Prosodic pitch processing is represented in delta‐band EEG and is dissociable from the cortical tracking of other acoustic and phonetic features

Speech is central to communication among humans. Meaning is largely conveyed by the selection of linguistic units such as words, phrases and sentences. However, prosody, that is the variation of acoustic cues that tie linguistic segments together, adds another layer of meaning. There are various fea...

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Bibliographic Details
Published in:The European journal of neuroscience 2019-12, Vol.50 (11), p.3831-3842
Main Authors: Teoh, Emily S., Cappelloni, Madeline S., Lalor, Edmund C.
Format: Article
Language:English
Subjects:
Acoustic phonetics
Acoustics
Auditory stimuli
Cortex
EEG
Frequency
Functional magnetic resonance imaging
Harmonics
Hearing aids
Intonation
Linguistic units
Linguistics
Phonetic features
Phonetics
Pitch
Prosody
Speech
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Summary:Speech is central to communication among humans. Meaning is largely conveyed by the selection of linguistic units such as words, phrases and sentences. However, prosody, that is the variation of acoustic cues that tie linguistic segments together, adds another layer of meaning. There are various features underlying prosody, one of the most important being pitch and how it is modulated. Recent fMRI and ECoG studies have suggested that there are cortical regions for pitch which respond primarily to resolved harmonics and that high‐gamma cortical activity encodes intonation as represented by relative pitch. Importantly, this latter result was shown to be independent of the cortical tracking of the acoustic energy of speech, a commonly used measure. Here, we investigate whether we can isolate low‐frequency EEG indices of pitch processing of continuous narrative speech from those reflecting the tracking of other acoustic and phonetic features. Harmonic resolvability was found to contain unique predictive power in delta and theta phase, but it was highly correlated with the envelope and tracked even when stimuli were pitch‐impoverished. As such, we are circumspect about whether its contribution is truly pitch‐specific. Crucially however, we found a unique contribution of relative pitch to EEG delta‐phase prediction, and this tracking was absent when subjects listened to pitch‐impoverished stimuli. This finding suggests the possibility of a separate processing stream for prosody that might operate in parallel to acoustic–linguistic processing. Furthermore, it provides a novel neural index that could be useful for testing prosodic encoding in populations with speech processing deficits and for improving cognitively controlled hearing aids. Prosody is an important aspect of speech that adds another layer of meaning to words. Here, we investigated the encoding of pitch, the modulation of which underlies various prosodic phenomena, during listening to continuous narrative speech in ongoing scalp‐recorded electroencephalography (EEG). A unique contribution of relative pitch (frel) to EEG delta‐phase prediction was found, and crucially, this tracking was absent when subjects listened to pitch‐impoverished stimuli.
ISSN:0953-816X
1460-9568
DOI:10.1111/ejn.14510