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Skeletal indicators of developmental changes in arboreality and locomotor maturation in extant apes and their relevance to hominin paleobiology

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Peer-reviewed

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Authors

Saers, Jaap PP 

Abstract

jats:secjats:titleIntroduction</jats:title>jats:pModern humans are the only fully terrestrial ape. All other apes are partially arboreal, particularly as infants and juveniles. Precocial locomotor development, high frequency of arboreal locomotion in early ontogeny, and increased terrestriality throughout development are ubiquitous amongst the hominines and likely represent the ancestral state. The role of climbing in hominin evolution has been debated for decades, but if hominins climbed regularly then subadults likely relied on it most frequently. Investigating the role of climbing throughout hominin evolution requires reliable developmentally plastic traits that are responsive to locomotor loading and can be identified in the fossil record. Chimpanzees and gorillas provide a natural experiment to examine the relationship between age-related variation locomotor activities and bone structure. Chimpanzees and gorillas are most arboreal during infancy and become more terrestrial throughout development. Gorillas are comparatively more terrestrial and transition to predominantly terrestrial locomotion at an earlier age. This paper has two main objectives. First, to examine if interspecific differences in the rate of locomotor development is reflected in bone structure. Second, to determine if ontogenetic reductions in the frequency of arboreal locomotion correspond to age-related variation in bone structure.</jats:p></jats:sec>jats:secjats:titleMethods</jats:title>jats:pThe humerus, tibia, calcaneus, and seventh cervical vertebrae of an ontogenetic series of gorillas and chimpanzees from the Powell Cotton Museum (n = 71) were uCT scanned. Trabecular, cortical, and total bone volume fraction (BV/TV) were calculated in developmentally homologous regions of interest.</jats:p></jats:sec>jats:secjats:titleResults</jats:title>jats:pBV/TV scales with positive allometry throughout ontogeny. The achievement of adult-like locomotor behaviour can be identified by a significant change in the slope of Total.BV/TV with age. Younger, more arboreal individuals have relatively greater upper limb Total.BV/TV relative to the neck and lower limb than older, more terrestrial individuals in gorillas and chimpanzees. More arboreal chimpanzees have relatively more Total.BV/TV in the upper limb relative to the lower limb and neck.</jats:p></jats:sec>jats:secjats:titleDiscussion</jats:title>jats:pThe correspondence between developmental trajectories of BV/TV and locomotor ontogeny in extant apes suggests that analyses of hominin skeletal ontogeny can provide new insights into the evolution of two characteristic human traits: our slow rate of maturation and the evolution of fully terrestrial bipedalism.</jats:p></jats:sec>

Description

Peer reviewed: True


Acknowledgements: I am grateful to Dr. Rachel Jennings of the Powell Cotton Museum for facilitating access and loans of the skeletal sample. I am also grateful to Prof. Jay Stock of Western University, CA, whose RCUK/BBSRC grant number BB/R01292X/1 funded the CT scanning of the skeletal sample. This project has received funding from the European Union’s Horizon 2021 research and innovation programme under the Marie Skłodowska Curie grant agreement number 101066276. This work used the Dutch national e-infrastructure with the support of the SURF Cooperative using grant no. EINF-5670.

Keywords

4102 Ecological Applications, 31 Biological Sciences, 3103 Ecology, 3104 Evolutionary Biology, 41 Environmental Sciences

Journal Title

Frontiers in Ecology and Evolution

Conference Name

Journal ISSN

2296-701X
2296-701X

Volume Title

11

Publisher

Frontiers Media SA