Interpreting the Role of Climbing in Primate Locomotor Evolution: Are the Biomechanics of Climbing Influenced by Habitual Substrate Use and Anatomy?
Vertical climbing is widely accepted to have played an important role in the origins of both primate locomotion and of human bipedalism. Yet, only a few researchers have compared climbing mechanics in quadrupedal primates that vary in their degree of arboreality. It is assumed that primates using vertical climbing with a relatively high frequency will have morphological and behavioral specializations that facilitate efficient climbing mechanics. We test this assumption by examining whether time spent habitually engaged in climbing influences locomotor parameters such as footfall sequence, peak forces, and joint excursions during vertical climbing. Previous studies have shown that during climbing, the pronograde and semiterrestrial Macaca fuscata differs in these parameters compared to the more arboreal and highly specialized, antipronograde Ateles geoffroyi. Here, we examine whether a fully arboreal, quadrupedal primate that does not regularly arm-swing will exhibit gait and force distribution patterns intermediate between those of Macaca fuscata and Ateles geoffroyi. We collected footfall sequence, limb peak vertical forces, and 3D hindlimb excursion data for Macaca fascicularis during climbing on a stationary pole instrumented with a force transducer. Results show that footfall sequences are similar between macaque species, whereas peak force distributions and hindlimb excursions for Macaca fascicularis are intermediate between values reported for M. fuscata and Ateles geoffroyi. These results support the notion that time spent climbing is reflected in climbing mechanics, even though morphology may not provide for efficient mechanics, and highlight the important role of arboreal locomotor activity in determining the pathways of primate locomotor evolution. © 2010 Springer Science+Business Media, LLC.
Volume / Issue
Start / End Page
International Standard Serial Number (ISSN)
Digital Object Identifier (DOI)