The neural encoding of productive phonological alternation in speech production: Evidence from Mandarin Tone 3 sandhi
Abstract
The understanding of alternation is a key goal in phonological research. But little is known about how phonological alternations are implemented in speech production. The current study tested the hypothesis that the production of words that undergo a highly productive alternation, Mandarin Tone 3 sandhi, is supported by a computation mechanism, which predicts that this alternation is subserved by neural activity in a time-window associated with post-lexical phonological and phonetic encoding regardless of word frequency. ERPs were recorded while participants sub-vocally produced high- and low-frequency disyllabic words that do or do not require sandhi. Sandhi words elicited more positive ERPs than non-sandhi words over left anterior channels around 336–520 ms after participants saw the cue instructing them to initiate sub-vocal production, but this effect was not significantly modulated by word frequency. These findings are consistent with predictions of the computation mechanism and have implications for current psycholinguistic models of speech production.
Link to publication in Science Direct
