Xavier Penin

Geometric morphometrics of the shoulder girdle in extant turtles (Chelonii).

The aim of this study was to identify shape patterns of the shoulder girdle in relation to different functional and environmental behaviours in turtles. The Procrustes method was used to compare the shoulder girdles (scapula and coracoid) of 88 adult extant turtles. The results indicate that four shape patterns can be distinguished. The shoulder girdles of (1) terrestrial (Testudinidae), (2) highly aquatic freshwater (Trionychidae, Carettochelyidae) and (3) marine turtles (Cheloniidae, Dermochelyidae) correspond to three specialized morphological patterns, whereas the shoulder girdle of (4) semi‐aquatic freshwater turtles (Bataguridae, Chelidae, Chelydridae, Emydidae, Kinosternidae, Pelomedusidae, Platysternidae, Podocnemididae) is more generalized. In terrestrial turtles, the long scapular prong and the short coracoid are associated with a domed shell and a mode of locomotion in which walking is predominant. By contrast, highly aquatic freshwater turtles share traits with marine turtles. In both, the short scapular prong and the long coracoid are associated with a flat shell, and swimming locomotion. The enlarged attachment sites of the biceps, coracobrachialis magnus, and supracoracoideus also give these strong swimmers a mechanical advantage during adduction and retraction of the arm. Increasing size leads to allometrical shape changes that emphasize mechanical efficiency both in terrestrial and in aquatic turtles.

Étude des hétérochronies par superposition procruste : application aux crânes de primates Hominoidea

Abstract The procrustes superimposition method is well adapted to heterochronic studies in the field of evolutionary biology. 1) The procrustes method gives a precise and mathematical definition of two of the three heterochronic variables: size and shape. 2) It allows us to describe complex anatomical structures and thus to analyse the whole structure and not just to proceed trait by trait. 3) The approach is statistical and the different hypotheses and results may be statistically tested. 4) When applied to heterochronies the method allows us to test if there is a common shape change related to allometry. In the present study of three species of Hominoid primates, the procrustes superimposition reveals that various heterochronic processes are simultaneously present. Size–age–shape dissociations between species, already present in the first ontogenetic stage, are amplified with growth until adult stage. As compared with that of the chimpanzee, the growth of the gorilla skull is accelerated in terms of size–shape covariation and size alone. The growth of the human skull is neotenic as compared with that of the apes.

Comparaison tridimensionnelle des crânes de Pan et Pongo par superpositions procrustéennes

Abstract Comparative anatomy of the skulls of Pan and Pongo using procruste superimposition shows that airorynchy, classically described as a change in palatal tilting, is a complex movement involving a downward shift of the posterior part and an upward shift of the anterior part. Our 3D analysis shows that airorynchy could be interpreted as the functional consequence of the anatomic differences between the temporal muscle mass of those two genera. It also appears that the palatal tilting and the morphology of the supra-orbital torus are two independent features. A statistical test shows that the torus development is dependant, at least partly, on the relationship between the orbital cavity and the frontal bone.