Affiliation:
1. Institutional affiliation: Department of Anthropology California State University Los Angeles Los Angeles California USA
Abstract
AbstractObjectivesThis study tests if femoral and humeral cross‐sectional geometry (CSG) and cross‐sectional properties (CSPs) in an ontogenetic series of wild‐caught chimpanzees (Pan troglodytes ssp.) reflect locomotor behavior during development. The goal is to clarify the relationship between limb bone structure and locomotor behavior during ontogeny in Pan.Materials and MethodsThe latex cast method was used to reconstruct cross sections at the midshaft femur and mid‐distal humerus. Second moments of area (SMAs) (Ix, Iy, Imax, Imin), which are proportional to bending rigidity about a specified axis, and the polar SMA (J), which is proportional to average bending rigidity, were calculated at section locations. Cross‐sectional shape (CSS) was assessed from Ix/Iy and Imax/Imin ratios. Juvenile and adult subsamples were compared.ResultsJuveniles and adults have significantly greater femoral J compared to humeral J. Mean interlimb proportions of J are not significantly different between the groups. There is an overall decreasing trend in diaphyseal circularity between the juvenile phase of development and adulthood, although significant differences are only found in the humerus.DiscussionJuvenile chimpanzee locomotion includes forelimb‐ and hindlimb‐biased behaviors. Juveniles and adults preferentially load their hindlimbs relative to their forelimbs. This may indicate similar locomotor behavior, although other explanations including a diversity of hindlimb‐biased locomotor behaviors in juveniles cannot be ruled out. Different ontogenetic trends in forelimb and hindlimb CSS are consistent with limb bone CSG reflecting functional adaptation, albeit the complex nature of bone functional adaptation requires cautious interpretations of skeletal functional morphology from biomechanical analyses.
Reference98 articles.
1. Locomotory stresses in the limb bones of two small mammals: the ground squirrel and chipmunk
2. Biomechanics of Mammalian Terrestrial Locomotion
3. Mechanical loading and bone growth in vivo;Biewener A. A.;Bone,1993
4. Burgess L. M.(2018).Ontogenetic changes in limb bone structural properties and locomotor behavior inPan [Unpublished doctoral dissertation]. Johns Hopkins University.