Cellular Scaling Rules for Brains of the Galliform Birds (Aves, Galliformes) Compared to Those of Songbirds and Parrots: Distantly Related Avian Lineages Have Starkly Different Neuronal Cerebrotypes.

IF 1.8 4区心理学 Q3 BEHAVIORAL SCIENCES

Brain Behavior and Evolution Pub Date : 2025-01-01 Epub Date: 2025-03-28 DOI:10.1159/000545417

Martin Kocourek, Yicheng Zhang, Lucie Sandberg, Patrik Stehlík, Alexandra Polonyiová, Seweryn Olkowicz, Barbora Straková, Zuzana Pavelková, Tomáš Hájek, Tomáš Kušta, Radek K Lučan, Kristina Kverková, Pavel Němec, Pavel Němec

{"title":"Cellular Scaling Rules for Brains of the Galliform Birds (Aves, Galliformes) Compared to Those of Songbirds and Parrots: Distantly Related Avian Lineages Have Starkly Different Neuronal Cerebrotypes.","authors":"Martin Kocourek, Yicheng Zhang, Lucie Sandberg, Patrik Stehlík, Alexandra Polonyiová, Seweryn Olkowicz, Barbora Straková, Zuzana Pavelková, Tomáš Hájek, Tomáš Kušta, Radek K Lučan, Kristina Kverková, Pavel Němec, Pavel Němec","doi":"10.1159/000545417","DOIUrl":null,"url":null,"abstract":"Introduction: Songbirds, especially corvids, and parrots are remarkably intelligent. Their cognitive skills are on par with primates and their brains contain primate-like numbers of neurons concentrated in high densities in the telencephalon. Much less is known about cognition and neuron counts in more basal bird lineages. Here, we focus on brain cellular composition of galliform birds, which have small brains relative to body size and a proportionally small telencephalon and are often perceived as cognitively inferior to most other birds.Methods: We use the isotropic fractionator to assess quantitatively the numbers and distributions of neurons and nonneuronal cells in 15 species of galliform birds and compare their cellular scaling rules with those of songbirds, parrots, marsupials, insectivores, rodents, and primates.Results: On average, the brains of galliforms contain about half the number of neurons found in parrot and songbird brains of the same mass. Moreover, in contrast to these birds, galliforms resemble mammals in having small telencephalic and dominant cerebellar neuronal fractions. Consequently, galliforms have much smaller absolute numbers of neurons in their forebrains than equivalently sized songbirds and parrots, which may limit their cognitive abilities. However, galliforms have similar neuronal densities and neuron counts in the brain and forebrain as equally sized non-primate mammals. Therefore, it is not surprising that cognitive abilities of galliforms are on par with non-primate mammals in many domains.Conclusion: Comparisons performed in this study demonstrate that birds representing distantly related clades markedly differ in neuronal densities, neuron numbers, and the allocation of brain neurons to major brain divisions. In analogy with the concept of volumetric composition of the brain, known as the cerebrotype, we conclude that distantly related birds have distinct neuronal cerebrotypes. .","PeriodicalId":56328,"journal":{"name":"Brain Behavior and Evolution","volume":" ","pages":"183-199"},"PeriodicalIF":1.8000,"publicationDate":"2025-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC12080972/pdf/","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Brain Behavior and Evolution","FirstCategoryId":"102","ListUrlMain":"https://doi.org/10.1159/000545417","RegionNum":4,"RegionCategory":"心理学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2025/3/28 0:00:00","PubModel":"Epub","JCR":"Q3","JCRName":"BEHAVIORAL SCIENCES","Score":null,"Total":0}

引用次数: 0

Abstract

Introduction: Songbirds, especially corvids, and parrots are remarkably intelligent. Their cognitive skills are on par with primates and their brains contain primate-like numbers of neurons concentrated in high densities in the telencephalon. Much less is known about cognition and neuron counts in more basal bird lineages. Here, we focus on brain cellular composition of galliform birds, which have small brains relative to body size and a proportionally small telencephalon and are often perceived as cognitively inferior to most other birds.

Methods: We use the isotropic fractionator to assess quantitatively the numbers and distributions of neurons and nonneuronal cells in 15 species of galliform birds and compare their cellular scaling rules with those of songbirds, parrots, marsupials, insectivores, rodents, and primates.

Results: On average, the brains of galliforms contain about half the number of neurons found in parrot and songbird brains of the same mass. Moreover, in contrast to these birds, galliforms resemble mammals in having small telencephalic and dominant cerebellar neuronal fractions. Consequently, galliforms have much smaller absolute numbers of neurons in their forebrains than equivalently sized songbirds and parrots, which may limit their cognitive abilities. However, galliforms have similar neuronal densities and neuron counts in the brain and forebrain as equally sized non-primate mammals. Therefore, it is not surprising that cognitive abilities of galliforms are on par with non-primate mammals in many domains.

Conclusion: Comparisons performed in this study demonstrate that birds representing distantly related clades markedly differ in neuronal densities, neuron numbers, and the allocation of brain neurons to major brain divisions. In analogy with the concept of volumetric composition of the brain, known as the cerebrotype, we conclude that distantly related birds have distinct neuronal cerebrotypes.

查看原文本刊更多论文

与鸣禽和鹦鹉相比，鸡形类鸟类大脑的细胞缩放规则：远亲鸟类谱系具有明显不同的神经元脑类型。

鸣禽，尤其是鸦科鸟和鹦鹉非常聪明。它们的认知能力与灵长类动物相当，它们的大脑中含有与灵长类动物数量相似的神经元，这些神经元高密度地集中在端脑中。我们对更基础的鸟类谱系的认知和神经元数量知之甚少。在这里，我们将重点放在加利形鸟类的脑细胞组成上，它们的大脑相对于身体大小较小，端脑也相对较小，通常被认为在认知上不如大多数其他鸟类。方法：采用各向同性分数法定量分析了15种加利形鸟类的神经元和非神经元细胞的数量和分布，并与鸣禽、鹦鹉、有袋动物、食虫动物、啮齿动物和灵长类动物的细胞缩放规律进行了比较。结果：平均而言，在相同质量的情况下，镓形动物的大脑中含有的神经元数量约为鹦鹉和鸣禽大脑的一半。此外，与这些鸟类相比，翼形动物类似于哺乳动物，具有较小的端脑和占优势的小脑神经元部分。因此，与同等大小的鸣禽和鹦鹉相比，翼形动物前脑中神经元的绝对数量要少得多，这可能限制了它们的认知能力。然而，在大脑和前脑中的神经元密度和神经元数量与同等大小的非灵长类哺乳动物相似。因此，这并不奇怪，在许多领域，镓形动物的认知能力与非灵长类哺乳动物相当。结论：本研究的比较表明，亲缘关系较远的鸟类在神经元密度、神经元数量和脑神经元在主要脑分区的分配上存在显著差异。与脑容量组成的概念（即脑类型）类似，我们得出结论，近亲鸟类具有不同的神经元脑类型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Brain Behavior and Evolution 医学-行为科学

CiteScore

3.10

自引率

23.50%

发文量

审稿时长

>12 weeks

期刊介绍： ''Brain, Behavior and Evolution'' is a journal with a loyal following, high standards, and a unique profile as the main outlet for the continuing scientific discourse on nervous system evolution. The journal publishes comparative neurobiological studies that focus on nervous system structure, function, or development in vertebrates as well as invertebrates. Approaches range from the molecular over the anatomical and physiological to the behavioral. Despite this diversity, most papers published in ''Brain, Behavior and Evolution'' include an evolutionary angle, at least in the discussion, and focus on neural mechanisms or phenomena. Some purely behavioral research may be within the journal’s scope, but the suitability of such manuscripts will be assessed on a case-by-case basis. The journal also publishes review articles that provide critical overviews of current topics in evolutionary neurobiology.