Artículo de revista
From imitation to meaning: circuit plasticity and the acquisition of a conventionalized semantics
Fecha
2014Registro en:
Frontiers in Human Neuroscience August 2014 | Volume 8 | Article 605
DOI: 10.3389/fnhum.2014.00605
Autor
García Verdugo, Ricardo Rogelio
Zamorano, Francisco
Aboitiz, Francisco
Institución
Resumen
The capacity for language is arguably the most remarkable innovation of the human
brain. A relatively recent interpretation prescribes that part of the language-related circuits
were co-opted from circuitry involved in hand control—the mirror neuron system (MNS),
involved both in the perception and in the execution of voluntary grasping actions. A less
radical view is that in early humans, communication was opportunistic and multimodal,
using signs, vocalizations or whatever means available to transmit social information.
However, one point that is not yet clear under either perspective is how learned
communication acquired a semantic property thereby allowing us to name objects and
eventually describe our surrounding environment. Here we suggest a scenario involving
both manual gestures and learned vocalizations that led to the development of a primitive
form of conventionalized reference. This proposal is based on comparative evidence
gathered from other species and on neurolinguistic evidence in humans, which points
to a crucial role for vocal learning in the early development of language. Firstly, the
capacity to direct the attention of others to a common object may have been crucial
for developing a consensual referential system. Pointing, which is a ritualized grasping
gesture, may have been crucial to this end. Vocalizations also served to generate joint
attention among conversants, especially when combined with gaze direction. Another
contributing element was the development of pantomimic actions resembling events or
animals. In conjunction with this mimicry, the development of plastic neural circuits that
support complex, learned vocalizations was probably a significant factor in the evolution
of conventionalized semantics in our species. Thus, vocal imitations of sounds, as in
onomatopoeias (words whose sound resembles their meaning), are possibly supported
by mirror system circuits, and may have been relevant in the acquisition of early meanings.