ABSTRACT
Shape variation in the vertebrate skull is often studied by considering this bony structure as a single discrete unit, but it can also be interpreted exploring covariation among functionally and developmentally distinct regions, or modules. In this paper, we explore the evolution of skull shape in extant and fossil carnivoran cats by looking at covariation between two distinct modules: the rostrum (splanchnocranium) and braincase (neurocranium). Previous work suggests that the evolution of extreme skull shapes in sabertoothed cats may occur along developmental axes similar to the allometric trajectory observed for extant conical-toothed cats. Here, we reassess this hypothesis by using geometric morphometric data to test for covariation between rostral and braincase modules in sabertoothed and conical-toothed cats. Using partial least squares analysis, we detect a correlated pattern of evolution between rostrum and braincase shape in both forms. However, when we compare within-module integration between conical and sabertoothed cats, we find significant differences in vector trajectories for the rostrum but not the braincase. Both skull modules of conical-toothed cats are more influenced by allometry. For sabertoothed taxa, relative canine height drives shape in the rostrum, but both size and canine length affect braincase shape. We suggest that sabertoothed skull morphology is the result of genetic and developmental processes that were affected by the growth rate of the upper canines. The striking convergence between independent sabertooth radiations indicates that elongation of the canines influenced interspecific skull shape variation in different lineages but in a similar way.
ACKNOWLEDGMENTS
We are grateful to museum curators and staff at the Natural History Museum of London, Muséum National d’Histoire Naturelle (Paris), and Museo Nacional de Ciencias Naturales–CSIC (Madrid) for allowing C. Meloro to expand data collection on extant and fossil Felidae. In particular, we would like to thank P. Jenkins, L. Tomsett, R. Portela-Miguez, A. Salvador, D. Hills, J. J. Hooker, P. Brewer, and A. Currant (Natural History Museum, London); B. Sanchez, J. Morales, J. Cabarga, and J. B. Rodríguez (Museo Nacional de Ciencias Naturales, Madrid); and D. Goujet, P. Tassy, and C. Signe (Muséum National d’Histoire Naturelle, Paris). We also thank A. Curtis, S. Price, and S. Santana for many helpful comments on previous versions of this paper. A. Goswami, P. D. Polly, and M. J. Salesa provided important insights to improve the quality of the manuscript. Visits at museums in Paris and Madrid were supported by Synthesys European grants ES-TAF 858 and FR-TAF 1680 awarded to C. Meloro for the project ‘The evolution of feeding habits in extinct European carnivores.’
Handling editor: Anjali Goswami