trees, the FSTstatistic and the gene flow estimates showed L. l. lugens to be the least differentiated taxon of L. lagothricha from L. l. tschudii. Based on genetic distances, L. l. tschudii had the smallest average genetic distance from the other subspecies of L. lagothricha.It was also the taxon within L. lagothricha that had the smallest genetic distance from L. flavicauda. It should be related to L. l. tschudii as the first original taxon in L. lagothricha. Furthermore, the Andean mountains were extremely important in the original diversification of the Lagothrix genus and in the original diversification of L. lagothricha. Although L. l. tschudii has the smallest geographical range of all the taxa of L. lagothricha, its genetic diversity is even higher than in other taxa with wider geographical ranges, such as L. l. lagothricha and L. l. cana. L. l. tschudii showed a very slight demographic increase during the Pleistocene with a decrease of females in the last 10,000 Y, similar to that found for L. l. lugens in a previous study.

The mystery of the origins of Cebus albifrons malitiosus and Cebus albifrons hypoleucus: mitogenomics and microsatellite analyses revealed an amazing evolutionary history of the Northern Colombian white-fronted capuchins.

Knowledge of the genetic units of species is fundamental to the conservation of biodiversity. This is true for all regions, including the Neotropics where the Earth has its greatest diversity, including roughly 34% of primate species, a group that has almost 60% of its taxa threatened with extinction. The untufted (gracile) capuchins are medium-sized Neotropical primates, traditionally classified in four species: Cebus albifrons, C. capucinus, C. olivaceus, and C. kaapori. They have a very confusing intra-specific systematics with a large number of fragmented and isolated populations throughout their geographical distributions. We sequenced a large sample of gracile capuchins, including all of the recognized species, to offset the paucity of phylogenic and phylogeographic data regarding this group and to try to understand their phylogeny and evolution. A set of 189 gracile and robust capuchins were sequenced for their mitogenomes whereas another set of 394 gracile and robust capuchins were sequenced at two individual mitochondrial genes (mtCOI-COII). Additionally, 41 Colombian gracile capuchins were geno typified at eight nuclear DNA microsatellites. Our main findings are as follows: (1) Nineteen different groups of gracile capuchin were detected with the mitogenomics data set and more than twenty significant groups and sub-groups were identified with the mtCOI-COII genes; (2) The temporal splits of the older gracile capuchin haplogroups expanded between 2 and 4 million years ago (MYA), during the Pliocene; (3) The two most northern taxa of Colombian C. albifrons (malitiosus and hypoleucus) are the same taxon (C. a. hypoleucus) as was claimed by Cabrera. This taxon represents an old colonization event from the Amazon to current northern Colombia. It is intensely hybridized (evidence from both mitochondrial and nuclear genes) with a haplogroup of C. capucinus (H3) and also has an influx of robust capuchins; (4) Three different and independent migrations of C. albifrons from the Amazon arrived to northern Colombia giving rise to C. a. hypoleucus (including malitiosus), C. a versicolor (including leucocephalus, cesarae, and pleei), and C. a. adustus; (5) On the Caribbean island of Trinidad, two different gracile capuchin taxa exist, one autochthonous, which could correspond to a fourth migration into northwestern South America (C. a. trinitatis) and probably another one, introduced more recently (C. olivaceus brunneus); (6) The values of the genetic distance analyses, the inexistence of reciprocal mitochondrial monophylia for many clades of gracile capuchins and the strong hybridization detected with nuclear microsatellites, especially among hypoleucus (malitiosus), C. capucinus-H3, versicolor, and cesarae, support that all the gracile capuchins belong to one unique superspecies: C. capucinus (senior name for all the gracile capuchins).