语法的演变:一个解释主义的视角。

Frontiers in evolutionary neuroscience Pub Date : 2011-12-23 eCollection Date: 2011-01-01 DOI:10.3389/fnevo.2011.00009
W Tecumseh Fitch
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引用次数: 66

摘要

语言的进化需要古人类谱系中许多独立机制的阐述,包括涉及信号、语义和句法的系统。关于句法演变的两种观点可以进行对比。“持续论”的观点在动物交流系统中使用的简单组合系统(如迭代和排序)中寻找复杂人类语法的进化根源。“灭绝论者”的观点假定功能的进化变化,因此今天用于语言交流的系统在早期的原始人中可能具有完全不同的功能。我认为,总的来说,大量的生物学证据支持灭绝论者的观点,在考虑语言进化时,必须认真对待这一观点。当应用于语法时,这表明今天语言中使用的核心计算组件最初可能具有非语言功能,如运动控制、非语言思维或空间推理。我概述了口语的三个具体的解释主义假设。这三种假设都假定前体回路的功能发生了变化,并将其转化为与今天的语言特别相关的神经回路或区域。假设1表明,有意发声控制的前驱机制,特别是对喉部的直接皮层控制,是由皮质-脊髓束支持的手动运动控制。第二种说法是,今天连接句法和词汇区域的弓形神经束,起源于支持声音模仿的皮质内连接。第三种解释是,布洛卡区(Broca’s area)的专门组成部分,特别是ba45,起源于非语言运动控制,特别是行动的分层规划。最后,我举例说明了同源性(通过灵长类动物研究)和趋同性(通常在鸟类中分析)对于测试这些进化假设的重要性。
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The evolution of syntax: an exaptationist perspective.

The evolution of language required elaboration of a number of independent mechanisms in the hominin lineage, including systems involved in signaling, semantics, and syntax. Two perspectives on the evolution of syntax can be contrasted. The "continuist" perspective seeks the evolutionary roots of complex human syntax in simpler combinatory systems used in animal communication systems, such as iteration and sequencing. The "exaptationist" perspective posits evolutionary change of function, so that systems today used for linguistic communication might previously have served quite different functions in earlier hominids. I argue that abundant biological evidence supports an exaptationist perspective, in general, and that it must be taken seriously when considering language evolution. When applied to syntax, this suggests that core computational components used today in language could have originally served non-linguistic functions such as motor control, non-verbal thought, or spatial reasoning. I outline three specific exaptationist hypotheses for spoken language. These three hypotheses each posit a change of functionality in a precursor circuit, and its transformation into a neural circuit or region specifically involved in language today. Hypothesis 1 suggests that the precursor mechanism for intentional vocal control, specifically direct cortical control over the larynx, was manual motor control subserved by the cortico-spinal tract. The second is that the arcuate fasciculus, which today connects syntactic and lexical regions, had its origin in intracortical connections subserving vocal imitation. The third is that the specialized components of Broca's area, specifically BA 45, had their origins in non-linguistic motor control, and specifically hierarchical planning of action. I conclude by illustrating the importance of both homology (studied via primates) and convergence (typically analyzed in birds) for testing such evolutionary hypotheses.

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