Working out the bipedal walking expenditure of energy based on foot morphology of different hominid genera: Implications for foot evolution

Abstract

Among the Hominidae family of primates, Homo is characterized by more economical bipedal walking. Over the course of evolution towards bipedalism, the foot becomes the only organ directly interacting with substrate and likely influence the bipedal walking economy. However, working out the energy expenditure in bipedal walking from the specific aspect of foot morphology is still challenging, which hinders the understanding of the evolution of both hominid feet and economical bipedal walking. Here we present a functional model to quantitatively assess bipedal walking expenditure of energy from hominid foot morphology. According to our results, the feet of Homo are most suited to economical bipedal walking among hominids. However, the genus whose feet possess second best ability for economical bipedal walking is not our closest relative Pan, but is Gorilla. Using phylogenetically informed morphometric analyses, we further infer the evolutionary changes of hominid foot morphology and investigate the corresponding variation of bipedal walking expenditure. Our results reveal the economical bipedal walking benefits from the morphological changes of human foot after descending from the last common ancestor of hominids. Conversely, the foot morphologies of great apes reflect selections for other locomotor modes, at cost of larger energy expenditure in bipedal walking.