von Cramon-Taubadel Noreen, Schroeder Lauren
Department of Anthropology, Buffalo Human Evolutionary Morphology Lab, University at Buffalo, Buffalo, NY, 14261.
Am J Phys Anthropol. 2016 Oct;161(2):355-66. doi: 10.1002/ajpa.23037. Epub 2016 Jun 30.
Estimation of the variance-covariance (V/CV) structure of fragmentary bioarchaeological populations requires the use of proxy extant V/CV parameters. However, it is currently unclear whether extant human populations exhibit equivalent V/CV structures.
Random skewers (RS) and hierarchical analyses of common principal components (CPC) were applied to a modern human cranial dataset. Cranial V/CV similarity was assessed globally for samples of individual populations (jackknifed method) and for pairwise population sample contrasts. The results were examined in light of potential explanatory factors for covariance difference, such as geographic region, among-group distance, and sample size.
RS analyses showed that population samples exhibited highly correlated multivariate responses to selection, and that differences in RS results were primarily a consequence of differences in sample size. The CPC method yielded mixed results, depending upon the statistical criterion used to evaluate the hierarchy. The hypothesis-testing (step-up) approach was deemed problematic due to sensitivity to low statistical power and elevated Type I errors. In contrast, the model-fitting (lowest AIC) approach suggested that V/CV matrices were proportional and/or shared a large number of CPCs. Pairwise population sample CPC results were correlated with cranial distance, suggesting that population history explains some of the variability in V/CV structure among groups.
The results indicate that patterns of covariance in human craniometric samples are broadly similar but not identical. These findings have important implications for choosing extant covariance matrices to use as proxy V/CV parameters in evolutionary analyses of past populations.
估算残缺生物考古群体的方差 - 协方差(V/CV)结构需要使用现存的代理V/CV参数。然而,目前尚不清楚现存人类群体是否表现出等效的V/CV结构。
将随机串分析(RS)和共同主成分分层分析(CPC)应用于现代人类颅骨数据集。对个体群体样本(刀切法)和成对群体样本对比进行全球颅骨V/CV相似性评估。根据协方差差异的潜在解释因素,如地理区域、组间距离和样本量,对结果进行了检验。
RS分析表明,群体样本对选择表现出高度相关的多变量反应,并且RS结果的差异主要是样本量差异的结果。CPC方法产生了混合结果,这取决于用于评估层次结构的统计标准。假设检验(逐步增加)方法因对低统计功效和I型错误增加敏感而被认为存在问题。相比之下,模型拟合(最低AIC)方法表明V/CV矩阵是成比例的和/或共享大量的CPC。成对群体样本的CPC结果与颅骨距离相关,表明群体历史解释了群体间V/CV结构的一些变异性。
结果表明,人类颅骨测量样本中的协方差模式大致相似但不完全相同。这些发现对于选择现存协方差矩阵作为过去群体进化分析中的代理V/CV参数具有重要意义。
