Neighboring spectral content influences vowel identification Lori Holt A J Lotto K R Kluender 10.1184/R1/6617246.v1 https://kilthub.cmu.edu/articles/journal_contribution/Neighboring_spectral_content_influences_vowel_identification/6617246 Four experiments explored the relative contributions of spectral content and phonetic labeling in effects of context on vowel perception. Two 10-step series of CVC syllables ([bVb] and [dVd]) varying acoustically in F2 midpoint frequency and varying perceptually in vowel height from [Lambda] to [epsilon] were synthesized. In a forced-choice identification task, listeners moro often labeled vowels as [Lambda] in [dVd] context than in [bVb] context. To examine whether spectral content predicts this effect, nonspeech-speech hybrid series were created by appending 70-ms sine-wave glides following the trajectory of CVC F2's to 60-ms members of a steady-state vowel series varying in F2 frequency. In addition, a second hybrid series was created by appending constant-frequency sine-wave tones equivalent in frequency to CVC F2 onset/offset frequencies. Vowels flanked by frequency-modulated glides or steady-state tones modeling [dVd] were more often labeled as [Lambda] than were the same vowels surrounded by nonspeech modeling [bVb]. These results suggest that spectral content is important in understanding vowel context effects. A final experiment tested whether spectral content can modulate vowel perception when phonetic labeling remains intact. Voiceless consonants, with lower-amplitude more-diffuse spectra, were found to exert less of an influence on vowel perception than do their voiced counterparts. The data are discussed in terms of a general perceptual account of context effects in speech perception. (C) 2000 Acoustical Society of America. [S0001-4966(00)01908-1]. 2000-08-01 00:00:00 psychology