Abstract

Sensitivity to regularities plays a crucial role in the acquisition of various linguistic features from spoken language input. Artificial grammar learning paradigms explore pattern recognition abilities in a set of structured sequences (i.e., of syllables or letters). In the present study, we investigated the functional underpinnings of learning phonological regularities in auditorily presented syllable sequences. While previous neuroimaging studies either focused on functional differences between the processing of correct vs. incorrect sequences or between different levels of sequence complexity, here the focus is on the neural foundation of the actual learning success. During functional magnetic resonance imaging (fMRI), participants were exposed to a set of syllable sequences with an underlying phonological rule system, known to ensure performance differences between participants. We expected that successful learning and rule application would require phonological segmentation and phoneme comparison. As an outcome of four alternating learning and test fMRI sessions, participants split into successful learners and non-learners. Relative to non-learners, successful learners showed increased task-related activity in a fronto-parietal network of brain areas encompassing the left lateral premotor cortex as well as bilateral superior and inferior parietal cortices during both learning and rule application. These areas were previously associated with phonological segmentation, phoneme comparison, and verbal working memory. Based on these activity patterns and the phonological strategies for rule acquisition and application, we argue that successful learning and processing of complex phonological rules in our paradigm is mediated via a fronto-parietal network for phonological processes.

Highlights

  • Successful speech processing and language learning rests on efficient processing of sequential auditory information and establishing relationships between speech elements (Hasson and Tremblay, 2015)

  • We investigated the functional underpinnings of successful learning of a complex phonological rule in an Artificial grammar (AG) learning paradigm

  • We investigated the functional underpinnings of successful learning and application of complex phonological rules, implemented in an AG learning paradigm with auditory presented structured syllable sequences

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Summary

Introduction

Successful speech processing and language learning rests on efficient processing of sequential auditory information and establishing relationships between speech elements (Hasson and Tremblay, 2015). Artificial grammar (AG) learning paradigms provide a means to study sequence learning during language acquisition and its evolution both in human populations (children and adults) and in non-human species (e.g., primates or birds; Fitch and Friederici, 2012). One major advantage of AG learning paradigms relative to the study of natural language stimuli is that they allow for exploring the processing of rule-based regularities in a controlled way and unconfounded by semantic processes and prior knowledge (Fitch and Friederici, 2012). These paradigms usually include a learning phase and a test phase. AG learning paradigms were mainly used as a model for syntactical and phonological processing (Uddén, 2012)

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