Stoessel Alexander, David Romain, Gunz Philipp, Schmidt Tobias, Spoor Fred, Hublin Jean-Jacques
Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, 04103 Leipzig, Germany;
Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, 04103 Leipzig, Germany.
Proc Natl Acad Sci U S A. 2016 Oct 11;113(41):11489-11494. doi: 10.1073/pnas.1605881113. Epub 2016 Sep 26.
The diminutive middle ear ossicles (malleus, incus, stapes) housed in the tympanic cavity of the temporal bone play an important role in audition. The few known ossicles of Neandertals are distinctly different from those of anatomically modern humans (AMHs), despite the close relationship between both human species. Although not mutually exclusive, these differences may affect hearing capacity or could reflect covariation with the surrounding temporal bone. Until now, detailed comparisons were hampered by the small sample of Neandertal ossicles and the unavailability of methods combining analyses of ossicles with surrounding structures. Here, we present an analysis of the largest sample of Neandertal ossicles to date, including many previously unknown specimens, covering a wide geographic and temporal range. Microcomputed tomography scans and 3D geometric morphometrics were used to quantify shape and functional properties of the ossicles and the tympanic cavity and make comparisons with recent and extinct AMHs as well as African apes. We find striking morphological differences between ossicles of AMHs and Neandertals. Ossicles of both Neandertals and AMHs appear derived compared with the inferred ancestral morphology, albeit in different ways. Brain size increase evolved separately in AMHs and Neandertals, leading to differences in the tympanic cavity and, consequently, the shape and spatial configuration of the ossicles. Despite these different evolutionary trajectories, functional properties of the middle ear of AMHs and Neandertals are largely similar. The relevance of these functionally equivalent solutions is likely to conserve a similar auditory sensitivity level inherited from their last common ancestor.
位于颞骨鼓室内的微小中耳听小骨(锤骨、砧骨、镫骨)在听觉中起着重要作用。尽管尼安德特人与解剖学意义上的现代人(AMH)关系密切,但已知的少数尼安德特人听小骨与现代人的听小骨明显不同。这些差异虽然并非相互排斥,但可能会影响听力,或者反映出与周围颞骨的协同变化。到目前为止,由于尼安德特人听小骨样本较少,且缺乏将听小骨与周围结构分析相结合的方法,详细的比较受到了阻碍。在这里,我们对迄今为止最大的尼安德特人听小骨样本进行了分析,包括许多以前未知的标本,涵盖了广泛的地理和时间范围。使用微计算机断层扫描和三维几何形态计量学来量化听小骨和鼓室的形状及功能特性,并与现代和已灭绝的AMH以及非洲猿进行比较。我们发现AMH和尼安德特人的听小骨在形态上存在显著差异。与推断的祖先形态相比,尼安德特人和AMH的听小骨都呈现出不同的衍生形态。AMH和尼安德特人的脑容量增加是分别进化的,这导致了鼓室的差异,进而导致听小骨的形状和空间配置不同。尽管进化轨迹不同,但AMH和尼安德特人中耳的功能特性在很大程度上是相似的。这些功能等效解决方案的相关性可能是为了保持从它们的最后一个共同祖先继承下来的相似听觉敏感度水平。