Whole genomes of Amazonian uakari monkeys reveal complex connectivity and fast differentiation driven by high environmental dynamism.

TitleWhole genomes of Amazonian uakari monkeys reveal complex connectivity and fast differentiation driven by high environmental dynamism.
Publication TypeJournal Article
Year of Publication2024
AuthorsHermosilla-Albala, N, Silva, FEnnes, Cuadros-Espinoza, S, Fontsere, C, Valenzuela-Seba, A, Pawar, H, Gut, M, Kelley, JL, Ruibal-Puertas, S, Alentorn-Moron, P, Faella, A, Lizano, E, Farias, I, Hrbek, T, Valsecchi, J, Gut, IG, Rogers, J, Farh, KKai-How, Kuderna, LFK, Marques-Bonet, T, Boubli, JP
JournalCommun Biol
Volume7
Issue1
Pagination1283
Date Published2024 Oct 08
ISSN2399-3642
KeywordsAnimals, Brazil, Ecosystem, Gene Flow, Genetic Variation, Genome, Phylogeny, Platyrrhini, Rainforest
Abstract

Despite showing the greatest primate diversity on the planet, genomic studies on Amazonian primates show very little representation in the literature. With 48 geolocalized high coverage whole genomes from wild uakari monkeys, we present the first population-level study on platyrrhines using whole genome data. In a very restricted range of the Amazon rainforest, eight uakari species (Cacajao genus) have been described and categorized into the bald and black uakari groups, based on phenotypic and ecological differences. Despite a slight habitat overlap, we show that posterior to their split 0.92 Mya, bald and black uakaris have remained independent, without gene flow. Nowadays, these two groups present distinct genetic diversity and group-specific variation linked to pathogens. We propose differing hydrology patterns and effectiveness of geographic barriers have modulated the intra-group connectivity and structure of bald and black uakari populations. With this work we have explored the effects of the Amazon rainforest's dynamism on wild primates' genetics and increased the representation of platyrrhine genomes, thus opening the door to future research on the complexity and diversity of primate genomics.

DOI10.1038/s42003-024-06901-3
Alternate JournalCommun Biol
PubMed ID39379612
PubMed Central IDPMC11461705

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