Genetic characterization and structure of the endemic Colombian silvery brown bare-face tamarin, Saguinus leucopus (Callitrichinae, Cebidae, Primates)

MAMÍFEROS URBANOS COLOMBIANOS: UNA REVISIÓN DE LO QUE SABEMOS Y LO QUE NOS FALTA

Los ecosistemas urbanos están entre los ambientes que más rápido crecen en el planeta debido al incremento de la población humana, y es necesaria información que permita tomar decisiones para el manejo y conservación de su biodiversidad. Por ello se revisaron las publicaciones sobre mamíferos urbanos colombianos y se analizaron cuatro aspectos: 1) la relación entre el número de publicaciones y el año, 2) la representación del conocimiento por regiones naturales y departamentos, 3) la relación entre el número de publicaciones y la población humana por departamento, y 4) la representación de los temas y órdenes de mamíferos estudiados en las diferentes regiones naturales. El número de publicaciones sobre los mamíferos urbanos se ha incrementado exponencialmente con el tiempo, pero estas no están distribuidas uniformemente entre las regiones naturales y departamentos. El número de publicaciones se incrementó con la población humana en los departamentos. Sin embargo, en algunos departamentos existe un número de publicaciones mayor al esperado, mientras que en otros están por debajo de las expectativas. Hay limitada información sobre las respuestas ecológicas de los mamíferos a la urbanización, su posibilidad de transmitir enfermedades, la composición de especies en la mayoría de las áreas urbanas y el efecto de la urbanización sobre la diversidad. Se sugiere aprovechar espacios como los campus universitarios e indicadores comportamentales de bajo costo para hacer experimentación y ayudar a desarrollar estrategias que permitan la coexistencia de humanos y mamíferos silvestres en y alrededor de las ciudades.

Sperm Morphology in Neotropical Primates

The morphological and morphometric characterization of spermatozoa has been used as a taxonomic and phylogenetic tool for different species of mammals. We evaluated and compared the sperm morphometry of five neotropical primate species: Alouatta caraya, Ateles belzebuth and Ateles chamek of family Atelidae; and Cebus cay (=Sapajus cay) and Cebus nigritus (=Sapajus nigritus) of family Cebidae. After the collection of semen samples, the following parameters were measured on 100 spermatozoa from each specimen: Head Length, Head Width, Acrosome Length, Midpiece Length, Midpiece Width and Tail Length. Considering the available literature on sperm morphometry, we gathered data of 75 individuals, from 20 species, 8 genera and 2 families. These data were superimposed on a phylogeny to infer the possible direction of evolutionary changes. Narrower and shorter spermatozoa seem to be the ancestral form for Cebidae, with a trend toward wider and larger heads in derived groups. The spermatozoa of Atelidae may show an increase in total length and midpiece length. Sperm heads would have become narrower in the more derived groups of Ateles. Sperm length may increase in the more derived species in both families. Our results are discussed in the context of sperm competition and sexual selection.

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).

How do rivers, geographic distance, and dispersal behavior influence genetic structure in two sympatric New World monkeys?

Dispersal, one of the major factors affecting the gene flow between populations, shapes the spatial distribution of genetic diversity within species. Alouatta macconnelli and Saguinus midas are two Neotropical monkey species that sympatrically inhabit the Guiana shield in northern Amazonia and are likely to differ in their dispersal behavior and vagility. We took advantage of their sympatry to investigate, over a fine geographical scale (∼50 km long), the relationship between spatial genetic structure, on the one hand, and geographical features and the species' dispersal behavior on the other. A total of 84 A. macconnelli individuals from 25 social units and 76 S. midas individuals from 19 social units were genotyped for nine microsatellite markers. Both species displayed high genetic diversity and allelic richness. However, patterns of genetic structure differed between the two species. In A. macconnelli, no genetic substructuring was observed, while in S. midas we detected significant structuring, but this structuring was not correlated with geographical features, such as the location of individuals relative to the river and/or the distance between them. Instead, the geographical distribution of genetic variation observed for each species is predominantly explained by each species' dispersal pattern. We identified bisexual dispersal for both species, but with significant differences, either in the distance or in the rate of dispersal, between species and sexes. Genetic relatedness within social units was higher in S. midas than in A. macconnelli: gene flow between social units seems limited in S. midas, especially for females, while high dispersal characterizes A. macconnelli, where females seem to disperse at lower rate but at a longer distance than males.

Special issue: Comparative biogeography of Neotropical primates

New research presented in this special issue of Molecular Phylogenetics and Evolution on the "Phylogeny and Biogeography of Neotropical Primates" greatly improves our understanding of the evolutionary history of the New World monkeys and provides insights into the multiple platyrrhine radiations, diversifications, extinctions, and recolonizations that have taken place over time and over space in the Neotropics. Here, we synthesize genetic and biogeographic research from the past several years to construct an overarching hypothesis for platyrrhine evolution. We also highlight continuing controversies in Neotropical primate biogeography, such as whether the location of origin of platyrrhines was Africa or Asia; whether Patagonian fossil primates are stem or crown platyrrhines; and whether cis- and trans-Andean Neotropical primates were subject to vicariance through Andes mountain building, or instead diversified through isolation in mountain valleys after skirting around the Andes on the northwestern coast of South America. We also consider the role of the Amazon River and its major tributaries in shaping platyrrhine biodiversity, and how and when primates from the Amazon reached the Atlantic Forest. A key focus is on primate colonizations and extirpations in Central America, the Andes, and the seasonally dry tropical forests and savannas (such as the Llanos, Caatinga, and Cerrado habitats), all ecosystems that have been understudied up until now for primates. We suggest that most primates currently inhabiting drier open habitats are relatively recent arrivals, having expanded from rainforest habitats in the Pleistocene. We point to the Pitheciidae as the taxonomic group most in need of further phylogenetic and biogeographic research. Additionally, genomic studies on the Platyrrhini are deeply needed and are expected to bring new surprises and insights to the field of Neotropical primate biogeography.