Technical Note: Using Machine Learning to Predict Locomotor Behavior in Great Apes and Humans From Femur Metaphyseal Shape

IF 1.7 2区生物学 Q1 ANTHROPOLOGY

American Journal of Biological Anthropology Pub Date : 2025-06-03 DOI:10.1002/ajpa.70066

Peter A. Stamos, Abhijit J. Chaudhari, Mark N. Grote, Timothy D. Weaver

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引用次数: 0

Abstract

Objectives

The morphology of the hominoid distal femoral metaphyseal surface has been demonstrated to reflect locomotor behavior throughout ontogeny. Here, we quantify metaphyseal surface morphology to evaluate its predictive relationship to locomotor behavioral modes in hominoids.

Materials and Methods

We collected three-dimensional (3D) surface laser scans of the femora of 177 human and great ape individuals representing all subadult stages of development. We used the landmark-free Global Point Signature (GPS) method to quantify the shape of the morphologically complex but amorphous metaphyseal surface. We then analyzed the GPS quantifications of shape using support vector machines (SVMs), a machine learning technique, to evaluate the predictive relationships between metaphyseal surface morphology and locomotor behavior in hominoids.

Results

We found that metaphyseal surface morphology is a strong predictor of locomotor behavior in hominoids. Our SVM, which relates nonambulation, bipedal walking, knuckle-walking, and climbing behavior with metaphyseal surface morphology, exhibits ~84% out-of-sample predictive accuracy.

Conclusions

Our quantitative analyses confirm what has previously been qualitatively described—the metaphyseal surface of the distal femur is highly predictive of the locomotor behavior performed by hominoids during different stages of their lives. These results suggest that this region of the skeleton is suitable for reconstructing the locomotor behavior of extinct hominoid taxa.

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技术说明：利用机器学习从股骨干骺端形状预测类人猿和人类的运动行为

目的研究表明，类人猿股骨远端干骺端表面的形态反映了整个个体发育过程中的运动行为。在这里，我们量化干骺端表面形态来评估其与类人猿运动行为模式的预测关系。材料和方法我们收集了177个人类和类人猿个体的股骨三维（3D）表面激光扫描，这些个体代表了所有亚成人发育阶段。我们使用无地标的全球点签名（GPS）方法来量化形态学复杂但无定形的干骺端表面的形状。然后，我们使用支持向量机（svm）（一种机器学习技术）分析了形状的GPS量化，以评估类人猿干骺端表面形态与运动行为之间的预测关系。结果我们发现干骺端表面形态是类人猿运动行为的一个强有力的预测指标。我们的支持向量机将非行走、双足行走、指关节行走和攀爬行为与干骺端表面形态联系起来，显示出约84%的样本外预测准确率。我们的定量分析证实了之前的定性描述——股骨远端干骺端表面高度预测了类人猿在其生命的不同阶段的运动行为。这些结果表明，这一骨骼区域适合用于重建已灭绝的类人猿类群的运动行为。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

American Journal of Biological Anthropology

CiteScore

4.80

自引率

0.00%

发文量