Cerebral Activity in Female Baboons (Papio anubis) During the Perception of Conspecific and Heterospecific Agonistic Vocalizations: a Functional Near Infrared Spectroscopy Study

IF 2.1 Q2 PSYCHOLOGY
Coralie Debracque, Thibaud Gruber, Romain Lacoste, Adrien Meguerditchian, Didier Grandjean
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引用次数: 1

Abstract

Abstract

The “voice areas” in the superior temporal cortex have been identified in both humans and non-human primates as selective to conspecific vocalizations only (i.e., expressed by members of our own species), suggesting its old evolutionary roots across the primate lineage. With respect to non-human primate species, it remains unclear whether the listening of vocal emotions from conspecifics leads to similar or different cerebral activations when compared to heterospecific calls (i.e., expressed by another primate species) triggered by the same emotion. Using a neuroimaging technique rarely employed in monkeys so far, functional Near Infrared Spectroscopy, the present study investigated in three lightly anesthetized female baboons (Papio anubis), temporal cortex activities during exposure to agonistic vocalizations from conspecifics and from other primates (chimpanzees—Pan troglodytes), and energy matched white noises in order to control for this low-level acoustic feature. Permutation test analyses on the extracted OxyHemoglobin signal revealed great inter-individual differences on how conspecific and heterospecific vocal stimuli were processed in baboon brains with a cortical response recorded either in the right or the left temporal cortex. No difference was found between emotional vocalizations and their energy-matched white noises. Despite the phylogenetic gap between Homo sapiens and African monkeys, modern humans and baboons both showed a highly heterogeneous brain process for the perception of vocal and emotional stimuli. The results of this study do not exclude that old evolutionary mechanisms for vocal emotional processing may be shared and inherited from our common ancestor.

雌性狒狒(Papio anubis)在感受同特异性和异特异性激动性发声过程中的大脑活动:一项功能性近红外光谱研究
摘要在人类和非人类灵长类动物中,颞上皮层的“声音区域”都被确定为仅对同种发声(即由我们自己物种的成员表达)具有选择性,这表明其在灵长类谱系中的古老进化根源。关于非人类灵长类物种,与由相同情绪触发的异性叫声(即由另一灵长类物种表达的叫声)相比,听同种动物的声音情绪是否会导致相似或不同的大脑激活,目前尚不清楚。本研究使用了一种迄今为止很少在猴子身上使用的神经成像技术,即功能性近红外光谱,在三只轻度麻醉的雌性狒狒(Papio anubis)身上研究了暴露于同种和其他灵长类动物(黑猩猩——Pan troglodytes)的痛苦发声过程中的颞叶皮层活动,以及能量匹配的白噪声,以便控制这种低电平声学特征。对提取的氧合血红蛋白信号的突变测试分析显示,在狒狒大脑中处理同种和异源声音刺激的方式上,个体间存在巨大差异,右侧或左侧颞叶皮层记录了皮层反应。情感发声和能量匹配的白噪音之间没有差异。尽管智人和非洲猴子之间存在系统发育差距,但现代人类和狒狒在感知声音和情感刺激方面都表现出高度异质的大脑过程。这项研究的结果并不排除声音情绪处理的旧进化机制可能是从我们的共同祖先那里共享和继承的。
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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4.40
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