4.2 Article

Evolution of Cranial Ontogeny in South American Canids (Carnivora: Canidae)

Journal

EVOLUTIONARY BIOLOGY
Volume 48, Issue 2, Pages 170-189

Publisher

SPRINGER
DOI: 10.1007/s11692-020-09529-3

Keywords

3D Geometric morphometric; Atelocynus; Cerdocyon; Chrysocyon; Lycalopex; Speothos

Funding

  1. Prestamo BID PICT [2015-0966, 2016-3151]

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The skull ontogeny study of South American canids reveals similar shape and diet among the species, possibly due to similar mechanical commitments or a shared evolutionary history with short divergence time. Specific species like Speothos venaticus and Chrysocyon brachyurus exhibit differences in their ontogenetic trajectory and skull structure, related to their hyper-carnivorous diet or large body size.
South American Canids are endemic and form a monophyletic clade supported by molecular and morphological data, with the exception of Urocyon cinereoargenteus, which is a typical North American form. South American canids occur in almost all environments in continent, and exhibit diet diversity and large size variation. Here we analyzed the skull ontogeny by applying 3D geometric morphometric techniques, in a well-represented sample of South American canids, with the aim of exploring variation in cranial size and shape as well as evolutionary patterns of such variation. The sample consisted of 1227 crania of the 11 living species of South American canids and 92 crania of Canis lupus and Vulpes vulpes, which were considered as out-groups. South American canids exhibited similar shape and diet (they are mostly omnivorous), which implies similar mechanical commitments, which are reflected in their almost uniform skulls. However, it is possible that cranial similarity is related to a shared evolutionary history with a short time of divergence. Speothos venaticus differed in its ontogenetic trajectory, with the difference being stronger between adults of this species and the remaining canids. The skull configuration is consistent with the hyper-carnivorous diet. In the case of Chrysocyon brachyurus, size plays an important role in the structure of a skull, giving rise to remarkable morphological differences from other species, although in terminal stages of its ontogeny.

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