Trade-Offs in the Sensory Brain between Diurnal and Nocturnal Rodents.

IF 2.1 4区心理学 Q3 BEHAVIORAL SCIENCES

Brain Behavior and Evolution Pub Date : 2024-01-01 Epub Date: 2024-04-03 DOI:10.1159/000538090

Andrea Morrow, Laura Smale, Paul Douglas Meek, Barbara Lundrigan

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引用次数: 0

Abstract

Introduction: Transitions in temporal niche have occurred many times over the course of mammalian evolution. These are associated with changes in sensory stimuli available to animals, particularly with visual cues, because levels of light are so much higher during the day than at night. This relationship between temporal niche and available sensory stimuli elicits the expectation that evolutionary transitions between diurnal and nocturnal lifestyles will be accompanied by modifications of sensory systems that optimize the ability of animals to receive, process, and react to important stimuli in the environment.

Methods: This study examines the influence of temporal niche on investment in sensory brain tissue of 13 rodent species (five diurnal; eight nocturnal). Animals were euthanized and the brains immediately frozen on dry ice; olfactory bulbs were subsequently dissected and weighed, and the remaining brain was weighed, sectioned, and stained. Stereo Investigator was used to calculate volumes of four sensory regions that function in processing visual (lateral geniculate nucleus, superior colliculus) and auditory (medial geniculate nucleus, inferior colliculus) information. A phylogenetic framework was used to assess the influence of temporal niche on the relative sizes of these brain structures and of olfactory bulb weights.

Results: Compared to nocturnal species, diurnal species had larger visual regions, whereas nocturnal species had larger olfactory bulbs than their diurnal counterparts. Of the two auditory structures examined, one (medial geniculate nucleus) was larger in diurnal species, while the other (inferior colliculus) did not differ significantly with temporal niche.

Conclusion: Our results indicate a possible indirect association between temporal niche and auditory investment and suggest probable trade-offs of investment between olfactory and visual areas of the brain, with diurnal species investing more in processing visual information and nocturnal species investing more in processing olfactory information.

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昼行性啮齿动物和夜行性啮齿动物大脑感官的权衡。

简介在哺乳动物的进化过程中，时位的转换发生过很多次。这与动物可获得的感官刺激的变化有关，特别是视觉线索，因为白天的光照水平比夜晚高得多。时间生态位与可用感官刺激之间的这种关系使人们期望，昼夜生活方式之间的进化转变将伴随着感官系统的改变，从而优化动物接收、处理和对环境中重要刺激做出反应的能力：本研究考察了 13 种啮齿动物（5 种昼行性动物；8 种夜行性动物）的时间生态位对感官脑组织投资的影响。动物被处以安乐死，大脑立即冷冻在干冰上；随后解剖嗅球并称重，对剩余大脑进行称重、切片和染色。使用 Stereo Investigator 计算处理视觉（外侧膝状核、上丘）和听觉（内侧膝状核、下丘）信息的四个感觉区域的体积。我们利用系统发生学框架评估了时间生态位对这些大脑结构的相对大小和嗅球重量的影响：结果：与夜行性物种相比，昼行性物种的视觉区域更大，而夜行性物种的嗅球比昼行性物种更大。在所研究的两个听觉结构中，一个（内侧膝状核）在昼行物种中较大，而另一个（下丘）则与时间龛位没有显著差异：结论：我们的研究结果表明，时间生态位与听觉投资之间可能存在间接联系，并表明大脑的嗅觉和视觉区域之间可能存在投资权衡，昼行动物更多地投资于视觉信息的处理，而夜行动物更多地投资于嗅觉信息的处理。

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

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.