Brain structure volumes in the mole rat, Spalax ehrenbergi (Spalacidae, Rodentia) in comparison to the rat and subterrestrial insectivores.

Journal fur Hirnforschung Pub Date : 1997-01-01

H D Frahm, G Rehkämper, E Nevo

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Abstract

Natural blindness and a subterranean, digging mode of life demand peculiar adaptations of the central nervous system in the mole rat Spalax ehrenbergi, which are the focus of this quantitative investigation. Volumes of 25 brain structures in Spalax were evaluated allometrically, using the least encephalized mammalian species, the Madagassian hedgehog-like tenrecs (Tenrecinae) as a reference base, and their sizes compared with those of the rat (as a more generalized representative of rodents) and of some subterranean Insectivora. The allometric approach reveals that Spalax has a larger brain than tenrecs and the rat. Within the brain, the neocortex and diencephalon are well developed, an observation also made in other mammalian species with a relatively high encephalization. An unique feature in Spalax is the enlargement of motor structures of the brain, such as the cerebellum (and cerebellar nuclei), and the striatum. Most conspicuous is the large size of the nucleus motorius nervi trigemini, reflecting the importance of masticatory muscles for the special digging technique, which demand an intense use of the teeth for loosening the soil.

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与大鼠和地下食虫动物相比，鼹鼠的脑结构体积。

天然失明和在地下挖掘的生活方式需要鼹鼠中枢神经系统的特殊适应，这是这次定量研究的重点。以脑功能最少的哺乳动物——马达加斯加刺猬样的触虫(触虫科)为参照，对Spalax的25个脑结构的体积进行了异速测量，并将它们的体积与大鼠(作为啮齿动物的更普遍的代表)和一些地下食虫目动物的体积进行了比较。异速测量方法显示，斯帕拉克斯的大脑比田鼠和田鼠都大。在大脑内部，新皮层和间脑发育良好，这在其他脑化程度较高的哺乳动物物种中也有观察到。Spalax的一个独特特征是大脑运动结构的扩大，如小脑(和小脑核)和纹状体。最明显的是三叉神经运动核的大尺寸，这反映了咀嚼肌对特殊挖掘技术的重要性，这需要强烈使用牙齿来松动土壤。

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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Journal fur Hirnforschung

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