Yuma Tomizawa, Masato Nakatsukasa, Marcia S. Ponce de León, Christoph P. E. Zollikofer, Naoki Morimoto
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引用次数: 0
Abstract
Objectives
Metatarsal bones constitute a key functional unit of the foot in primates. While the form-function relationships of metatarsals have been extensively studied, particularly in relation to the loss of the grasping ability of the foot in humans in contrast to apes, the effect of phyletic history on the metatarsal morphology and its variability remains largely unknown.
Materials and Methods
Here, we evaluate how the strength of the phylogenetic signal varies from the first to the fifth metatarsal in humans, chimpanzees, gorillas, orangutans, gibbons, and Japanese macaques. We use computed tomography imaging and morphometric mapping to quantify the second moment of area around and along the metatarsal shaft and evaluate the strength of the phylogenetic signal with multivariate K-statistics.
Results
The shaft structure of the first metatarsal, but not the others, correlates well with the phylogeny of apes and humans.
Discussion
Given the importance of the first metatarsal for grasping and bipedal/quadrupedal locomotion, the strong phylogenetic but weak functional signal in its structure is unexpected. These findings suggest that the evolutionary diversification of hominoid locomotor behaviors, including human bipedality, is only partly reflected in form-function relationships of key skeletal elements, and that phylogenetic history acted as a major evolutionary constraint.
目的:跖骨是灵长类动物足部的一个重要功能单元。材料与方法:在此,我们评估了人类、黑猩猩、大猩猩、猩猩、长臂猿和日本猕猴从第一跖骨到第五跖骨的系统发育信号强度是如何变化的。我们使用计算机断层扫描成像和形态计量绘图来量化跖骨轴周围和沿跖骨轴的第二矩面积,并使用多元 K 统计法评估系统发生学信号的强度:第一跖骨的跖骨轴结构与类人猿和人类的系统发育密切相关,而其他跖骨的跖骨轴结构与系统发育无关:讨论:鉴于第一跖骨对抓握和两足/四足运动的重要性,其结构中的系统发育信号强而功能信号弱是出乎意料的。这些研究结果表明,同翅目运动行为(包括人类的双足运动)的进化多样性仅部分反映在关键骨骼元素的形态-功能关系中,系统发育历史是进化的主要制约因素。
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