Alt. Name: Red Panda
Location: Mammifères et Oiseaux, Musem National d'Histoire Naturelle
Specimen ID: CG 1960-84
This is a scan of Ailurus fulgens. It is a female from a zoo in Paris. If you use this scan in a study, paper: do not forget to acknowledge the collection (Mammifères et Oiseaux, Museum National d'Histoire Naturelle), the curator (Géraldine Véron), and the ‘plate-forme de morphométrie’ of the UMS 2700 (CNRS, MNHN) for access to the surface scanner as well as myself for scanning (A.-C. Fabre). Furthermore, a final version of the publication using this scan must be send to Géraldine Véron (firstname.lastname@example.org).
Title: Influence of body mass on the shape of forelimb in musteloid carnivorans. Biological Journal of the Linnean Society 110(1):91-103. pdf
Authors: Fabre A.-C., R. Cornette, S. Peigné and A. Goswami
Journal: Biological Journal of the Linnean Society 110(1):91-103
In the majority of mammals, the limbs are positioned under the body and play an important role in gravitational support, allowing the transfer of the load and providing stability to the animal. For this reason, an animal’s body mass likely has a significant effect on the shape of its limb bones. In the present study, we investigate the influence of body mass variation on the shape of the three long bones of the forelimb in a group of closely-related species of mammals: the musteloid carnivorans. We use geometric morphometric techniques to quantify forelimb shape; then estimate phylogenetic signal in the shape of each long bone; and, finally, we apply an independent contrasts approach to assess evolutionary associations between forelimb shape and body mass. The results obtained show that body mass evolution is tightly coordinated with the evolution of forelimb shape, although not equally in all elements. In particular, the humeral and radial shapes of heavier species appear better suited for load bearing and load transmission than the ulna. Nevertheless, our results also show that body mass influences only part of forelimb long bone shape and that other factors, such as locomotor ecology, must be considered to fully understand forelimb evolution.
Authors: Polly P.D., A.M. Lawing, A.-C. Fabre and A. Goswami
Journal: Hystrix 24(1):1-9
Title: Getting a grip on the evolution of grasping in musteloid carnivorans: a three-dimensional analysis of forelimb shape.
Authors: Fabre A.-C., R. Cornette, G. Slater, C. Argot, S. Peigné, A. Goswami and E. Pouydebat
Journal: Journal of Evolutionary Biology 26(7):1521-1535
Authors: Fabre A.-C., A. Goswami, S. Peigné, and R. Cornette
Journal: Journal of Anatomy 225(1):19-30
Title: Quantitative inferences on the locomotor behaviour of extinct species applied to Simocyon batalleri (Ailuridae, Late Miocene, Spain).
Authors: Fabre A.-C., M. J. Salesa, R. Cornette, M. Antón. J. Morales and S. Peigné
Journal: The Science of Nature 102:30
Title: Do constraints associated with the locomotor habitat drive the evolution of forelimb shape? A case study in musteloid carnivorans
Authors: Fabre A.-C., R. Cornette, A. Goswami and S. Peigné
Journal: Journal of Anatomy 226:596-610