Abstract

Whether non-human animals have an ability to learn and process center embedding, a core property of human language syntax, is still debated. Artificial-grammar learning (AGL) has been used to compare humans and animals in the learning of center embedding. However, up until now, human participants have only included adults, and data on children, who are the key players of natural language acquisition, are lacking. We created a novel game-like experimental paradigm combining the go/no-go procedure often used in animal research with the stepwise learning methods found effective in human adults’ center-embedding learning. Here we report that some children succeeded in learning a semantics-free artificial grammar with center embedding (A2B2 grammar) in the auditory modality. Although their success rate was lower than adults’, the successful children looked as efficient learners as adults. Where children struggled, their memory capacity seemed to have limited their AGL performance.

Highlights

  • Language is one of the cognitive abilities that set humans and other animals apart

  • We used a minimal A2B2 grammar to see if human children aged 5 to 12, as well as adults, could learn a semantics-free artificial grammar with one level of center embedding, in the auditory domain

  • Our data are consistent with the view that human children have a latent ability to learn and process center embedding without the aid of semantics, at least up to one level of embedding

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Summary

Introduction

Language is one of the cognitive abilities that set humans and other animals apart. Theoretical inquiry into the nature of human language naturally has some biological significance (Jenkins 2000). Recent experimental studies show an even stronger flavor of biological make-up than previous theoretical linguistic studies, by directly comparing humans and animals or by studying animals’ language learning ability Received: 23 August 2016 Accepted: 6 May 2020 Published: 19 August 2020.

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