Different ERP profiles for learning rules over consonants and vowels

Different ERP profiles for learning rules over consonants and vowels

The Consonant-Vowel hypothesis suggests that consonants and vowels tend to be used differently during language processing. In this study we explored whether these functional differences trigger different neural responses in a rule learning task. We recorded ERPs while nonsense words were presented i...

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Bibliographic Details
Published in:Neuropsychologia 2017-03, Vol.97, p.104-111
Main Authors: Monte-Ordoño, Júlia, Toro, Juan M.
Format: Article
Language:eng
Subjects:
Adult
Consonants
Evoked Potentials - physiology
Functional differences
Humans
Learning - physiology
MMN
N400
Phonetics
Rule learning
Speech Perception - physiology
Vowels
Young Adult
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Summary:The Consonant-Vowel hypothesis suggests that consonants and vowels tend to be used differently during language processing. In this study we explored whether these functional differences trigger different neural responses in a rule learning task. We recorded ERPs while nonsense words were presented in an Oddball paradigm. An ABB rule was implemented either over the consonants (Consonant condition) or over the vowels (Vowel condition) composing standard words. Deviant stimuli were composed by novel phonemes. Deviants could either implement the same ABB rule as standards (Phoneme deviants) or implement a different ABA rule (Rule deviants). We observed shared early components (P1 and MMN) for both types of deviants across both conditions. We also observed differences across conditions around 400ms. In the Consonant condition, Phoneme deviants triggered a posterior negativity. In the Vowel condition, Rule deviants triggered an anterior negativity. Such responses demonstrate different neural responses after the violation of abstract rules over distinct phonetic categories. •Consonants and vowels have functional differences.•We implemented an abstract rule over vowels or consonants in nonsense words.•We observed different brain responses over phonetic categories after 400ms.•These differences provide the neural bases of distinct linguistic roles.
ISSN:0028-3932
1873-3514