Biology – Quantitative Biology – Neurons and Cognition
Scientific paper
2007-09-27
Biology
Quantitative Biology
Neurons and Cognition
Revised version with new cites and ne title. 10 pages, 9 figures. Submitted to: Journal of Theoretical Biology
Scientific paper
The evolution of human language allowed the efficient propagation of nongenetic information, thus creating a new form of evolutionary change. Language development in children offers the opportunity of exploring the emergence of such complex communication system and provides a window to understanding the transition from protolanguage to language. Here we present the first analysis of the emergence of syntax in terms of complex networks. A previously unreported, sharp transition is shown to occur around two years of age from a (pre-syntactic) tree-like structure to a scale-free, small world syntax network. The nature of such transition supports the presence of an innate component pervading the emergence of full syntax. This observation is difficult to interpret in terms of any simple model of network growth, thus suggesting that some internal, perhaps innate component was at work. We explore this problem by using a minimal model that is able to capture several statistical traits. Our results provide evidence for adaptive traits, but it also indicates that some key features of syntax might actually correspond to non-adaptive phenomena.
Corominas-Murtra Bernat
Sole Ricard V.
Valverde Sergi
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