Ecological divergence and calcaneal‐cuboid morphology in gorillas

Prang, Thomas C.; Tocheri, Matthew W.

doi:10.1002/ajpa.24658

Cited by 3 publications

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“…Calcaneal external morphology is quite variable among extant hominoids and is functionally correlated with known locomotor variation (Harper et al, 2021a, 2021b, 2022; Kidd, 1999; Latimer & Lovejoy, 1989; McNutt & DeSilva, 2020; Nozaki et al, 2021; Prang, 2015, 2016; Prang & Tocheri, 2024). For example, more arboreal non‐human hominoids have a cuboid facet that is relatively larger and has a deeper pivot region, two features that have been suggested to increase mobility at the calcaneocuboid joint during inversion and eversion (Gebo, 1992; Harper et al, 2021a, 2021b; Prang & Tocheri, 2024).…”

Section: Introductionmentioning

confidence: 99%

“…The hominid calcaneus (Figure 1), in particular, could be a valuable skeletal element to study given its multiple articulations with other bones, its role as a lever for the plantarflexor muscles, and its weight-bearing role during the stance phase of the gait cycle. Moreover, it has already been demonstrated that its external shape is correlated with different locomotor behaviors (e.g., Gebo, 1992;Harper et al, 2021aHarper et al, , 2021bHarper et al, , 2022Kidd, 1999;Latimer & Lovejoy, 1989;Levine et al, 2014;McNutt & DeSilva, 2020;Nozaki et al, 2021;Prang, 2015Prang, , 2016Prang & Tocheri, 2024;Schmitt & Larson, 1995;Zeininger et al, 2020).…”

mentioning

confidence: 99%

“…to increase mobility at the calcaneocuboid joint during inversion and eversion (Gebo, 1992;Harper et al, 2021aHarper et al, , 2021bPrang & Tocheri, 2024). More terrestrial hominoids (humans and nonhumans) have relatively wider and more robust calcaneal tubers that may be adaptations to higher hindlimb loads associated with terrestrial locomotion (e.g., Harper et al, 2021aHarper et al, , 2021bLatimer & Lovejoy, 1989;Prang, 2015;Schmitt & Hanna, 2004).…”

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confidence: 99%

“…Postcranial variation among gorilla taxa has been extensively studied over recent years (e.g., Fatica et al, 2019;Jabbour & Pearman, 2016;Ruff et al, 2022;Ruff, Burgess, Squyres, et al, 2018), with many studies focusing on external morphological variation in the foot and ankle (e.g., Dunn et al, 2014;Harper et al, 2021bHarper et al, , 2023Jabbour & Pearman, 2016;Knigge et al, 2015;Prang & Tocheri, 2024;Tocheri et al, 2011).…”

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Trabecular bone variation in the gorilla calcaneus

Harper,

Patel

2024

American Journal of Biological Anthropology

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ObjectivesCalcaneal external shape differs among nonhuman primates relative to locomotion. Such relationships between whole‐bone calcaneal trabecular structure and locomotion, however, have yet to be studied. Here we analyze calcaneal trabecular architecture in Gorilla gorilla gorilla, Gorilla beringei beringei, and G. b. graueri to investigate general trends and fine‐grained differences among gorilla taxa relative to locomotion.Materials and methodsCalcanei were micro‐CT scanned. A three‐dimensional geometric morphometric sliding semilandmark analysis was carried out and the final landmark configurations used to position 156 volumes of interest. Trabecular thickness (Tb.Th), trabecular spacing (Tb.Sp), and bone volume fraction (BV/TV) were calculated using the BoneJ plugin for ImageJ and MATLAB. Non‐parametric MANOVAs were run to test for significant differences among taxa in parameter raw values and z‐scores. Parameter distributions were visualized using color maps and summarized using principal components analysis.ResultsThere are no significant differences in raw BV/TV or Tb.Th among gorillas, however G. b. beringei significantly differs in z‐scores for both parameters (p = <0.0271). All three taxa exhibit relatively lower BV/TV and Tb.Th in the posterior half of the calcaneus. This gradation is exacerbated in G. b. beringei. G. b. graueri significantly differs from other taxa in Tb.Sp z‐scores (p < 0.001) indicating a different spacing distribution.DiscussionRelatively higher Tb.Th and BV/TV in the anterior calcaneus among gorillas likely reflects higher forces associated with body mass (transmitted through the subtalar joint) relative to forces transferred through the posterior calcaneus. The different Tb.Sp pattern in G. b. graueri may reflect proposed differences in foot positioning during locomotion.

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Section: Introductionmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

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Trabecular bone variation in the gorilla calcaneus

Harper,

Patel

2024

American Journal of Biological Anthropology

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“…Several of these papers combine Mary's lifelong pursuits of methods to quantify complex shape variation to improve understanding of the relationship between primate functional morphology and locomotor behavior, spanning the foot, leg, hand, vertebrae, and pelvis. Friesen et al (2024) examine variation in talar and medial cuneiform shape among chimpanzees and bonobos using 3D geometric morphometrics, while Prang and Tocheri (2024) explore variation in gorilla calcaneal‐cuboid morphology in relation to differences in ecology using biomechanically‐informed 3D measurements of the size and orientations of their articular surfaces and the calcaneal tuber. Two articles focus on covariation of morphology within the wrist and hand, also applying 3D geometric morphometrics: (1) Bardo et al (2024) examine the first carpometacarpal joint and (2) Vanhoof et al (2024) investigate distal ulnar and triquetrum shape.…”

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Mary Marzke, PhD: A pioneer and innovator in the study of the evolution of the human hand

Orr,

Kivell,

Tocheri

2024

American Journal of Biological Anthropology

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Comparing lateral plantar process trabecular structure to other regions of the human calcaneus

Koneru,

Harper

2024

The Anatomical Record

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Investigating skeletal adaptations to bipedalism informs our understanding of form–function relationships. The calcaneus is an important skeletal element to study because it is a weight‐bearing bone with a critical locomotor role. Although other calcaneal regions have been well studied, we lack a clear understanding of the functional role of the lateral plantar process (LPP). The LPP is a bony protuberance on the inferolateral portion of the calcaneus thought to aid the tuberosity in transmission of ground reaction forces during heel‐strike. Here, we analyze LPP internal trabecular structure relative to other calcaneal regions to investigate its potential functional affinities. Human calcanei (n = 20) were micro‐CT scanned, and weighted spherical harmonic analysis outputs were used to position 251 volumes of interest (VOI) within each bone. Trabecular thickness (Tb.Th), spacing (Tb.Sp), degree of anisotropy (DA), and bone volume fraction (BV/TV) were calculated for each VOI. Similarities in BV/TV and DA (p = 0.2741) between the LPP and inferior tuberosity support suggestions that the LPP is a weight‐bearing structure that may transmit forces in a similar direction. The LPP significantly differs from the inferior tuberosity in Tb.Th and Tb.Sp (p < 0.05). Relatively thinner, more closely spaced trabeculae in the LPP may serve to increase internal surface area to compensate for its relatively small size compared to the tuberosity. Significant differences in all parameters between LPP and joint articular surfaces indicate that trabecular morphology is differently adapted for the transmission of forces associated with body mass through joints.

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Ecological divergence and calcaneal‐cuboid morphology in gorillas

Cited by 3 publications

References 127 publications

Trabecular bone variation in the gorilla calcaneus

Trabecular bone variation in the gorilla calcaneus

Mary Marzke, PhD: A pioneer and innovator in the study of the evolution of the human hand

Comparing lateral plantar process trabecular structure to other regions of the human calcaneus

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