Effects of speech periodicity and speech rate on auditory-motor coupling during speech comprehension
Sojeong Kwon, Christina Lubinus, Christian A. Kell, Anne Keitel, Johanna M. Rimmele

TL;DR
The study finds that natural, less periodic speech rhythms improve comprehension by enhancing brain coupling between auditory and motor areas.
Contribution
The paper introduces a novel analysis of how speech periodicity and rate independently affect auditory-motor coupling and comprehension.
Findings
Faster syllabic rates and lower periodicity are linked to stronger coupling between pSTG and motor areas.
Comprehension improves with lower periodicity and declines at faster speech rates.
Natural speech rhythms may optimize coupling and comprehension through a balance of auditory and motor processing.
Abstract
According to neural oscillatory accounts, periodicity at the syllabic scale enhances speech comprehension through theta brain rhythms. Natural speech, however, is not strictly periodic and stronger periodicity, such as under conditions of fast speech, may hinder comprehension. Using magnetoencephalography, we investigate how natural variation in syllabic-level periodicity affects comprehension and auditory-motor coupling in brain areas related to temporal speech processing. We model speech periodicity and rate independently. Theta-band phase coupling between the posterior superior temporal gyrus (pSTG) and speech motor areas is assessed using Gaussian-Copula Mutual Information (GCMI). We find that faster syllabic rates and lower periodicity are associated with stronger coupling between the pSTG and inferior precentral gyrus, but also inferior frontal gyrus and supplementary motor areas.…
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Taxonomy
TopicsNeuroscience and Music Perception · Neural dynamics and brain function · Neurobiology of Language and Bilingualism
