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鸟类和人类中用于发声学习的神经系统:概述

Neural systems for vocal learning in birds and humans: a synopsis.

作者信息

Jarvis Erich D

机构信息

Duke University Medical Center, Durham, NC 27710, USA e-mail:

出版信息

J Ornithol. 2007 Dec 1;148(1):35-44. doi: 10.1007/s10336-007-0243-0.

Abstract

I present here a synopsis on a hypothesis that I derived on the similarities and differences of vocal learning systems in vocal learning birds for learned song and in humans for spoken language. This hypothesis states that vocal learning birds-songbirds, parrots, and hummingbirds-and humans have comparable specialized forebrain regions that are not found in their close vocal non-learning relatives. In vocal learning birds, these forebrain regions appear to be divided into two sub-pathways, a vocal motor pathway mainly used to produce learned vocalizations and a pallial-basal-ganglia-thalamic loop mainly used to learn and modify the vocalizations. I propose that humans have analogous forebrain pathways within and adjacent to the motor and pre-motor cortices, respectively, used to produce and learn speech. Recent advances have supported the existence of the seven cerebral vocal nuclei in the vocal learning birds and the proposed brain regions in humans. The results in birds suggest that the reason why the forebrain regions are similar across distantly related vocal learners is that the vocal pathways may have evolved out of a pre-existing motor pathway that predates the ancient split from the common ancestor of birds and mammals. Although this hypothesis will require the development of novel technologies to be fully tested, the existing evidence suggest that there are strong genetic constraints on how vocal learning neural systems can evolve.

摘要

我在此概述一个假设,该假设源于我对鸣禽(用于学习鸣叫)和人类(用于口语)的发声学习系统的异同之处的研究。这个假设表明,发声学习的鸟类——鸣禽、鹦鹉和蜂鸟——以及人类具有可比较的特化前脑区域,而这些区域在它们关系密切的非发声学习亲属中并不存在。在发声学习的鸟类中,这些前脑区域似乎分为两个子通路,一个是主要用于产生习得发声的发声运动通路,另一个是主要用于学习和修改发声的脑皮质-基底神经节-丘脑环路。我提出,人类在运动皮质和运动前皮质内及相邻区域分别具有类似的前脑通路,用于产生和学习言语。最近的进展支持了发声学习鸟类中七个脑发声核以及人类中所提出的脑区的存在。鸟类的研究结果表明,在亲缘关系较远的发声学习者中前脑区域相似的原因可能是,发声通路可能是从早于鸟类和哺乳动物共同祖先古老分化的已有运动通路演化而来的。尽管这个假设需要开发新技术才能得到充分验证,但现有证据表明,发声学习神经系统的演化存在强大的遗传限制。

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