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Abstract
Fundamental frequency (F₀) peak delay (henceforth peak delay) refers to the phenomenon that an F₀ peak sometimes occurs after the syllable it is associated with either lexically or prosodically. Although peak delay has been reported for various languages, the mechanism of its occurrence has so far remained unclear. In Mandarin, peak delay has been found to occur regularly in the rising (R) tone but not in the high (H) tone. The present study investigates the underlying mechanisms of peak delay by examining its relationship with tone, tonal context, and speech rate. An experiment was conducted to test the possibility that peak delay may occur also in the H tone in Mandarin if the H-carrying syllable is sufficiently shortened. Native speakers of Mandarin Chinese recorded three types of sentences each containing a H, a R, or a weakened H tone. The sentences were produced at three speech rates: normal, fast and slow. Analysis of F₀ contours and peak alignment revealed that at normal speech rate, peak delay occurred regularly in both the R and weakened H tones but only occasionally in the H tone; at slow speech rate, peak delay continued to occur regularly in the R tone but only occasionally in weakened H and rarely in the H tone; at fast speech rate, peak delay occurred not only regularly in the R and weakened H tones, but also frequently in the H tone. Results of F₀ contour alignment analysis indicate that peak delay occurs when there is a sharp F₀ rise near the end of a syllable, regardless of the cause of the rise. The finding of this study provides support for the view that, rather than due to actual misalignment between underlying pitch units and segmental units, much of the variability in the shape and alignment of F₀ contours in Mandarin is attributable to the interaction of underlying pitch targets with tonal contexts and articulatory constraints.
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References
1 Arvaniti, A.; Ladd, D.R.; Mennen, I.: Stability of tonal alignment: the case of Greek prenuclear accents. J. Phonet. 36: 3–25 (1998).10.1006/jpho.1997.0063Search in Google Scholar
2 Chao, Y.R.: A Grammar of Spoken Chinese (University of California Press, Berkeley, CA 1968).Search in Google Scholar
3 Gårding, E.: The importance of turning points; in Hyman, Studies in stress and accent, pp. 27–35 (Department of Linguistics, University of Southern California, Los Angeles 1977).Search in Google Scholar
4 Gårding, E.: Speech act and tonal pattern in Standard Chinese. Phonetica 44: 13–29 (1987).10.1159/000261776Search in Google Scholar
5 Gårding, E.; Zhang, J.: Tone 4 and Tone 3 discrimination in Modern Standard Chinese. Lang. Speech 29: 281–293 (1986).10.1177/002383098602900307Search in Google Scholar
6 Grimm, C.: Pitch accent in Oneida. Proc. Annu. Meet. Ling. Soc. Am., Chicago 1997.Search in Google Scholar
7 Hombert, J.-M.: Consonant types, vowel quality, and tone; in Fromkin, Tone: linguistic survey, pp. 77–111 (Academic Press, New York 1978).Search in Google Scholar
8 Jin, S.: An Acoustic Study of Sentence Stress in Mandarin Chinese. PhD diss. Ohio State University (1996).Search in Google Scholar
9 Jong, K. de: Initial tones and prominence in Seoul Korean. Ohio State Univ. Working Papers Ling. 43: 1–14 (1994).Search in Google Scholar
10 Kim, S.-A.: Positional effect on tonal alternation in Chichewa: phonological rule vs. phonetic timing. Proc. Annu. Meet. Chicago Ling. Soc., vol. 34, pp. 245–257, Chicago 1999.Search in Google Scholar
11 Ladd, D.R.: Phonological features of intonational peaks. Language 59: 721–759 (1983).10.2307/413371Search in Google Scholar
12 Ladd, D.R.; Faulkner, D.; Faulkner, H.; Schepman, A.: Constant ‘segmental anchoring’ of F0 movements under changes in speech rate. J. acoust. Soc. Am. 106: 1543–1554 (1999).10.1121/1.427151Search in Google Scholar
13 Lehiste, I.; Peterson, G.E.: Some basic considerations in the analysis of intonation. J. acoust. Soc. Am. 33: 419–425 (1961).10.1121/1.1908681Search in Google Scholar
14 Ohala, J.J.; Ewan, W.G.: Speed of pitch change. J. acoust. Soc. Am. 53: 345A (1973).10.1121/1.1982441Search in Google Scholar
15 Prieto, P.; Santen, J. v.; Hirschberg, J.: Tonal alignment patterns in Spanish. J. Phonet. 23: 429–451 (1995).10.1006/jpho.1995.0032Search in Google Scholar
16 Santen, J.P.H. v.; Hirschberg, J.: Segmental effects on timing and height of pitch contours. Proc. Int. Conf. on Spoken Lang. Processing, vol. 94, pp. 719–722 (1994).Search in Google Scholar
17 Shih, C.: The prosodic domain of tone Sandhi in Chinese; PhD diss. University of California, San Diego (1986).Search in Google Scholar
18 Shih, C.; Sproat, R.: Variations of the Mandarin rising tone. Proc. IRCS Workshop on Prosody in Natural Speech No. 92-37, pp. 193–200 (Institute for Research in Cognitive Science, University of Pennsylvania, Philadelphia 1992).Search in Google Scholar
19 Silverman, K.E.A.; Pierrehumbert, J.B.: The timing of prenuclear high accents in English; in Kingston, Beckman, Papers in Laboratory Phonology 1: Between the Grammar and Physics of Speech, pp. 72–106 (Cambridge University Press, Cambridge 1990).10.1017/CBO9780511627736.005Search in Google Scholar
20 Speer, S.R.; Shih, C.; Slowiaczek, M.L.: Prosodic structure in language understanding: evidence from tone sandhi in Mandarin. Lang. Speech 32: 337–354 (1989).10.1177/002383098903200403Search in Google Scholar
21 Steele, S.A.: Nuclear accent F0 peak location: effects of rate, vowel, and number of following syllables. J. acoust. Soc. Am. 80: S51 (1986).Search in Google Scholar
22 Sundberg, J.: Maximum speed of pitch changes in singers and untrained subjects. J. Phonet. 7: 71–79 (1979).10.1016/S0095-4470(19)31040-XSearch in Google Scholar
23 Xu, Y.: Pŭtōnghuà yīnlián de shēngxué Yŭyīnxué tèxìng (The acoustic-phonetic characteristics of junctures in Mandarin). Zhōngguó Yŭwén 353–360 (1986).Search in Google Scholar
24 Xu, Y.: Contextual tonal variations in Mandarin. J. Phonet. 25: 61–83 (1997).10.1006/jpho.1996.0034Search in Google Scholar
25 Xu, Y.: Consistency of tone-syllable alignment across different syllable structures and speaking rates. Phonetica 55: 179–203 (1998).10.1159/000028432Search in Google Scholar
26 Xu, Y.: Effects of tone and focus on the formation and alignment of F0 contours. J. Phonet. 27: 55–105 (1999).10.1006/jpho.1999.0086Search in Google Scholar
27 Xu, Y.; Wang, Q.E.: Pitch targets and their realization: evidence from Mandarin Chinese. Speech Communication (in press).Search in Google Scholar
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