gelada和baboon发声的不同声学特性及其对人类语言进化的影响。

IF 2.1 0 LANGUAGE & LINGUISTICS
Journal of Language Evolution Pub Date : 2017-01-01 Epub Date: 2017-06-26 DOI:10.1093/jole/lzx015
Morgan L Gustison, Thore J Bergman
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引用次数: 0

摘要

人类的语音具有许多复杂的频谱和时间特征,传统上认为这在其他灵长类动物的发声中是不存在的。最近对非人类灵长类动物发声能力的探索正在挑战这一观点。在这里,我们通过探索gelada(Theropithecus gelada)发声的光谱-时间特性来延续这一趋势。首先,我们对geladas、chacma狒狒和人类元音空间区域进行了跨物种比较。我们发现,成年雄性和雌性gelada呼出的呼噜声是狒狒共有的一种叫声,其共振峰轮廓与人类元音空间的重叠比狒狒的呼噜声更大。与狒狒的呼噜声相比,这些gelada呼噜声还包含更多的基频和共振峰频率调制。其次,我们将共振峰轮廓和呼出呼噜声的调制与gelada雄性产生的衍生叫声类型(狒狒不共享的叫声类型)进行了比较。这些衍生的叫声包含不同的共振峰轮廓,其中一个子集,尤其是摆动和发声的哈欠,比咕哝声更具调节性。第三,我们研究了摆动的节奏模式,这是一种之前显示的包含与3-8相匹配的周期的呼叫类型 Hz的语速。我们使用更大的数据集来表明,摆动节奏与语音节奏的重叠比以前想象的要多。我们还发现,周期持续时间的变化取决于生产模式;具体来说,呼出的摆动比吸入的摆动产生的速度慢。此外,摆动中周期持续时间的可变性与一种被称为“Menzerath定律”的语言学性质一致,即周期持续时间与摆动大小(即周期数)之间存在负相关。总之,我们的研究结果进一步证明,非人类灵长类动物在解剖学上能够产生调制的声音。我们的研究结果也支持和扩展了当前的语音进化假说,包括“神经假说”和“双峰语音节奏假说”。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Divergent acoustic properties of gelada and baboon vocalizations and their implications for the evolution of human speech.

Divergent acoustic properties of gelada and baboon vocalizations and their implications for the evolution of human speech.

Divergent acoustic properties of gelada and baboon vocalizations and their implications for the evolution of human speech.

Divergent acoustic properties of gelada and baboon vocalizations and their implications for the evolution of human speech.

Human speech has many complex spectral and temporal features traditionally thought to be absent in the vocalizations of other primates. Recent explorations of the vocal capabilities of non-human primates are challenging this view. Here, we continue this trend by exploring the spectro-temporal properties of gelada (Theropithecus gelada) vocalizations. First, we made cross-species comparisons of geladas, chacma baboons, and human vowel space area. We found that adult male and female gelada exhaled grunts-a call type shared with baboons-have formant profiles that overlap more with human vowel space than do baboon grunts. These gelada grunts also contained more modulation of fundamental and formant frequencies than did baboon grunts. Second, we compared formant profiles and modulation of exhaled grunts to the derived call types (those not shared with baboons) produced by gelada males. These derived calls contained divergent formant profiles, and a subset of them, notably wobbles and vocalized yawns, were more modulated than grunts. Third, we investigated the rhythmic patterns of wobbles, a call type shown previously to contain cycles that match the 3-8 Hz tempo of speech. We use a larger dataset to show that the wobble rhythm overlaps more with speech rhythm than previously thought. We also found that variation in cycle duration depends on the production modality; specifically, exhaled wobbles were produced at a slower tempo than inhaled wobbles. Moreover, the variability in cycle duration within wobbles aligns with a linguistic property known as 'Menzerath's law' in that there was a negative association between cycle duration and wobble size (i.e. the number of cycles). Taken together, our results add to growing evidence that non-human primates are anatomically capable of producing modulated sounds. Our results also support and expand on current hypotheses of speech evolution, including the 'neural hypothesis' and the 'bimodal speech rhythm hypothesis'.

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来源期刊
Journal of Language Evolution
Journal of Language Evolution Social Sciences-Linguistics and Language
CiteScore
4.50
自引率
7.70%
发文量
8
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