Abstract
The evolutionary origin of human language and its neurobiological foundations has long been the object of intense scientific debate. Although a number of theories have been proposed, one particularly contentious model suggests that human language evolved from a manual gestural communication system in a common ape-human ancestor. Consistent with a gestural origins theory are data indicating that chimpanzees intentionally and referentially communicate via manual gestures, and the production of manual gestures, in conjunction with vocalizations, activates the chimpanzee Broca’s area homologue – a region in the human brain that is critical for the planning and execution of language. However, it is not known if this activity observed in the chimpanzee Broca’s area is the result of the chimpanzees producing manual communicative gestures, communicative sounds, or both. This information is critical for evaluating the theory that human language evolved from a strictly manual gestural system. To this end, we used positron emission tomography (PET) to examine the neural metabolic activity in the chimpanzee brain. We collected PET data in 4 subjects, all of whom produced manual communicative gestures. However, 2 of these subjects also produced so-called attention-getting vocalizations directed towards a human experimenter. Interestingly, only the two subjects that produced these attention-getting sounds showed greater mean metabolic activity in the Broca’s area homologue as compared to a baseline scan. The two subjects that did not produce attention-getting sounds did not. These data contradict an exclusive “gestural origins” theory for they suggest that it is vocal signaling that selectively activates the Broca’s area homologue in chimpanzees. In other words, the activity observed in the Broca’s area homologue reflects the production of vocal signals by the chimpanzees, suggesting thast this critical human language region was involved in vocal signaling in the common ancestor of both modern humans and chimpanzees.
Highlights
The study of communicative behavior in extant nonhuman primates is critical for understanding the evolutionary origins of human language and the biological substrates that support these competencies
Notwithstanding, theories concerning the origin of human language and the neural substrates that support this capacity have proposed that, human spoken language is fundamentally different from other animal vocal communication systems
Paired comparisons of the mean metabolic activity at each voxel within the previously identified left inferior frontal gyrus (IFG) cluster indicated that the two subjects that produced communicative vocal signals in conjunction with their manual gestures (AG+) showed significantly greater activity in the communication production task (COM) condition when compared to resting state condition (RES) [S1 and S2; t(33) = 5.70, p,001, t(34) = 9.35, p,001, respectively]
Summary
The study of communicative behavior in extant nonhuman primates is critical for understanding the evolutionary origins of human language and the biological substrates that support these competencies. Chimpanzees, and other great apes, produce manual communicative gestures only when a human is present and visually oriented towards them [4,5,6,8,9,10,11]. In such situations, chimpanzees alternate their gaze between a referent (food) and a social agent while gesturing [12] and ‘repair’ these communicative attempts when they have failed [7]
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