Reliable classification of intentional cranial vault modification and nonsynostotic deformational plagiocephaly using 3D geometric morphometrics.

IF 0.7 4区 社会学 Q3 ANTHROPOLOGY Homo-Journal of Comparative Human Biology Pub Date : 2021-06-25 DOI:10.1127/homo/2021/1339
Valda Gail Black, Danielle Shawn Kurin
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Abstract

The style and degree of cranial vault modification (CVM) can have a significant impact on the reliability of assigning crania into operational categories and correlates. These issues can, in turn, influence the interpretation of cultural practices in the archaeological record. If we intend to deploy head shape as a meaningful unit of analysis to address issues of anthropological significance, we need a reliable way to demarcate discrete categories. Here we employ 3D geometric morphometrics to study head shape variation and improve classification accuracy. The present study rendered 3D models of 52 crania (8 unmodified, 44 modified annular) affiliated with the prehispanic Chanka Culture (AD 1000-1400) of south-central Peru. A combination of landmarks and semi-landmarks captured the shape and curves of sampled crania. Principal components analysis (PCA) revealed clusters of shape categories, and agglomerative hierarchical cluster analysis quantified the spectrum of variation. Our methods found four categories of circumferential head shape: annular erect, annular oblique, unmodified, and a new operational category termed slight. This last category was most prone to misclassification through gross inspection. We argue that differences in head shape are due to diverse modes of babywearing and childcare in the late prehistoric Andes. This study provides 3D geometric morphometric techniques that can help alleviate some of the classification errors that have long confounded practicing bioarchaeologists.

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利用三维几何形态计量学对有意颅拱顶改变和非融合变形斜头畸形进行可靠分类。
颅拱顶修复(CVM)的方式和程度对将颅骨划分为手术类别和相关类别的可靠性有重要影响。这些问题反过来又会影响考古记录中对文化习俗的解释。如果我们打算将头部形状作为一个有意义的分析单位来解决人类学意义问题,我们需要一种可靠的方法来划分离散的类别。本文采用三维几何形态计量学来研究头部形状变化,提高分类精度。本研究绘制了秘鲁中南部的前西班牙Chanka文化(公元1000-1400年)的52个颅骨的3D模型(8个未修改,44个修改环形)。标志和半标志的组合捕获了采样颅骨的形状和曲线。主成分分析(PCA)揭示了形状类别的聚类,聚类层次聚类分析量化了变化谱。我们的方法发现四个类别的圆周头形状:环形直立,环形斜,未修改,和一个新的操作类别称为轻微。最后这一类是最容易通过粗略检查的错误分类。我们认为,头部形状的差异是由于史前安第斯山脉晚期不同的婴儿穿着和育儿模式。这项研究提供了3D几何形态测量技术,可以帮助减轻一些分类错误,长期困扰实践生物考古学家。
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