A Macaque Model for the Effects of Hybridization on Body Size

IF 1.7 2区生物学 Q1 ANTHROPOLOGY

American Journal of Biological Anthropology Pub Date : 2025-02-10 DOI:10.1002/ajpa.25062

Laura T. Buck, David C. Katz, Rebecca Rogers Ackermann, Leslea J. Hlusko, Sree Kanthaswamy, Timothy D. Weaver

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Abstract

Objectives

Genomics research has uncovered recurrent hybridization between hominin species, yet its morphological impact remains understudied. Non-human primate research has suggested a morphological signature of hybrid ancestry, which could be used to identify hybrids in the hominin fossil record. This pattern may include extreme size, heightened variation, and markers of developmental instability, but factors affecting these characteristics are poorly understood. Studies of non-mammalian taxa suggest that extreme morphology is more likely in early-generation hybrids and with a greater parental distance. To understand hybridization in hominins, therefore, we must use appropriate proxy taxa.

Materials and Methods

Here, we use Chinese × Indian Macaca mulatta hybrids with a comparable divergence time in generations to Homo sapiens/Neanderthals and wide variation in admixture. Measuring limb lengths, body length, and weight, we investigate the relationship between admixture and size/variation.

Results

Compared to previous work with more phylogenetically distant primate taxa and a focus on early generation hybrids, we found no evidence of a relationship between admixture and extreme large size, nor with increased size variation. Hybrids in our sample are relatively small but within the range of variation of the smaller parental taxon.

Conclusions

Our results suggest that hybridization between closely related taxa, such as Neanderthals and H. sapiens, may lead to more subtle morphological patterns than previously anticipated. It will be necessary, however, to better understand the factors governing primate hybrid morphology before we can produce robust inferences on how hybridization has affected hominin evolution.

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杂交对体型影响的猕猴模型

目的基因组学研究揭示了古人类物种之间的反复杂交，但其形态学影响仍未得到充分研究。非人类灵长类动物的研究表明了一种杂交祖先的形态学特征，这可以用来识别古人类化石记录中的杂交物种。这种模式可能包括极端的尺寸、高度的变异和发育不稳定的标志，但影响这些特征的因素知之甚少。对非哺乳动物分类群的研究表明，极端形态更可能出现在早期杂交后代中，亲代距离也更大。因此，为了理解古人类的杂交，我们必须使用合适的代理分类群。材料和方法在这里，我们使用了中国和印度的猕猴混血，它们的分化时间与智人/尼安德特人相当，并且混合的差异很大。通过测量四肢长度、体长和体重，我们研究了外加剂与体型/变异之间的关系。结果与以往对系统发育较远的灵长类类群和早期杂交类群的研究相比，我们没有发现任何证据表明混合与超大体型之间存在关系，也没有发现与体型变异增加有关的证据。我们样本中的杂种相对较小，但在较小亲本分类单元的变异范围内。我们的研究结果表明，在尼安德特人和智人等密切相关的分类群之间的杂交可能导致比先前预期的更微妙的形态模式。然而，在我们能够对杂交如何影响人类进化做出有力的推论之前，有必要更好地了解支配灵长类动物杂交形态的因素。

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