Exploring the palaeoneurology of the extinct spiny rat Eumysops chapalmalensis (Hystricognathi: Echimyidae): a comparative phylogenetic analysis of brain size and shape

IF 3 2区生物学 Q1 ZOOLOGY

Zoological Journal of the Linnean Society Pub Date : 2025-03-05 DOI:10.1093/zoolinnean/zlaf005

J Ariel Fernández Villoldo, Diego H Verzi, A Itatí Olivares, Sergio F Dos Reis, Ricardo T Lopes, S Ivan Perez

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Abstract

This study examines the brain morphology of Pliocene specimens of the South American Echimyidae rodent Eumysops chapalmalensis through virtual endocasts and comparisons with extant members of the family. Shape variation is analysed through geometric morphometrics, and the relative sizes of the brain and its components are estimated using phylogenetic regression models. The influence of phylogeny and ecological variables on the brain variation is analysed through phylogenetic comparative analyses. Results indicate that Eumysops chapalmalensis exhibits low encephalization and a high spatial packing of its brain, suggesting the independence of these two measures of relative brain size. Brain shape of Eumysops chapalmalensis departs from the extant species in morphospaces evidencing a distinctive morphology characterized by a strong flexion, posterolateral expansion of the neocortex, and large petrosal lobules. The low phylogenetic signal observed in the brain shape of echimyids, coupled with the significant influence of ecological factors, suggests that adaptive pressures probably played a more influential role in shaping the distinctive brain morphology of Eumysops chapalmalensis. This unique morphology may be associated with the occupation of a niche not explored by extant echimyids—that of a species with high body mass, terrestrial to fossorial habits, and agile movements in open environments.

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已灭绝的刺鼠chapalmalensis的古神经学研究：脑大小和形状的比较系统发育分析

本研究通过虚拟模型和与该科现存成员的比较，研究了南美刺螨科啮齿动物上新世标本的脑形态。通过几何形态计量学分析形状变化，并使用系统发育回归模型估计大脑及其组成部分的相对大小。通过系统发育比较分析，分析了系统发育和生态变量对脑变异的影响。结果表明，查帕malensis表现出低脑化和高脑空间包装，表明这两种相对脑大小的测量是独立的。chapalmalensis的大脑形状在形态空间上与现存物种不同，其独特的形态特征是强弯曲、新皮层的后外侧扩张和大的岩小叶。echimyids在脑形态中观察到的低系统发育信号，加上生态因素的显著影响，表明适应压力可能在形成chaalmalensis独特的脑形态方面发挥了更大的作用。这种独特的形态可能与占据了现存刺螨未曾探索过的生态位有关——这是一种具有高体重、陆栖到穴居习性和在开阔环境中灵活运动的物种。

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来源期刊

Zoological Journal of the Linnean Society 生物-动物学

CiteScore

6.50

自引率

10.70%

发文量

116

审稿时长

6-12 weeks

期刊介绍： The Zoological Journal of the Linnean Society publishes papers on systematic and evolutionary zoology and comparative, functional and other studies where relevant to these areas. Studies of extinct as well as living animals are included. Reviews are also published; these may be invited by the Editorial Board, but uninvited reviews may also be considered. The Zoological Journal also has a wide circulation amongst zoologists and although narrowly specialized papers are not excluded, potential authors should bear that readership in mind.