| Literature DB >> 31171860 |
Samantha Presslee1,2,3, Graham J Slater4, François Pujos5, Analía M Forasiepi5, Roman Fischer6, Kelly Molloy7, Meaghan Mackie3,8, Jesper V Olsen8, Alejandro Kramarz9, Matías Taglioretti10, Fernando Scaglia10, Maximiliano Lezcano11, José Luis Lanata11, John Southon12, Robert Feranec13, Jonathan Bloch14, Adam Hajduk15, Fabiana M Martin16, Rodolfo Salas Gismondi17, Marcelo Reguero18, Christian de Muizon19, Alex Greenwood20,21, Brian T Chait7, Kirsty Penkman22, Matthew Collins3,23, Ross D E MacPhee24.
Abstract
The living tree sloths Choloepus and Bradypus are the only remaining members of Folivora, a major xenarthran radiation that occupied a wide range of habitats in many parts of the western hemisphere during the Cenozoic, including both continents and the West Indies. Ancient DNA evidence has played only a minor role in folivoran systematics, as most sloths lived in places not conducive to genomic preservation. Here we utilize collagen sequence information, both separately and in combination with published mitochondrial DNA evidence, to assess the relationships of tree sloths and their extinct relatives. Results from phylogenetic analysis of these datasets differ substantially from morphology-based concepts: Choloepus groups with Mylodontidae, not Megalonychidae; Bradypus and Megalonyx pair together as megatherioids, while monophyletic Antillean sloths may be sister to all other folivorans. Divergence estimates are consistent with fossil evidence for mid-Cenozoic presence of sloths in the West Indies and an early Miocene radiation in South America.Mesh:
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Year: 2019 PMID: 31171860 DOI: 10.1038/s41559-019-0909-z
Source DB: PubMed Journal: Nat Ecol Evol ISSN: 2397-334X Impact factor: 15.460