形态测量学与类人猿系统发育:支持黑猩猩 - 人类进化枝以及大猩猩亚种间的分化
Morphometrics and hominoid phylogeny: Support for a chimpanzee-human clade and differentiation among great ape subspecies.
作者信息
Lockwood Charles A, Kimbel William H, Lynch John M
机构信息
Institute of Human Origins, Arizona State University, Tempe, AZ 85287, USA.
出版信息
Proc Natl Acad Sci U S A. 2004 Mar 30;101(13):4356-60. doi: 10.1073/pnas.0306235101. Epub 2004 Mar 22.
Abstract
Taxonomic and phylogenetic analyses of great apes and humans have identified two potential areas of conflict between molecular and morphological data: phylogenetic relationships among living species and differentiation of great ape subspecies. Here we address these problems by using morphometric data. Three-dimensional landmark data from the hominoid temporal bone effectively quantify the shape of a complex element of the skull. Phylogenetic analysis using distance-based methods corroborates the molecular consensus on African ape and human phylogeny, strongly supporting a Pan-Homo clade. Phenetic differentiation of great ape subspecies is pronounced, as suggested previously by mitochondrial DNA and some morphological studies. These results show that the hominoid temporal bone contains a strong phylogenetic signal and reveal the potential for geometric morphometric analysis to shed light on phylogenetic relationships.
摘要
对大猩猩和人类的分类学及系统发育分析已经确定了分子数据与形态学数据之间两个潜在的冲突领域
现存物种之间的系统发育关系以及大猩猩亚种的分化。在这里,我们通过使用形态测量数据来解决这些问题。来自类人猿颞骨的三维地标数据有效地量化了颅骨复杂部位的形状。使用基于距离的方法进行的系统发育分析证实了关于非洲猿和人类系统发育的分子共识,有力地支持了一个黑猩猩 - 人类进化枝。正如线粒体DNA和一些形态学研究之前所表明的那样,大猩猩亚种的表型分化很明显。这些结果表明,类人猿颞骨包含强烈的系统发育信号,并揭示了几何形态测量分析在阐明系统发育关系方面的潜力。
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