Size Disparity in Putative Primate Adaptive Radiations and Other Mammalian Clades

IF 2 2区生物学 Q1 ANTHROPOLOGY

American Journal of Biological Anthropology Pub Date : 2026-04-13 DOI:10.1002/ajpa.70250

Jeremiah E. Scott

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Abstract

Introduction

Adaptive radiation is commonly viewed as the rapid production of phenotypic disparity and taxonomic diversity. Among primates, two clades have been identified as potential adaptive radiations: the lemurs of Madagascar and the platyrrhines of the Americas. This study examines these clades for one of the proposed signals of adaptive radiation: exceptional disparity in an ecologically important trait.

Materials and Methods

I sliced a time-scaled molecular phylogeny of extant and recently extinct mammals at the Eocene–Oligocene and mid-Oligocene boundaries, creating samples of clades that are comparable in age to or younger than Lemuriformes and Platyrrhini. For each clade, phenotypic disparity was quantified as the variance of species means for body mass. Differences in disparity attributable to clade age were controlled using phylogenetic regression.

Results

Both primate clades have high age-adjusted disparity: lemuriforms are among the most size-disparate, ranking in the 95th percentile among clades originating after the Eocene–Oligocene boundary; platyrrhines are in the 84th percentile for clades originating after the mid-Oligocene boundary. None of the high-disparity clades in the samples are outliers, and the distributions of disparity are neither positively skewed nor bimodal.

Conclusions

If adaptive radiation has influenced size evolution in mammals, the effect is not apparent in the distributions of size disparity. Without outliers, positive skew, or bimodality, there are no criteria for identifying exceptional clades. The magnitudes of disparity found in lemuriforms and platyrrhines can be interpreted as consistent with adaptive radiation, but size disparity does not provide decisive support for recognizing them as such.

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假定的灵长类动物适应性辐射和其他哺乳动物分支的尺寸差异

适应性辐射通常被认为是表型差异和分类多样性的快速产生。在灵长类动物中，有两个分支已被确定为潜在的适应性辐射：马达加斯加的狐猴和美洲的长颈犀牛。这项研究考察了这些进化支的适应性辐射的一个被提出的信号：在一个重要的生态特征上的特殊差异。我在始新世-渐新世和中渐新世边界对现存和最近灭绝的哺乳动物进行了时间尺度的分子系统发育切片，创造了与狐形目和Platyrrhini在年龄上相当或更年轻的分支样本。对于每个进化支，表型差异被量化为物种平均体重的方差。利用系统发育回归控制了由枝龄引起的差异。结果两种灵长类进化分支均具有较高的年龄调整差异：狐形是体型差异最大的进化分支之一，在始新世-渐新世界线之后起源的进化分支中排名第95百分位；在中渐新世界线之后形成的进化支中，平颈龙在第84百分位。样本中没有一个高差异分支是异常值，差异分布既不是正偏斜也不是双峰分布。结论虽然适应性辐射确实影响了哺乳动物的体型进化，但这种影响在体型差异分布上并不明显。没有异常值、正偏态或双峰性，就没有识别异常进化支的标准。在狐形目动物和扁形目动物中发现的差异大小可以解释为与适应性辐射一致，但尺寸差异并不能为识别它们提供决定性的支持。

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