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Part Three - Phonetic-phonological Issues in Chinese

Published online by Cambridge University Press:  04 August 2022

Chu-Ren Huang
Affiliation:
The Hong Kong Polytechnic University
Yen-Hwei Lin
Affiliation:
Michigan State University
I-Hsuan Chen
Affiliation:
University of California, Berkeley
Yu-Yin Hsu
Affiliation:
The Hong Kong Polytechnic University
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References

Akinlabi, Akinbiyi. 1996. Featural affixation. Journal of Linguistics 32:239289.Google Scholar
Akinlabi, Akinbiyi. 2011. Featural affixes. In The Blackwell companion to phonology, ed. Van Oostendorp, Marc, Ewen, Colin J., Hume, Elizabeth, and Rice, Keren, 127. Malden, MA: Wiley-Blackwell.Google Scholar
Anderson, Stephen. 1992. A morphous morphology. Cambridge: Cambridge University Press.Google Scholar
Beddor, Patrice Speeter. 1993. The perception of nasal vowels. In Phonetics and phonology 5: Nasals, nasalization, and the velum, ed. Huffman, Marie K. and Krakow, Rena A., 171196, New York, NY: Academic Press.Google Scholar
Benua, Laura. 1997. Transderivational identity: Phonological relations between words. Doctoral dissertation, University of Massachusetts Amherst.Google Scholar
Chen, Matthew. 1992. The chameleon r-suffix in Yanggu. Journal of East Asian Linguistics 1:197213.Google Scholar
Chen, Zhangtai, and Li, Xingjian 陈章太, 李行健. 1996. Basic vocabulary of Mandarin dialects 普通话基础方言基本词汇集. Beijing: Language and Culture Press.Google Scholar
Cheng, Chin-chuan. 1973. A synchronic phonology of Mandarin Chinese. The Hague: Mouton.Google Scholar
Dong, Shaoke 董邵克. 1985. Er suffixation in the Yanggu dialect 阳谷方言的儿化. Studies of the Chinese Language 中国语文1985:273276.Google Scholar
Duanmu, San. 1990. A formal study of syllable, tone, stress and domain in Chinese languages. Doctoral dissertation, Massachusetts Institute of Technology.Google Scholar
Duanmu, San. 2000/2007. The phonology of standard Chinese. Oxford: Oxford University Press.Google Scholar
Flemming, Edward. 2002. Auditory representations in phonology. New York, NY: Routledge.Google Scholar
Flemming, Edward. 2004. Contrast and perceptual distinctiveness. In Phonetically based phonology, ed. Hayes, Bruce, Kirchner, Robert, and Steriade, Donca, 232276. Cambridge: Cambridge University Press.Google Scholar
He, Wei 贺巍. 1981. A sketch of the Jiyuan dialect 济源方言记略. Dialect 方言 1981:526.Google Scholar
He, Wei 贺巍. 1982. A type of changed finals in the Huojia dialect 获嘉方言的一种变韵. Chinese Linguistics 中国语言学报 1:1524.Google Scholar
He, Wei 贺巍. 1989. Studies in the Huojia dialect 获嘉方言研究. Beijing: Commercial Press.Google Scholar
Hou, Jingyi 侯精一. 1985. The modification of finals representing the suffixation of zi in the southeastern part of Shanxi Province 晋东南地区的子变韵母. Studies of the Chinese Language 中国语文 1985:130137.Google Scholar
Itô, Junko. 1986. Syllable theory in prosodic phonology. Doctoral dissertation, University of Massachusetts Amherst.Google Scholar
Itô, Junko, and Armin Mester, R.. 2004. Morphological contrast and merger: Ranuki in Japanese. Journal of Japanese Linguistics 20:118.Google Scholar
Itô, Junko, and Armin Mester, R.. 2007. Systemic markedness and faithfulness. Chicago Linguistic Society 39:665689.Google Scholar
Jiang, Ping. 2008. Optimality account of the rime change in Junxian Chinese. Paper presented at IACL-16: the 16th Annual Meeting of the International Association on Chinese Linguistics, Beijing.Google Scholar
Kenstowicz, Michael. 1994. Phonology in generative grammar. Malden, MA: Blackwell.Google Scholar
Kenstowicz, Michael. 1996. Base-identity and uniform exponence: Alternative to cyclicity. In Current trends in phonology: Models and methods, ed. Durand, Jacques and Laks, Bernard, 363394. Salford: European Studies Research Institute (ESRI), University of Salford.Google Scholar
Kenstowicz, Michael. 2005. Paradigmatic uniformity and contrast. In Paradigms in phonological theory, ed. Downing, Laura J., Hall, T. A., and Raffelsiefen, Renate, 145169. Oxford: Oxford University Press.Google Scholar
Li, Sijing 李思敬. 1986. A study of the history of ér in Chinese 汉语”兒”[ɚ]音史研究. Beijing: Commercial Press.Google Scholar
Li, Wen-Chao. 1999. A diachronically-motivated segmental phonology of Mandarin Chinese. New York, NY: Peter Lang.Google Scholar
Lin, Yen-Hwei. 1989. Autosegmental treatment of segmental processes in Chinese phonology. Doctoral dissertation, University of Texas, Austin.Google Scholar
Lin, Yen-Hwei. 1993. Degenerate affixes and templatic constraints: Rime change in Chinese. Language 69:649682.Google Scholar
Lin, Yen-Hwei. 1997. A typology of Chinese affixation. Chinese Languages and Linguistics 4:405424.Google Scholar
Lin, Yen-Hwei. 2001. Toward a unified account of three classes of Huojia affixed words. In Chinese phonology in generative grammar, ed. Xu, De Bao, 223240. San Diego, CA: Academic Press.Google Scholar
Lin, Yen-Hwei. 2004. Chinese affixal phonology: Some analytical and theoretical issues. Language and Linguistics, Special Issue on Phonetics and Phonology 5(4):10191046.Google Scholar
Lin, Yen-Hwei. 2005a. Contrast maximization and nasalized vowels in Huojia Chinese. Paper presented at the Annual Meeting of the Linguistic Society of America, Oakland, CA.Google Scholar
Lin, Yen-Hwei. 2005b. Contrast and merger in morphophonology. Keynote speech given at IACL-13, 13th Annual Meeting of International Association on Chinese Linguistics, Leiden University.Google Scholar
Lin, Yen-Hwei. 2005c. Contrast preservation and neutralization: Nasal vowels in Chinese diminutive words. Paper presented at MCWOP-11, Mid-Continental Workshop on Phonology 11, University of Michigan, Ann Arbor, MI.Google Scholar
Lin, Yen-Hwei. 2007a. The sounds of Chinese. Cambridge: Cambridge University Press.Google Scholar
Lin, Yen-Hwei. 2007b. Ungrammatical affixed words in the Huojia dialect. Taiwan Journal of Linguistics 5:118.Google Scholar
Lin, Yen-Hwei. 2008. The morphophonology of Pingding er infixation: An OT analysis. In Interfaces in Chinese phonology, ed. Hsiao, Yuchau E., Hsu, Hui-Chuan, and Wee, Lian-Hee, 161182. Taipei: Institute of Linguistics, Academia Sinica.Google Scholar
Lin, Yen-Hwei. 2009. Contrast preservation in morphophonology: Diminutive rime change in Hong’an Chinese. In ICEAL-2: Proceedings of the 2nd International Conference on East Asian Linguistics, Simon Fraser University working papers in linguistics, vol. 2. www.sfu.ca/gradlings/working-papers/wp_2.html.Google Scholar
Lin, Yen-Hwei. 2010. Unexpected morphophonological outputs. In Proceedings of the 22nd North American Conference on Chinese Linguistics (NACCL-22) and the 18th International Conference on Chinese Linguistics (IACL-18), vol. 1, ed. Clemens, Lauren Eby and Liu, Chi-Ming Louis, 363382. Cambridge, MA: Harvard University Press. Distributed by NACCL Proceedings Online, The Ohio State University, Columbus, OH. http://naccl.osu.edu/proceedings/naccl-22_iacl-18Google Scholar
Lin, Yen-Hwei. 2014. Segmental phonology. In The handbook of Chinese linguistics, ed. Huang, C.-T. James, Audrey Li, Y. H., and Simpson, Andrew, 400421. Malden, MA: Wiley-Blackwell.Google Scholar
Lin, Yen-Hwei. 2016. Rhotacization 兒化. In The encyclopedia of Chinese language and linguistics, vol. 2, ed, Sybesma, Rint, Behr, Wolfgang, Yueguo, Gu, Handel, Zev, Huang, C.-T. James, and Myers, James, 183188. Leiden: Brill. www.brill.com/products/reference-work/encyclopedia-chinese-language-and-linguistics-5-volumes.Google Scholar
Lin, Yen-Hwei. 2017. Realizations of featural affixes in rime change. Keynote speech at ICCPG-4, 4th International Conference on Chinese Prosodic Grammar, June 3–4, Henan University.Google Scholar
Lin, Yen-Hwei. 2019. Yanggu diminutive Er affixation revisited. In Proceedings of the 30th North American Conference on Chinese Linguistics (NACCL-30), vol. 1, 3445. Columbus, OH: The Ohio State University.Google Scholar
Löfstedt, Ingvar. 2008. Perceptually driven allomorphy: The Swedish non-neuter singular definite article. Ms, University of California Los Angeles.Google Scholar
Lubowicz, Anna. 2003. Contrast preservation in phonological mappings. Doctoral dissertation, University of Massachusetts Amherst.Google Scholar
McCarthy, John J. 2005. Optimal paradigms. In Paradigms in phonological theory ed. Downing, Laura J., Hall, T. A., and Raffelsiefen, Renate, 170210. Oxford: Oxford University Press.Google Scholar
Padgett, Jaye. 1997. Perceptual distance of contrast: Vowel height and nasality. Phonology at Santa Cruz 5:6378.Google Scholar
Padgett, Jaye. 2003. Contrast and post-velar fronting in Russian. Natural Language and Linguistic Theory 21:3987.Google Scholar
Prince, Alan. 1985. Improving tree theory. Berkeley Linguistics Society 11:471–90.Google Scholar
Prince, Alan, and Smolensky, Paul. 2004. Optimality theory: Constraint interaction in generative grammar. Malden, MA: Blackwell.Google Scholar
Rebrus, Péter, and Törkenczy, Miklós. 2005. Uniformity and contrast in the Hungarian verbal paradigm. In Paradigms in phonological theory, ed. Downing, Laura J., Hall, T. A., and Raffelsiefen, Renate, 263295. Oxford: Oxford University Press.Google Scholar
Sanders, Nathan. 2002. Dispersion in OT: Color contrast in Middle Polish nasal vowels. In Proceedings of the 21st West Coast Conference on Formal Linguistics (WCCFL 21), ed. Mikkelsen, Line and Potts, Christopher, 415428. Somerville, MA: Cascadilla Press.Google Scholar
Spencer, Andrew. 1991. Morphological theory: An introduction to word structure in generative grammar. Malden, MA: Blackwell.Google Scholar
Steriade, Donca. 2000. Paradigm uniformity and the phonetics–phonology boundary. In Papers in laboratory phonology V: Acquisition and the lexicon, ed. Broe, Michael B. and Pierrehumbert, Janet B., 313334. Cambridge: Cambridge University Press.Google Scholar
Stevens, Kenneth N., Keyser, S. Jay, and Kawasaki, Haruko. 1986. Toward a phonetic and phonological theory of redundant features. In Invariance and variability in speech processes, ed. Perkell, Joseph S. and Klatt, Dennis H., 426449. Hillsdale, NJ: Lawrence Erlbaum.Google Scholar
Tessier, Anne-Michelle 2004. Input “clusters” and contrast preservation in OT. In Proceedings of the 21st West Coast Conference on Formal Linguistics (WCCFL 23), ed. Chand, Vineeta, Kelleher, Ann, Rodríguez, Angelo J., and Schmeiser, Benjamin, 101114. Somerville, MA: Cascadilla Press.Google Scholar
Tian, Xicheng. 1986. Zi changed finals in the Heshun dialect of Shanxi Province 山西和顺方言子变韵母. Studies of the Chinese Language 中国语文 1986:371373.Google Scholar
Trommer, Jochen. 2012. Constraints on multiple-feature mutation, Lingua 122:11821192.Google Scholar
Trommer, Jochen, 2014a. Featural affixes: The morphology of phonological features. Research project proposal, Department of Linguistics, Leipzig University. http://research.uni-leipzig.de/featuralaffixes/index.html.Google Scholar
Trommer, Jochen, 2014b. Moraic prefixes and suffixes in Anywa. Lingua 140:134.Google Scholar
Trón, Viktor, and Rebrus, Péter 2005. Re-presenting the past: Contrast and uniformity in Hungarian past tense suffixation. In Papers from the Düsseldorf Conference, Approaches to Hungarian 9, ed. Piñón, Christopher and Siptár, Péter, 305327. Budapest: Akadémiai Kiadó.Google Scholar
Wang, Jenny Zhijie. 1993. The geometry of segmental features in Beijing Mandarin. Doctoral dissertation, University of Delaware.Google Scholar
Wolf, Matthew. 2007. For an autosegmental theory of mutation. University of Massachusetts Occasional Papers in Linguistics 32:315404.Google Scholar
Wright, James T. 1986. The behavior of nasalized vowels in the perceptual vowel space. In Experimental phonology, ed. Ohala, John. J. and Jaeger, Jeri J., 4567. Orlando, FL: Academic Press.Google Scholar
Wu, Yuwen. 1994. Mandarin segmental phonology. Doctoral dissertation, University of Toronto.Google Scholar
Yip, Moira. 1992. Prosodic morphology in four Chinese dialects. Journal of East Asian Linguistics 1:135.CrossRefGoogle Scholar
Yu, Alan C. L. 2004. Infixing with a vengeance: Pingding Mandarin infixation. Journal of East Asian Linguistics 13(1):3958.Google Scholar
Zhang, Huili 张慧丽. 2009. Er affixation in the Yanshi dialect and related questions 偃师方言的儿化及相关问题. Proceedings of the 21st North American Conference on Chinese Linguistics (NACCL-21), vol. 1, ed. Xiao, Yun, 120137. Smithfield, RI: Bryant University.Google Scholar
Zhang, Huili 张慧丽. 2011. The sound pattern of Chinese rime change 汉语方言变韵的语音格局. Doctoral dissertation, Peking University.Google Scholar
Zhang, Jie. 2000. Non-contrastive features and categorical patterning in Chinese diminutive suffixation: Max[F] or Ident[F]. Phonology 17:427478.Google Scholar
Zimmermann, Eva. 2013. Non-concatenative allomorphy is generalized prosodic affixation: The case of Upriver Halkomelem. Lingua 134:126.Google Scholar

References

Alario, F. X., Perre, Laetitia, Castel, Caroline, and Ziegler, Johannes C.. 2007. The role of orthography in speech production revisited. Cognition 102:464475. https://doi.org/10.1016/j.cognition.2006.02.002.Google Scholar
Alderete, John, Chan, Queenie, and Yeung, Henry H.. 2019. Tone slips in Cantonese: Evidence for early phonological encoding. Cognition 191:103952. https://doi.org/10.1016/j.cognition.2019.04.021.CrossRefGoogle ScholarPubMed
Ao, Benjamin X. P. 1992. The non-uniqueness condition and the segmentation of the Chinese syllable. Working Papers in Linguistics 42:125.Google Scholar
Arbesman, Samuel, Strogatz, Steven H., and Vitevitch, Michael S.. 2010a. Comparative analysis of networks of phonologically similar words in English and Spanish. Entropy, 12(3):327337. https://doi.org/10.3390/e12030327.CrossRefGoogle Scholar
Arbesman, Samuel, Strogatz, Steven H., and Vitevitch, Michael S.. 2010b. The structure of phonological networks across multiple languages. International Journal of Bifurcation and Chaos 20(3):679685.Google Scholar
Arutiunian, Vardan, and Lopukhina, Anastasiya. 2020. The effects of phonological neighborhood density in childhood word production and recognition in Russian is opposite to English. Journal of Child Language 1–19. https://doi.org/10.1017/S0305000920000112.Google Scholar
Baayen, Rolf H., Vasishth, Shravan, Kliegl, Reinhold, and Bates, Douglas. 2017. The cave of shadows: Addressing the human factor with generalized additive mixed models. Journal of Memory and Language 94:206234. https://doi.org/10.1016/j.jml.2016.11.006.Google Scholar
Bailey, Todd M., and Hahn, Ulrike. 2001. Determinants of wordlikeness: Phonotactics or lexical neighborhoods? Journal of Memory and Language 44:568591. https://doi.org/10.1006/jmla.2000.2756.Google Scholar
Bao, Zhiming. 1990. Fanqie languages and reduplication. Linguistic Inquiry 21(3):317350.Google Scholar
Brennan, Christine, Cao, Fan, Pedroarena-Leal, Nicole, McNorgan, Chris, and Booth, James R.. 2013. Reading acquisition reorganizes the phonological awareness network only in alphabetic writing systems. Human Brain Mapping 34(12):33543368. https://doi.org/10.1002/hbm.22147.Google Scholar
Cai, Qai, and Brysbaert, Marc. 2010. SUBTLEX-CH: Chinese word and character frequencies based on film subtitles. PLoS ONE 5(6):e10729. https://doi.org/10.1371/journal.pone.0010729.Google Scholar
Cai, Xiao, Yin, Yulong, and Zhang, Qingfang. 2020. The roles of syllables and phonemes during phonological encoding in Chinese spoken word production: A topographic ERP study. Neuropsychologia 140:107382. https://doi.org/10.1016/j.neuropsychologia.2020.107382.Google Scholar
Cao, Fan, Brennan, Christine, and Booth, James R.. 2015. The brain adapts to orthography with experience: Evidence from English and Chinese. Developmental Science 18(5):785798. https://doi.org/10.1111/desc.12245.Google Scholar
Carlson, Matthew T., Sonderegger, Morgan, and Bane, Max. 2014. How children explore the phonological network in child-directed speech: A survival analysis of children’s first word productions. Journal of Memory and Language 75:159180. https://doi.org/10.1016/j.jml.2014.05.005.Google Scholar
Chan, Kit Ying, and Vitevitch, Michael S.. 2009. The influence of the phonological neighborhood clustering coefficient on spoken word recognition. Journal of Experimental Psychology: Human Perception and Performance 35(6):19341949. https://doi.org/10.1037/a0016902.Google Scholar
Chan, Kit Yang, and Vitevitch, Michael S.. 2010. Network structure influences speech production. Cognitive Science 34:685697. https://doi.org/10.1111/j.1551-6709.2010.01100.x.Google Scholar
Chao, Yuan R. 1934. The non-uniqueness of phonemic solutions of phonetic systems. Bulletin of the Institute of History and Philology, Academia Sinica 4(4):363398.Google Scholar
Chen, Jenn-Yeu. 1999. The representation and processing of tone in Mandarin Chinese: Evidence from slips of the tongue. Applied Psycholinguistics 20(2):289301. https://doi.org/doi:10.1017/S0142716499002064.CrossRefGoogle Scholar
Chen, Jenn-Yeu. 2000. Syllable errors from naturalistic slips of the tongue in Mandarin Chinese. Psychologia 43:1526.Google Scholar
Chen, Jenn-Yeu, Chen, Train-Min, and Dell, Gary S.. 2002. Word-form encoding in Mandarin Chinese as assessed by the implicit priming task. Journal of Memory and Language 46(4):751781. https://doi.org/10.1006/jmla.2001.2825.Google Scholar
Chen, Jenn-Yeu, Lin, Wei-Chun, and Ferrand, Ludovic. 2003. Masked priming of the syllable in Mandarin Chinese speech production. Chinese Journal of Psychology 45(1):107120.Google Scholar
Chen, Jenn-Yeu, O’Séaghdha, Padraig G., and Chen, Train-min. 2016. The primacy of abstract syllables in Chinese word production. Journal of Experimental Psychology: Learning Memory and Cognition 42(5):825836. https://doi.org/10.1037/a0039911.Google ScholarPubMed
Chen, Qi, and Mirman, Daniel. 2012. Competition and cooperation among similar representations: Toward a unified account of facilitative and inhibitory effects of lexical neighbors. Psychological Review 119(2):417430. https://doi.org/10.1037/a0027175.Google Scholar
Chen, Train-Min, and Chen, Jenn-Yeu. 2013. The syllable as the proximate unit in Mandarin Chinese word production: An intrinsic or accidental property of the production system? Psychonomic Bulletin & Review 20:154162. https://doi.org/10.3758/s13423–012-0326-7.Google Scholar
Chen, Train-Min, and Chen, Jenn-Yeu. 2015. The phonological planning in Mandarin spoken production of mono- and bimorphemic words. Japanese Psychological Research 57(1):8189. https://doi.org/10.1111/jpr.12059.Google Scholar
Chen, Wei-Fan, Chao, Pei-Chun, Chang, Ya-Ning, Hsu, Chun-Hsien, and Lee, Chia-Ying. 2016. Effects of orthographic consistency and homophone density on Chinese spoken word recognition. Brain and Language 157:5162. https://doi.org/10.1016/j.bandl.2016.04.005.CrossRefGoogle ScholarPubMed
Cheng, Robert L. 1966. Mandarin phonological structure. Journal of Linguistics 2(2):135158. https://doi.org/10.1017/S0022226700001444.Google Scholar
The Editorial Team of the Mandarin Dictionary Compendium. 1997. Word frequency statistic report of the database for national language concise lexicon 国语辞典简编本编辑资料字词频统计报告. Taipei: Ministry of Education.Google Scholar
Dell, Gary S. 1986. A spreading-activation theory of retrieval in sentence production. Psychological Review 93(3):283. http://129.237.66.221/P800/dell1986.pdf.Google Scholar
Dell, Gary S., and Gordon, Jean K. 2003. Neighbors in the lexicon: Friends or foes? In Phonetics and phonology in language comprehension and production: Differences and similarities, ed. Schiller, Niels O. and Meyer, Antje S., 937. Berlin: De Gruyter Mouton.Google Scholar
Dell, Gary S., Reed, Kristopher D., Adams, David R., and Meyer, Antje S.. 2000. Speech errors, phonotactic constraints, and implicit learning: A study of the role of experience in language production. Journal of Experimental Psychology. Learning, Memory, and Cognition 26(6):13551367. https://doi.org/10.1037/0278-7393.26.6.1355.Google Scholar
Desroches, Amy S., Newman, Randy Lynn, and Joanisse, Marc F.. 2009. Investigating the time course of spoken word recognition: Electrophysiological evidence for the influences of phonological similarity. Journal of Cognitive Neuroscience 21(10):18931906. https://doi.org/10.1162/jocn.2008.21142.Google Scholar
Do, Youngah, and Lai, Ryan K. Y.. 2021. Accounting for lexical tones when modeling phonological distance. Language 97(1):e39e67. https://doi.org/10.1353/lan.2021.0008.Google Scholar
Duanmu, San. 2000. The phonology of standard Chinese. Oxford: Oxford University Press.Google Scholar
Duanmu, San. 2007. The phonology of standard Chinese, 2nd ed. Oxford: Oxford University Press.Google Scholar
Duanmu, San. 2011. Chinese syllable structure. In The Blackwell companion to phonology, ed. van Oostendorp, Marc, Ewen, Colin J., Hume, Elizabeth V., and Rice, Keren, 114. Malden, MA: Wiley-Blackwell.Google Scholar
Duanmu, San. 2017. From non-uniqueness to the best solution in phonemic analysis: evidence from Chengdu Chinese. Lingua Sinica, 3(1):15. https://doi.org/10.1186/s40655–017-0030-7.Google Scholar
Dufour, Sophie, and Peereman, Ronald. 2003. Lexical competition in phonological priming: Assessing the role of phonological match and mismatch lengths between primes and targets. Memory and Cognition 31(8):12711283. https://doi.org/10.3758/BF03195810.Google Scholar
Ellis, Nick C. 2002. Frequency effects in language processing. Studies in Second Language Acquisition 24(2):143188. https://doi.org/10.1017.S0272263102002024.CrossRefGoogle Scholar
Feng, Chen, Yue, Yuan, and Zhang, Qingfang. 2019. Syllables are retrieved before segments in the spoken production of Mandarin Chinese: An ERP study. Scientific Reports 9(11773):19. https://doi.org/10.1038/s41598–019-48033-3.Google Scholar
Gahl, Susanne, Yao, Yao, and Johnson, Keith. 2012. Why reduce? Phonological neighborhood density and phonetic reduction in spontaneous speech. Journal of Memory and Language 66(4):789806. https://doi.org/10.1016/j.jml.2011.11.006.Google Scholar
Gandour, Jackson T., Yisheng, Xu, Donald, Wong, Mario, Dzemidzic, Mark, Lowe, Xiaojian, Li, and Yunxia, Tong. 2003. Neural correlates of segmental and tonal information in speech perception. Human Brain Mapping 20(4):185200. https://doi.org/10.1002/hbm.10137.Google Scholar
Gordon, Jean K., and Dell, Gary S.. 2001. Phonological neighborhood effects: Evidence from aphasia and connectionist modeling. Brain and Language 79:2131. https://doi.org/10.1006/brln.2001.2574.Google Scholar
Goswami, Usha. 2003. Phonology, learning to read and dyslexia: A cross-linguistic analysis. In Dyslexia: Different brain, different behavior, neuropsychology and cognition, ed. Csépe, Valéria, 140. New York, NY: Kluwer Academic/Plenum Publishers.Google Scholar
Grainger, Jonathan, Muneaux, Mathilde, Farioli, Fernand, and Ziegler, Johannes C.. 2005. Effects of phonological and orthographic neighbourhood density interact in visual word recognition. Quarterly Journal of Experimental Psychology Section A: Human Experimental Psychology 58(6):981–98.CrossRefGoogle ScholarPubMed
Gruenenfelder, Thomas M., and Pisoni, David B.. 2009. The lexical restructuring hypothesis and graph theoretic analysis of networks based on random lexicons. Journal of Speech, Language, and Hearing Research 52(3):596609. https://doi.org/10.1044/1092-4388.Google Scholar
Holliday, Jeffrey J., Turnbull, Rory, and Eychenne, Julien. 2017. K-SPAN: A lexical database of Korean surface phonetic forms and phonological neighborhood density statistics. Behavior Research Methods 49(5):19391950. https://doi.org/10.3758/s13428–016-0836-8.Google Scholar
Huang, Hsu-Wen, Lee, Chia-Ying, Tsai, Jie-Li, Lee, Chia-Lin, Hung, Daisy L., and Tzeng, Ovid J. L.. 2006. Orthographic neighborhood effects in reading Chinese two-character words. Neuroreport 17(10):1061–65.Google Scholar
Huang, Xianjun, and Yang, Jin-Chen. 2016. The time course of lexical competition during spoken word recognition in Mandarin Chinese. Neuroreport 27(2):6772. https://doi.org/10.1097/WNR.0000000000000492.Google Scholar
Huang, Xianjun, Yang, Jin-Chen, Chang, Ruohan, and Guo, Chunyan. 2016. Task modulation of disyllabic spoken word recognition in Mandarin Chinese: A unimodal ERP study. Scientific Reports 6:112. https://doi.org/10.1038/srep25916.Google ScholarPubMed
Huang, Xianjun, Yang, Jin-Chen, Zhang, Qin, and Guo, Chunyan. 2014. The time course of spoken word recognition in Mandarin Chinese: A unimodal ERP study. Neuropsychologia 63:165174. https://doi.org/10.1016/j.neuropsychologia.2014.08.015.Google Scholar
Kureta, Yoichi, Fushimi, Takao, and Tatsumi, Itaru F.. 2006. The functional unit in phonological encoding: Evidence for moraic representation in native Japanese speakers. Journal of Experimental Psychology: Learning, Memory, and Cognition 32(5):11021119.Google Scholar
Levelt, Willem J. M. 1989. Speaking: From intention to articulation. Cambridge, MA: MIT Press.Google Scholar
Li, Chuchu, and Wang, Min. 2017. The influence of orthographic experience on the development of phonological preparation in spoken word production. Memory & Cognition 45:956973. https://doi.org/10.3758/s13421–017-0712-5.Google Scholar
Li, Chuchu, Wang, Min, and Idsardi, William. 2015. The effect of orthographic form-cuing on the phonological preparation unit in spoken word production. Memory & Cognition, 43:563578. https://doi.org/10.3758/s13421–014-0484-0.Google Scholar
Li, Mengfeng, Lin, Wei-Chun, Chou, Tai-Li, Yang, Fu-Ling, and Jei-Tun, Wu. 2015. The role of orthographic neighborhood size effects in Chinese word recognition. Journal of Psycholinguistic Research 44:219236. https://doi.org/10.1007/s10936–014-9340-4.Google Scholar
Liben-Nowell, David, Strand, Julia F., Sharp, Alexa, Wexler, Tom, and Woods, Kevin. 2019. The danger of testing by selecting controlled subsets, with applications to spoken-word recognition. Journal of Cognition 2(1):115. https://doi.org/10.5334/joc.51.Google Scholar
Lin, Yen-Hwei. 1989. Autosegmental treatment of segmental processes in Chinese phonology. Doctoral dissertation, University of Texas at Austin.Google Scholar
Lin, Yen-Hwei. 2007. The sounds of Chinese with audio CD. Cambridge: Cambridge University Press.Google Scholar
Luce, Paul A., Goldinger, Stephen D., Auer, Edward T., and Vitevitch, Michael S.. 2000. Phonetic priming, neighborhood activation, and PARSYN. Perception & Psychophysics 62(3):615625. https://doi.org/10.3758/BF03212113.Google Scholar
Luce, Paul A., Pisoni, David B.. 1998. Recognizing spoken words: The neighborhood activation model. Ear and Hearing 19(1):136. https://doi.org/10.1097/MPG.0b013e3181a15ae8.Screening.CrossRefGoogle ScholarPubMed
Malins, Jeffrey G., Gao, Danqi, Tao, Ran, Booth, James R., Shu, Hua, Joanisse, Marc F., Liu, Li, and Desroches, Amy S.. 2014. Developmental differences in the influence of phonological similarity on spoken word processing in Mandarin Chinese. Brain and Language 138:3850. https://doi.org/10.1016/j.bandl.2014.09.002.Google Scholar
Malins, Jeffrey G., and Joanisse, Marc F.. 2010. The roles of tonal and segmental information in Mandarin spoken word recognition: An eyetracking study. Journal of Memory and Language 62(4):407420. https://doi.org/10.1016/j.jml.2010.02.004.Google Scholar
Malins, Jeffrey G., and Joanisse, Marc F.. 2012. Setting the tone: An ERP investigation of the influences of phonological similarity on spoken word recognition in Mandarin Chinese. Neuropsychologia 50(8):20322043. https://doi.org/10.1016/j.neuropsychologia.2012.05.002.Google Scholar
McClelland, James L., and Elman, Jeffrey L.. 1986. The TRACE model of speech perception. Cognitive Psychology 18(1):186. https://doi.org/10.1016/0010-0285(86)90015-0.Google Scholar
Meyer, Antje S., and Schriefers, Herbert. 1991. Phonological facilitation in picture–word interference experiments: Effects of stimulus onset asynchrony and types of interfering stimuli. Journal of Experimental Psychology: Learning, Memory, and Cognition 17(6):11461160. https://doi.org/10.1037/0278-7393.17.6.1146.Google Scholar
Mok, Peggy P. K. 2009. On the syllable-timing of Cantonese and Beijing Mandarin. Chinese Journal of Phonetics 2:148154. https://doi.org/10.1515/iral.1964.2.1.155.Google Scholar
Montant, Marie, Daniele, Schön, Jean-luc, Anton, and Johannes C, Ziegler. 2011. Orthographic contamination of Broca’s area. Frontiers in Psychology 2: Article 378. https://doi.org/10.3389/fpsyg.2011.00378.CrossRefGoogle ScholarPubMed
Myers, James. 2002. An analogical approach to the Mandarin syllabary. Journal of Chinese Phonology 11:163190.Google Scholar
Myers, James, and Tsay, Jane. 2005. The processing of phonological acceptability judgments. In Proceedings of Symposium on 90-92 NSC Projects, Taipei, 26–45.Google Scholar
Nakayama, Mariko, Kinoshita, Sachiko, and Verdonschot, Rinus G.. 2016. The emergence of a phoneme-sized unit in L2 speech production: Evidence from Japanese–English bilinguals. Frontiers in Psychology, 7:110. https://doi.org/10.3389/fpsyg.2016.00175.Google Scholar
Neergaard, Karl D. 2018. Phonological segmentation neighborhoods. Doctoral dissertation, The Hong Kong Polytechnic University, Hong Kong.Google Scholar
Neergaard, Karl D., James, Britton, and Chu-Ren, Huang. 2019. Neighborhood in decay: Working memory modulates effect of phonological similarity on lexical access. In Proceedings of the 41st Annual Conference of the Cognitive Science Society, Montreal, 2447–2453. https://mindmodeling.org/cogsci2019/papers/0423/0423.pdf.Google Scholar
Neergaard, Karl D., and Huang, Chu-Ren. 2016. Graph theoretic approach to Mandarin syllable segmentation. In Proceedings of The 15th International Symposium on Chinese Languages and Linguistics (IsCLL-15). Hsinchu: Hsinchu University of Education.Google Scholar
Neergaard, Karl D., and Huang, Chu-Ren. 2019. Constructing the Mandarin phonological network: Novel syllable inventory used to identify schematic segmentation. Complexity 2019:Article 6979830. https://doi.org/10.1155/2019/6979830.Google Scholar
Neergaard, Karl D., Luo, Jin, and Huang, Chu-Ren. 2019. Phonological network fluency identifies phonological restructuring through mental searchScientific Reports 9:15984. https://doi.org/10.1038/s41598-019-52433-w.Google Scholar
Neergaard, Karl D., Hongzhi, Xu, James, German and Huang, Chu-Ren. 2021. Database of word-level statistics for Mandarin Chinese (DoWLS-MAN). Behavior Research Methods. https://doi.org/10.3758/s13428-021-01620-7.Google Scholar
Neergaard, Karl D., Hongzhi, Xu, and Huang, Chu-Ren. 2016. Database of Mandarin neighborhood statistics. In Proceedings of the 10th International Conference on Language Resources and Evaluation, LREC 2016, Portorož, 4032–4036. www.aclweb.org/anthology/L16-1636/.Google Scholar
Neergaard, Karl D., Hongzhi, Xu, and Huang, Chu-Ren. 2020. Database of word level statistics – Mandarin LDC2020L01 (Web Download). Linguistic Data Consortium. http://catalog.ldc.upenn.edu/LDC2020L01.Google Scholar
O’Séaghdha, Padraig G. 2015. Across the great divide: Proximate units at the lexical–phonological interface. Japanese Psychological Research 57(1):421. https://doi.org/10.1111/jpr.12074.Google Scholar
O’Séaghdha, Padraig G., Chen, Jenn-Yeu, and Chen, Train-min. 2010. Proximate units in word production: Phonological encoding begins with syllables in Mandarin Chinese but with segments in English. Cognition 115(2):282302. https://doi.org/10.1016/j.cognition.2010.01.001.Proximate.Google Scholar
Pattamadilok, Chotiga, Morais, José, Ventura, Paulo, and Kolinsky, Régine. 2007. The locus of the orthographic consistency effect in auditory word recognition: Further evidence from French. Language and Cognitive Processes 22(5):700726. https://doi.org/10.1080/01690960601049628.Google Scholar
Pattamadilok, Chotiga, Perre, Laetitia, and Ziegler, Johannes C.. 2011. Beyond rhyme or reason: ERPs reveal task-specific activation of orthography on spoken language. Brain and Language 116(3):116124. https://doi.org/10.1016/j.bandl.2010.12.002.Google Scholar
Peeva, Maya G., Guenther, Frank H., Tourville, Jason A., Nieto-Castanon, Alfonso, Anton, Jean-Luc, Nazarian, Bruno, and Alario, Francois X.. 2011. Distinct representations of phonemes, syllables, and supra-syllabic sequences in the speech production network Maya. NeuroImage 50(2):626638. https://doi.org/10.1016/j.neuroimage.2009.12.065.Distinct.Google Scholar
Perre, Laetitia, Midgley, Katherine, and Ziegler, Johannes C.. 2009. When beef primes reef more than leaf: Orthographic information affects phonological priming in spoken word recognition. Psychophysiology 46:739746. https://doi.org/10.1111/j.1469-8986.2009.00813.x.Google Scholar
Perre, Laetitia, Pattamadilok, Chotiga, Montant, Marie, and Ziegler, Johannes C.. 2009. Orthographic effects in spoken language: On-line activation or phonological restructuring? Brain Research 1275:7380. https://doi.org/10.1016/j.brainres.2009.04.018.Google Scholar
Qu, Qingqing, Damian, Markus F., and Kazanina, Nina 2012. Sound-sized segments are significant for Mandarin speakers. Proceedings of the National Academy of Sciences of the United States of America 109(35):1426514270. https://doi.org/10.1073/pnas.1200632109.Google Scholar
Roelofs, Ardi. 2015. Modeling of phonological encoding in spoken word production: From Germanic languages to Mandarin Chinese and Japanese. Japanese. Psychological Research 57(1):2237. https://doi.org/10.1111/jpr.12050.Google Scholar
Sadat, Jasmin, Martin, Clara D., Costa, Albert, and Alario, Francois X.. 2014. Reconciling phonological neighborhood effects in speech production through single trial analysis. Cognitive Psychology 68:3358. https://doi.org/10.1016/j.cogpsych.2013.10.001.Google Scholar
Schiller, Niels O. 2000. Single word production in English: The role of subsyllabic units during phonological encoding. Journal of Experimental Psychology: Learning, Memory, and Cognition 26(2):512528. https://doi.org/10.10371/0278-7393.26.2.512.Google Scholar
Schiller, Niels O. 2004. The onset effect in word naming. Journal of Memory and Language 50:477490. https://doi.org/10.1016/j.jml.2004.02.004.Google Scholar
Sharma, Bhamini. 2020. The effect of phonological neighbors and homophones on spoken word recognition in Mandarin Chinese. Doctoral dissertation, The Hong Kong Polytechnic University, Hong Kong.Google Scholar
Shattuck-Hufnagel, Stephanie. 1979. Speech errors as evidence for a serial-ordering mechanism in sentence production. In Sentence processing: Psycholinguistic studies presented to Merrill Garrett, ed. Cooper, William E. and Walker, Edward C. T., 295342. Hillsdale, NJ: Lawrence Erlbaum.Google Scholar
Shuai, Lan, and Malins, Jeffrey G.. 2016. Encoding lexical tones in jTRACE: A simulation of monosyllabic spoken word recognition in Mandarin Chinese. Behavior Research Methods 49(1):230241. https://doi.org/10.3758/s13428–015-0690-0.Google Scholar
Siew, Cynthia S. Q. 2013. Community structure in the phonological network. Frontiers in Psychology 4:553. https://doi.org/10.3389/fpsyg.2013.00553.Google Scholar
Siew, Cynthia. S. Q. 2017. The influence of 2-hop network density on spoken word recognition. Psychonomic Bulletin & Review 24:496502. https://doi.org/10.3758/s13423–016-1103-9.Google Scholar
Siew, Cynthia S. Q., and Vitevitch, Michael S.. 2019. The phonographic language network: Using network science to investigate the phonological and orthographic similarity structure of language. Journal of Experimental Psychology: General 148(3):475500.Google Scholar
Stella, Massimo, Nicole M, Beckage, and Markus, Brede. 2017. Multiplex lexical networks reveal patterns in early word acquisition in children. Scientific Reports 7: Article 46730. https://doi.org/10.1038/srep46730.Google Scholar
Stella, Massimo, and Brede, Markus. 2015. Patterns in the English language: Phonological networks, percolation and assembly models. Journal of Statistical Mechanics: Theory and Experiment 2015: P05006.Google Scholar
Sun, Chaofen. 2006. Chinese: A linguistic introduction. Cambridge: Cambridge University Press.Google Scholar
Tsai, Chih-Hao. 2000. Mandarin syllable frequency counts for Chinese characters. http://technology.chtsai.org/syllable/.Google Scholar
Tsai, Jie-Li, Lee, Chia-Ying, Lin, Ying-Chun, Tzeng, Ovid J. L., and Hung, Daisy L.. 2006. Neighborhood size effects of Chinese words in lexical decision and reading. Language and Linguistics 7(3):659675.Google Scholar
Tsai, Pei-Tzu. 2007. The effects of phonological neighborhoods on spoken word recognition in Mandarin Chinese. Master’s dissertation, University of Maryland.Google Scholar
Tsang, Yiu-Kei, Huang, Jian, Lui, Ming, Xue, Mingfeng, Chan, Yin-Wah Fiona, Wang, Suiping, and Chen, Hsuan-Chih. 2018. MELD-SCH: A Megastudy of Lexical Decision in Simplified Chinese. Behavior Research Methods 50:17631777.Google Scholar
Turnbull, Rory, and Sharon, Peperkamp. 2016. What governs a language’s lexicon? Determining the organizing principles of phonological neighbourhood networks. In Proceedings of the 5th International Workshop on Complex Networks and their Applications (COMPLEX NETWORKS 2016), ed. Cherifi, Hocine, Gaito, Sabrina, Quattrociocchi, Walter, and Sala, Alessandra, 8394. Cham: Springer. http://link.springer.com/10.1007/978-3-319-50901-3.Google Scholar
Ventura, Paulo, Morais, José, Pattamadilok, Chotiga, and Kolinsky, Régine. 2004. The locus of the orthographic consistency effect in auditory word recognition. Language and Cognitive Processes 19(1):5795. https://doi.org/10.1080/01690960344000134.Google Scholar
Verdonschot, Rinus G., Kiyama, Sachiko, Tamaoka, Katsuo, Kinoshita, Sachiko, La Heij, Wido, and Schiller, Neils O.. 2011. The functional unit of Japanese word naming: Evidence from masked priming. Journal of Experimental Psychology: Learning, Memory, and Cognition 37(6):14581473. https://doi.org/10.1037/a0024491.Google Scholar
Verdonschot, Rinus G., Nakayama, Mariko, Zhang, Qingfang, Tamaoka, Katsuo, and Schiller, Neils O.. 2013. The proximate phonological unit of Chinese-English bilinguals: Proficiency matters. PLoS ONE 8(4): e61454. https://doi.org/10.1371/journal.pone.0061454.Google Scholar
Vitevitch, Michael S. 2002. The influence of phonological similarity neighborhoods on speech production. Journal of Experimental Psychology: Learning, Memory, and Cognition 28(4):735747. https://doi.org/10.1037/0278-7393.28.4.735.Google Scholar
Vitevitch, Michael S. 2008. What can graph theory tell us about word learning and lexical retrieval? Journal of Speech, Language, and Hearing Research 51:408422.Google Scholar
Vitevitch, Michael S., and Luce, Paul A.. 2016. Phonological neighborhood effects in spoken word perception and production. Annual Review of Linguistics 8(2):7594. https://doi.org/10.1146/annurev-linguist-030514-124832.Google Scholar
Vitevitch, Michael S., and Rodríguez, Eva. 2004. Neighborhood density effects in spoken word recognition in Spanish. Journal of Multilingual Communication Disorders 3(1):6473. https://doi.org/10.1080/14769670400027332.Neighborhood.Google Scholar
Vitevitch, Michael S., and Sommers, Mitchell S.. 2003. The facilitative influence of phonological similarity and neighborhood frequency in speech production in younger and older adults. Memory & Cognition 31(4):491504. https://doi.org/10.1016/j.pestbp.2011.02.012.Investigations.Google Scholar
Vitevitch, Michael S., and Stamer, Melissa K.. 2006. The curious case of competition in Spanish speech production. Language and Cognitive Processes 21(6):760770. https://doi.org/10.1080/01690960500287196.Google Scholar
Wan, I-Ping. 2006. A psycholinguistic study of postnuclear glides and coda nasals in Mandarin. Journal of Language and Linguistics 5(2):158176.Google Scholar
Wang, H. S. 1998. An experimental study on the phonetic constraints of Mandarin Chinese. In Studia linguistica serica, ed. Tsou, Benjamin K., 259268. Hong Kong: City University of Hong Kong Language Information Sciences Research Center.Google Scholar
Wang, Jie, Wong, Andus W.-K., Wang, Suiping, and Hsuan-Chih, Chen. 2017. Primary phonological planning units in spoken word production are language-specific: Evidence from an ERP study. Scientific Reports 7:5815. https://doi.org/10.1038/s41598–017-06186-z.CrossRefGoogle ScholarPubMed
Wang, Wenna, Li, Xiaojian, Ning, Ning, and Zhang, John X.. 2012. The nature of the homophone density effect: An ERP study with Chinese spoken monosyllable homophones. Neuroscience Letters 516(1):6771. https://doi.org/10.1016/j.neulet.2012.03.059.Google Scholar
Wiener, Seth, and Turnbull, Rory. 2016. Constraints of tones, vowels and consonants on lexical selection in Mandarin Chinese. Language and Speech 59(1):5982. https://doi.org/10.1177/0023830915578000.Google Scholar
Wong, Andus W.-K., and Chen, Hsuan-Chih. 2008. Processing segmental and prosodic information in Cantonese word production. Journal of Experimental Psychology: Learning, Memory, and Cognition 34(5):11721190. https://doi.org/10.1037/a0013000.Google Scholar
Wong, Andus W.-K., and Chen, Hsuan-Chih. 2009. What are effective phonological units in Cantonese spoken word planning? Psychonomic Bulletin & Review 16(5):888892. https://doi.org/10.3758/PBR.16.5.888.Google Scholar
Wong, Andus W.-K., Chiu, Ho-Ching, Wang, Jie, Wong, Siu-San, and Chen, Hsuan-Chih. 2019. Electrophysiological evidence for the time course of syllabic and sub-syllabic encoding in Cantonese spoken word production. Language, Cognition and Neuroscience 34(6):677688. https://doi.org/10.1080/23273798.2018.1562559.Google Scholar
Wong, Andus W.-K., Huang, Jian, and Chen, Hsuan-Chih. 2012. Phonological units in spoken word production: Insights from Cantonese. PLoS ONE 7(11):e48776. https://doi.org/10.1371/journal.pone.0048776.Google Scholar
Wu, Jei-Tun, Yang, Fu-Ling, and Jin, Wei-Chun. 2013. Beyond Phonology Matters in Character Recognition. Chinese Journal of Psychology 55(3):289318.Google Scholar
Xu, Shirong 徐世荣. 1980. Phonology of standard Chinese 普通话语音知识. Beijing: Wenzi Gaige Publishing.Google Scholar
Yao, Yao. 2009. Phonological neighbourhood development in children’s lexicons. UC Berkeley Phonology Lab Annual Report (2009) 5(5):4463.Google Scholar
Yao, Yao, and Sharma, Bhamini. 2017. What is in the neighborhood of a tonal syllable? Evidence from auditory lexical decision in Mandarin Chinese. Proceedings of the Linguistic Society of America 2:114. https://doi.org/10.3765/plsa.v2i0.4090.Google Scholar
Yates, Mark. 2005. Phonological neighbors speed visual word processing: Evidence from multiple tasks. Journal of Experimental Psychology: Learning Memory and Cognition 31(6):13851397.Google Scholar
You, Rujie, Qian, Nairong, and Gao, Zhengxia 游汝杰, 钱乃荣, 高钲夏. 1980. On the phonemic system of standard Chinese 论普通话的音位系统. Studies of the Chinese language 中国语文 5(158):328334.Google Scholar
You, Wenping, Zhang, Qingfang, and Verdonschot, Rinus G.. 2012. Masked syllable priming effects in word and picture naming in Chinese. PLoS ONE 7(10): e46595. https://doi.org/10.1371/journal.pone.0046595.Google Scholar
Yu, Mengxia, Mo, Ce, Li, You, and Mo, Lei. 2015. Distinct representations of syllables and phonemes in Chinese production: Evidence from fMRI adaptation. Neuropsychologia 77:253259. https://doi.org/10.1016/j.neuropsychologia.2015.08.027.Google Scholar
Yu, Mengxia, Mo, Ce, and Mo, Lei. 2014. The role of phoneme in Mandarin Chinese production: Evidence from ERPs. PLoS ONE 9(9):e106486. https://doi.org/10.1371/journal.pone.0106486.Google Scholar
Zhang, Jie,and Lai, Yuwen. 2010. Testing the role of phonetic knowledge in Mandarin tone sandhi. Phonology 27:153201. https://doi.org/10.1017/S0952675710000060.Google Scholar
Zhang, Qingfang, and Markus, F. Damian, M. 2019. Syllables constitute proximate units for Mandarin speakers: Electrophysiological evidence from a masked priming task. Psychophysiology 1–15. https://doi.org/10.1111/psyp.13317.Google Scholar
Zhao, Jingjing, Guo, Jingjing, Zhou, Fengying, and Shu, Hua. 2011. Time course of Chinese monosyllabic spoken word recognition: Evidence from ERP analyses. Neuropsychologia 49:17611770. https://doi.org/10.1016/j.neuropsychologia.2011.02.054.Google Scholar
Zhao, Xiaowei, and Li, Ping. 2009. An online database of phonological representations for Mandarin Chinese. Behavior Research Methods 41(2):575583. https://doi.org/10.3758/BRM.41.2.575.Google Scholar
Zhou, Xiaolin, and Marslen-Wilson, William D.. 1994. Words, morphemes and syllables in the Chinese mental lexicon. Language and Cognitive Processes 9(3):393422. https://doi.org/10.1080/01690969408402125.Google Scholar
Zhou, Youguang. 2003. The historical evolution of Chinese languages and scripts. Columbus, OH: The Ohio State University National East Asian Languages Resource Center.Google Scholar
Ziegler, Johannes C., Muneaux, Mathilde, and Grainger, Jonathan. 2003. Neighborhood effects in auditory word recognition: Phonological competition and orthographic facilitation. Journal of Memory and Language, 48(4):779793. https://doi.org/10.1016/S0749–596X(03)00006-8.Google Scholar

References

Botinis, Antonis, Gilbert, Ambrazaitis, and Johan, Frid. 2014. Syllable structure and tonal representation: Revisiting focal accent II in Swedish. In Proceedings of FONETIK 2014, 6570. Stockholm.Google Scholar
Chen, Matthew. 2000. Tone sandhi: Patterns across Chinese dialects. Cambridge: Cambridge University Press.Google Scholar
Chen, Yiya. 2011. How does phonology guide phonetics in segment-f0 interaction? Journal of Phonetics 39:612–25.Google Scholar
Chen, Yiya. 2022. Tone and intonation. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 336360. Cambridge, UK: Cambridge University Press.Google Scholar
Chen, Yiya, and Yi, Xu. 2006. Production of weak elements in speech: Evidence from F0 patterns of neutral tone in standard Chinese. Phonetica 63:4775.Google Scholar
Chen, Zhongmin 陈忠敏. 2015. Breathy voice and low tone 气嗓音与低调. Journal of Chinese Linguistics 43:90117.Google Scholar
Cheng, Chierh, and Yi, Xu. 2015. Mechanism of disyllabic tonal reduction in Taiwan Mandarin. Language and Speech 58:281314.Google Scholar
Cheng, Robert L. 1968. Tone sandhi in Taiwanese. Linguistics 41:1942.Google Scholar
Connell, Bruce, and Ladd, Robert. 1990. Aspects of pitch realisation in Yoruba. Phonology 7(1):129.Google Scholar
Crystal, David. 2008. A dictionary of linguistics and phonetics. Malden, MA: Blackwell Publishing.Google Scholar
Diehl, Randy L., and Kluender, Keith R.. 1989. On the objects of speech perception. Ecological Psychology 1(2):121–44.Google Scholar
Duanmu, San. 1994. Against contour tone units. Linguistic Inquiry 25(4):555608.Google Scholar
Franich, Kathryn. 2015. The effect of cognitive load on tonal coarticulation. In Proceedings of the 18th International Congress of Phonetic Sciences (ICPhS 2015). Glasgow.Google Scholar
Gandour, Jackson T., Potisuk, Siripong, and Dechongkit, Sumalee. 1994. Tonal coarticulation in Thai. Journal of Phonetics 22:477–92.Google Scholar
Gu, Wentao, and Lee, Tan. 2009. Effects of tone and emphatic focus on F0 contours of Cantonese speech: A comparison with standard Chinese. Chinese Journal of Phonetics 2:133–47.Google Scholar
Hombert, Jean-Marie, Ohala, John, and Ewan, William. 1979. Phonetic explanations for the development of tones. Language 55:3758.Google Scholar
Howie, J M.. 1974. On the domain of tone in Mandarin. Phonetica 30:129148.Google Scholar
Hyman, Larry, and Schuh, Russell G.. 1974. Universals of tone rules: Evidence from west Africa. Linguistic Inquiry 5:81115.Google Scholar
Klatt, Dennis H. 1976. Linguistic uses of segmental duration in English: Acoustic and perceptual evidence. Journal of the Acoustical Society of America 59:1208–21.Google Scholar
Laniran, Yetunde Olabisi, and Gerfen, Chip. 1997. High raising, downstep and downdrift in Igbo. Paper presented at the 71st Annual Meeting of the Linguistic Society of America, Chicago, IL.Google Scholar
Ladd, Robert, and Silverman, Kim. 1984. Vowel intrinsic pitch in connected speech. Phonetica 41:3140.Google Scholar
Lee, Albert, Prom-on, Santitham, and Yi, Xu. 2017. Pre-Low raising in Japanese pitch accent. Phonetica 74:231–46.Google Scholar
Lee, Albert, and Yi, Xu. 2015. Modelling Japanese intonation using PENTAtrainer2. In Proceedings of the 18th International Congress of Phonetic Sciences (ICPhS 2015), Glasgow.Google Scholar
Lee, Albert, and Yi, Xu. 2016. Effect of speech rate on Pre-Low raising in Cantonese. In Proceedings of the 5th International Symposium on Tonal Aspects of Languages (TAL 2016), 7579. Buffalo, NY.Google Scholar
Li, Yang. 2015. Tone sandhi and tonal coarticulation in Fuzhou Min. In Proceedings of the 18th International Congress of Phonetic Sciences (ICPhS 2015), Glasgow.Google Scholar
Lin, Tao. 1985. Preliminary experiments in the exploration of the nature of Mandarin neutral tone 探讨北京话轻音性质的初步实验. In Peking University working papers in phonetics 北京语音实验录, ed. Lin, Tao and Wang, Jiali, 126. Beijing: Peking University Press.Google Scholar
Liu, Fang, and Xu, Yi. 2007. The neutral tone in question intonation in Mandarin. Proceedings of Interspeech 2007, 630–633.Google Scholar
Löfqvist, Anders, and Gracco, Vincent L.. 1999. Interarticulator programming in VCV sequences: Lip and tongue movements. Journal of the Acoustical Society of America 105(3):1864–76.Google Scholar
Menzerath, Paul, and de Lacerda, Armando. 1933. Koartikulation, seuerung und lautabgrenzung, Berlin: Fred. Dummlers.Google Scholar
Peng, Shu-Hui. 1997. Production and perception of Taiwanese tones in different tonal and prosodic contexts. Journal of Phonetics 25:371400.Google Scholar
Peterson, Gordon E., and Lehiste, Ilse. 1960. Duration of syllable nuclei in English. Journal of the Acoustical Society of America 32(6):693703.Google Scholar
Prom-on, Santitham, Liu, Fang, and Yi, Xu. 2012. Post-Low bouncing in Mandarin Chinese: Acoustic analysis and computational modeling. Journal of the Acoustical Society of America 132(1):421432.Google Scholar
Prom-on, Santitham, and Yi, Xu. 2010. The qTA toolkit for prosody: Learning underlying parameters of communicative functions through modeling. In Proceedings of the 5th International Conference on Speech Prosody (SP2010), Chicago, IL.Google Scholar
Saitou, Takeshi, Unoki, Masashi, and Akagi, Masato. 2005. Development of an F0 control model based on F0 dynamic characteristics for singing-voice synthesis. Speech Communication 46(3–4):405417.Google Scholar
Sapir, Shimon. 1989. The intrinsic pitch of vowels: Theoretical, physiological, and clinical considerations. Journal of Voice 3(1):4451.Google Scholar
Shadle, Christine. 1985. Intrinsic fundamental frequency of vowels in sentence context. Journal of the Acoustical Society of America 78(5):15621567.Google Scholar
Shen, Xiaonan Susan. 1990. Tonal coarticulation in Mandarin. Journal of Phonetics 18:281295.Google Scholar
Shih, Chilin. 2000. A declination model of Mandarin Chinese. In Intonation: analysis, modelling and technology, ed. Botinis, Antonis, 243268. Dordrecht: Springer.Google Scholar
Silverman, Kim. 1986. F0 segmental cues depend on intonation: The case of the rise after voiced stops. Phonetica 43:7691.Google Scholar
Steele, Shirley A. 1986. Interaction of vowel F0 and prosody. Phonetica 43:92105.Google Scholar
Stevens, Kenneth. 1989. On the quantal nature of speech. Journal of Phonetics 17:345.Google Scholar
Tsay, Jane Su-Chuan, and Myers, James. 1996. Taiwanese tone sandhi as allomorph selection. In Proceedings of the 22nd Annual Meeting of the Berkeley Linguistics Society (BLS22), 394405. Berkeley, CA.Google Scholar
Turk, Alice, Nakai, Satsuki, and Sugahara, Mariko. 2006. Acoustic segment durations in prosodic research: A practical guide. In Methods in empirical prosody research, ed. Sudhoff, Stefan, Lenertová, Denisa, Meyer, Roland, Pappert, Sandra, Augurzky, Petra, Mleinek, Ina, Richter, Nicole, and Schließer, Johannes, 128. Berlin: Walter de Gruyter.Google Scholar
Wang, Bei, and Yi, Xu. 2011. Differential prosodic encoding of topic and focus in sentence-initial position in Mandarin Chinese. Journal of Phonetics 39: 595611.Google Scholar
Wang, Maolin, and Xiong, Wei. 2015. Downstep and pitch range of high-low tones in Chinese. International Journal of Social Science and Humanity 5:219223.Google Scholar
Wee, Lian-Hee. 2022. Tonal processes conditioned by morphosyntax. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 313335. Cambridge, UK: Cambridge University Press.Google Scholar
Westbury, John R., and Hashi, Michiko. 1997. Lip-Pellet positions during vowels and labial consonants. Journal of Phonetics 25:405419.Google Scholar
Whalen, Douglas Harry, and Levitt, Andrea G.. 1995. The universality of intrinsic F0 of vowels. Journal of Phonetics 27(2):349366.Google Scholar
Wong, Ying Wai. 2006. Realization of Cantonese rising tones under different speaking rates. In Proceedings of the 3rd International Conference on Speech Prosody (SP2006). Dresden.Google Scholar
Xu, Ching X., and Yi, Xu. 2003. Effects of consonant aspiration on Mandarin tones. Journal of the International Phonetic Association 33(2):165181.Google Scholar
Xu, Yi. 1994. Production and perception of coarticulated tones. Journal of the Acoustical Society of America 95(4): 22402253.Google Scholar
Xu, Yi. 1997. Contextual tonal variations in Mandarin. Journal of Phonetics 25(1):6183.Google Scholar
Xu, Yi. 1999. Effects of tone and focus on the formation and alignment of F0 contours. Journal of Phonetics 27(1):55105.Google Scholar
Xu, Yi. 2001. Fundamental frequency peak delay in Mandarin. Phonetica 58(1–2):2652.Google Scholar
Xu, Yi. 2020. Syllable is a synchronization mechanism that makes human speech possible. PsyArXiv. doi:10.31234/osf.io/9v4hr.Google Scholar
Xu, Yi, and Liu, Fang. 2006. Tonal alignment, syllable structure and coarticulation: Toward an integrated model. Rivista di Linguistica 18(1):125159.Google Scholar
Xu, Yi, and Prom-on, Santitham. 2019. Economy of effort or maximum rate of information? Exploring basic principles of articulatory dynamics. Frontiers in Psychology 10:2469.Google Scholar
Xu, Yi, and Sun, Xuejing. 2002. Maximum speed of pitch change and how it may relate to speech. Journal of the Acoustical Society of America 111(3):13991413.Google Scholar
Xu, Yi, and Wang, Emily. 2001. Pitch targets and their realization: Evidence from Mandarin Chinese. Speech Communication 33(4):319–37.Google Scholar
Xu, Yi, and Xu, Anqi. 2021. Consonant F0 perturbation in American English involves multiple mechanisms. Journal of the Acoustical Society of America 149(4):28772895.Google Scholar
Yip, Moira. 1995. Tone in East Asian languages. In Handbook of phonological theory, ed. Goldsmith, John A., 476494. Cambridge, MA: Blackwell.Google Scholar
Yip, Moira. 2002. Tone. Cambridge: Cambridge University Press.Google Scholar
Yip, Moira. 2004. Phonological markedness and allomorph selection in Zahao. Language and Linguistics 5(4):9691001.Google Scholar
Zhang, Caicai, and Willaim Shi, Yuan Wang. 2022. Perceptual normalization of lexical tones: Behavioral and neural evidence. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 383404. Cambridge, UK: Cambridge University Press.Google Scholar
Zhang, Jie. 2001. The effects of duration and sonority on contour tone distribution: Typological survey and formal analysis. Los Angeles, CA: University of California, Los Angeles.Google Scholar
Zhang, Jie. 2004. Contour tone licensing and contour tone representation. Language and Linguistics 5:925968.Google Scholar
Zhang, Jie. 2014. Tones, tonal phonology, and tone sandhi. In The handbook of Chinese linguistics, ed. Huang, Cheng-Teh James, Li, Yen-hui Audrey, and Simpson, Andrew, 443464. Malden, MA: Wiley-Blackwell.Google Scholar
Zhang, Jie. 2022. Tonal processes defined as tone sandhi. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 291312. Cambridge, UK: Cambridge University Press.Google Scholar
Zhang, Jie, and Liu, Jiang. 2011. Tone sandhi and tonal coarticulation in Tianjin Chinese. Phonetica 68:161191.Google Scholar
Zhu, Xiaonong 朱晓农. 2009. Phonation as the phonetic cause of tonogenesis: With special reference to the emergence of Chinese tones 声调起因于发声—兼论汉语四声的发明. Bulletin of Language Studies, Fudan University 语言研究集刊 6:129.Google Scholar

References

Ao, Benjamin Xiaoping. 1993. Phonetics and phonology of Nantong Chinese.Doctoral dissertation, The Ohio State University.Google Scholar
Bao, Zhiming. 1990. On the nature of tone. Doctoral dissertation, Massachusetts Institute of Technology.Google Scholar
Bao, Zhiming. 1999. The structure of tone. Oxford: Oxford University Press.Google Scholar
Bao, Zhiming. 2003. Tone, accent, and stress. Review of Chen (2000). Journal of Linguistics 39:147166.Google Scholar
Barrie, Michael. 2007. Contour tones and contrast in Chinese languages. Journal of East Asian Linguistics 16:337362.Google Scholar
Berko, Jean. 1958. The child’s learning of English morphology. Word 14:150177.Google Scholar
Boersma, Paul, and Hayes, Bruce. 2001. Empirical tests of the Gradual Learning Algorithm. Linguistic Inquiry 32:4586.Google Scholar
Chan, Marjorie K. M., and Ren, Hongmo. 1989. Wuxi tone sandhi: From last to first syllable dominance. Acta Linguistica Hafniensia 21:3564.Google Scholar
Chang, Yufen. 2013. First language attrition: An investigation of Taiwanese tones and tone sandhi. Doctoral dissertation, Indiana University.Google Scholar
Chao, Yuen-Ren. 1930. ə sistim əv “toun-letəz” [A system of “tone letters”]. Le Maître Phonétique 30:2427.Google Scholar
Chao, Yuen-Ren. 1951. The Cantian idiolect. University of California Publications in Semitic Philology 2:2744.Google Scholar
Chao, Yuen-Ren. 1968. A grammar of spoken Chinese. Berkeley, CA: University of California Press.Google Scholar
Chen, Jenn-Yeu and Chen, Train-Min. Forthcoming. Mechanism and locus of tone 3 sandhi during Mandarin Chinese spoken word production. Journal of Chinese Linguistics monograph series, no. 26: Studies on tonal aspects of languages.Google Scholar
Chen, Matthew Y. 1987. The syntax of Xiamen tone sandhi. Phonology Yearbook 4:109150.Google Scholar
Chen, Matthew Y. (ed.) 1987. Special feature: A symposium on Tianjin tone sandhi. Journal of Chinese Linguistics 15:203307.Google Scholar
Chen, Matthew Y. 2000. Tone sandhi: Patterns across Chinese dialects. Cambridge: Cambridge University Press.Google Scholar
Chen, Si, Zhang, Caicai, McCollum, Adam G., and Wayland, Ratree. 2017. Statistical modelling of phonetic and phonologised perturbation effects in tonal and non-tonal languages. Speech Communication 88:1738.Google Scholar
Chen, Tsung-Ying. 2010. Some remarks on Contour Tone Units. Journal of East Asian Linguistics 19:103135.Google Scholar
Chen, Yiya, Shen, Rachel, and Schiller, Niels. 2011. Representation of allophonic tone sandhi variants. In Proceedings of Psycholinguistics Representation of Tone (satellite workshop to International Congress of Phonetic Sciences).Google Scholar
Cheng, Chin-Chuan. 1973. A synchronic phonology of Mandarin Chinese.The Hague: Mouton.Google Scholar
Chien, Yu-Fu, Sereno, Joan, and Zhang, Jie. 2016. Priming the representation of Mandarin tone 3 sandhi words. Language, Cognition and Neuroscience 31(2):179189.Google Scholar
Chien, Yu-Fu, Sereno, Joan, and Zhang, Jie. 2017. What’s in a word: Observing the contribution of underlying and surface representations. Language and Speech 60(4):643657.Google Scholar
Chuang, Ching-Ting, Chang, Yueh-Chin, and Hsieh, Feng-Fan. 2011. Productivity in Taiwanese tone sandhi redux. In Proceedings of the 17th International Congress of Phonetic Sciences, Hong Kong, 492–495.Google Scholar
Clements, G. N., Michaud, Alexis, and Patin, Cédric. 2011. Do we need tone features?In Tones and features: Phonetic and phonological perspectives, ed. Goldsmith, John A., Hume, Elizabeth V., and Wetzels, Leo, 324. Berlin: Walter de Gruyter.Google Scholar
Coetzee, Andries, and Kawahara, Shigeto. 2013. Frequency biases in phonological variation. Natural Language and Linguistic Theory 31(1):4789.Google Scholar
DiCanio, Christian. 2014. Triqui tonal coarticulation and contrast preservation in tonal phonology. In Proceedings of the Workshop on the Sound Systems of Mexico and Central America, ed. Bennett, Ryan, Dockum, Rikker, Gasser, Emily, Goldenberg, Dolly, Kasak, Ryan, and Patterson, Patrick. New Haven, CT: Yale University. http://ling.yale.edu/sites/default/files/files/ssmca-proceedings/papers/DiCanio-2014-Triqui-SSMCA.pdf.Google Scholar
Duanmu, San. 1990. A formal study of syllable, tone, stress and domain in Chinese languages. Doctoral dissertation, Massachusetts Institute of Technology.Google Scholar
Duanmu, San. 1993. Rime length, stress, and association domains. Journal of East Asian Linguistics 2:144.Google Scholar
Duanmu, San. 1994a. Syllabic weight and syllabic duration: A correlation between phonology and phonetics. Phonology 11:124.Google Scholar
Duanmu, San. 1994b. Against contour tones. Linguistic Inquiry 25:555608.Google Scholar
Duanmu, San. 1999. Metrical structure and tone: Evidence from Mandarin and Shanghai. Journal of East Asian Linguistics 8:138.Google Scholar
Duanmu, San. 2007. The phonology of Standard Chinese, 2nd ed. Oxford: Oxford University Press.Google Scholar
Duanmu, San. 2009. Syllable structure: The limits of variation. Oxford: Oxford University Press.Google Scholar
Dufour, Sophie. 2008. Phonological priming in auditory word recognition: When both controlled and automatic processes are responsible for the effects. Canadian Journal of Experimental Psychology 62(1):3341.Google Scholar
Flemming, Edward, and Cho, Hyesun. 2017. The phonetic specification of contour tones: Evidence from the Mandarin rising tone. Phonology 34(1):140.Google Scholar
Frisch, Stefan A., and Zawaydeh, Bushra. 2001. The psychological reality of OCP-place in Arabic. Language 77:91106.Google Scholar
Gao, Jing. 2004. The changing sandhi rules in Tianjin dialect. In Lu, Jilun(ed.), Phonetic and phonological studies on Tianjin dialect, 193247. Beijing: Beijing Institute of Technology Press.Google Scholar
Goldwater, Sharon, and Mark, Johnson. 2003. Learning OT constraint ranking using a maximum entropy model. In Proceedings of the Stockholm Workshop on Variation within Optimality Theory, ed. Spenader, Jennifer, Eriksson, Anders, and Dahl, Osten, 111120. Stockholm: Stockholm University.Google Scholar
Hayes, Bruce, and White, James. 2015. Saltation and the P-map. Phonology 32(2):136.Google Scholar
Hayes, Bruce, Zuraw, Kie, Siptár, Péter, and Londe, Zsuzsa. 2009. Natural and unnatural constraints in Hungarian vowel harmony. Language 85:822863.Google Scholar
Hsiao, Yuchau E. 1991. Syntax, rhythm, and tone: A triangular relationship. Taipei: Crane.Google Scholar
Hsieh, Hsin-I. 1970. The psychological reality of tone sandhi rules in Taiwanese. In Papers from the 6th Meeting of the Chicago Linguistic Society, ed. Campbell, Mary Anne, 489503. Chicago, IL: Chicago Linguistic Society.Google Scholar
Hsieh, Hsin-I. 1975. How generative is phonology. In The transformational-generative paradigm and modern linguistic theory, ed. Koerner, Ernst Frideryk Konrad, 109144. Amsterdam: Benjamins.Google Scholar
Hsieh, Hsin-I. 1976. On the unreality of some phonological rules. Lingua 38:119.Google Scholar
Hsu, Hui-Chuan. 1989. Phonological acquisition of Taiwanese: A longitudinal case study. Master’s dissertation, National Tsing Hua University.Google Scholar
Jäger, Gerhard. 2007. Maximum entropy models and stochastic optimality theory. In Architectures, rules, and preferences: Variations on themes by Joan W. Bresnan, ed. Zaenen, Annie, Simpson, Jane, Holloway King, Tracy, Grimshaw, Jane, Maling, Joan, and Manning, Chris, 467479. Stanford, CA: CSLI Publications.Google Scholar
King, Brian. 1980. The acquisition of tone in Taiwanese.Master’s dissertation, Fu Jen University.Google Scholar
Kiparsky, Paul. 1973. Abstractness, opacity, and global rules. In Three dimensions of linguistic theory, ed. Fujimura, Osamu, 5786. Tokyo: TEC Company.Google Scholar
Lahiri, Aditi, Jongman, Allard, and Sereno, Joan. 1990. The pronominal clitic [dər] in Dutch: A theoretical and experimental approach. In Yearbook of morphology, vol. 3, ed. Booij, Geert E. and van Marle, Jaap, 115127. Dordrecht: Foris.Google Scholar
Li, Charles N., and Thompson, Sandra A.. 1977. The acquisition of tone in Mandarin-speaking children. Journal of Child Language 4(2):185199.Google Scholar
Li, Zhiqiang. 2003. The phonetics and phonology of tone mapping in a constraint -based approach. Doctoral dissertation, Massachusetts Institute of Technology.Google Scholar
Lin, Hui-shan. 2008. Variable directional applications in Tianjin tone sandhi. Journal of East Asian Linguistics 17:181226.Google Scholar
Lin, Jo-wan. 1994. Lexical government and tone group formation in Xiamen Chinese. Phonology 11: 237275.Google Scholar
Lin, Yen-Hwei. 2007. The sounds of Chinese. Cambridge: Cambridge University Press.Google Scholar
Lu, Jilun. (ed.) 2004. Phonetic and phonological studies on Tianjin dialect. Beijing: Beijing Institute of Technology Press.Google Scholar
Moreton, Elliott. 2004. Non-computable functions in optimality theory. In Optimality theory in phonology, ed. McCarthy, John J., 141164. Malden, MA: Wiley-Blackwell.Google Scholar
Moreton, Elliott, and Pater, Joe. 2012a. Structure and substance in artificial-phonology learning,part I: Structure. Language and Linguistic Compass 6(11):686701.Google Scholar
Moreton, Elliott, and Pater, Joe. 2012b. Structure and substance in artificial-phonology learning,part II: Substance. Language and Linguistic Compass 6(11): 702718.Google Scholar
Politzer-Ahles, Stephen, and Jie, Zhang. Forthcoming. Evidence for the role of tone sandhi in Mandarin speech production. Journal of Chinese Linguistics monograph series, no. 26: Studies on tonal aspects of languages.Google Scholar
Prince, Alan, and Smolensky, Paul. 1993/2004. Optimality theory: Constraint interaction in generative grammar.Malden, MA: Blackwell.Google Scholar
Prom-on, Santitham, Yi, Xu, and Thipakorn, Bundit. 2009. Modeling tone and intonation in Mandarin and English as a process of target approximation. Journal of the Acoustical Society of America 125:405424.Google Scholar
Selkirk, Elizabeth, and Shen, Tong. 1990. Prosodic domains in Shanghai Chinese. In The phonology–syntax connection, ed. Inkelas, Sharon and Zec, Draga, 313337. Chicago, IL: CSLI Publications.Google Scholar
Shi, Feng, and Wang, Ping. 2004. New changes in Tianjin tones 天津聲調的新變化. In The joy of research: A festschrift in honor of Professor William S.-Y. Wang on his seventieth birthday, ed. Shi, Feng and Shen, Zhongwei, 176188. Tianjin: Nankai University Press.Google Scholar
Shih, Chi-lin. 1997. Mandarin third tone sandhi and prosodic structure. In Studies in Chinese phonology, ed. Wang, Jialing and Smith, Norval, 81123. Berlin: Mouton de Gruyter.Google Scholar
Simpson, Andrew, and Zoe, Wu. 2002. IP-raising, tone sandhi and the creation of s-final particles: Evidence for Cyclic Spell-Out. Journal of East Asian Linguistics 11:145.Google Scholar
Soh, Hooi Ling. 2001. The syntax and semantics of phonological phrasing in Shanghai and Hokkien. Journal of East Asian Linguistics 10:3780.Google Scholar
Smolensky, Paul, and Legendre, Géraldine. 2006. The harmonic mind: From neural computation to Optimality-Theoretic grammar. Cambridge, MA: MIT Press.Google Scholar
Steriade, Donca. 2008. The phonology of perceptibility effects: The p-map and its consequences for constraint organization. In The nature of the word: Studies in honor of Paul Kiparsky, ed. Hanson, Kristin and Inkelas, Sharon, 151179. Cambridge, MA: MIT Press.Google Scholar
Tang, Ping, Yuen, Ivan, Rattanasone, Nan Xu, Gao, Liqun, and Demuth, Katherine. 2019. The acquisition of phonological alternations: The case of the Mandarin tone sandhi process. Applied Psycholinguistics 40:14951526.Google Scholar
Tsay, Jane. 2001. An investigation of Taiwanese tonal acquisition. In Proceedings of the Symposium on Selected NSC Projects in General Linguistics, 237255. Taipei: National Science Council.Google Scholar
Wan, I-Ping, and Jeri, Jaeger. 1998. Speech errors and the representation of tone in Mandarin Chinese. Phonology 15:417461.Google Scholar
Wang, Chiung-Yao. 2011. Children’s acquisition of tone 3 sandhi in Mandarin. Doctoral dissertation, Michigan State University.Google Scholar
Wang, H. Samuel 王旭. 1993. On the psychological status of Taiwanese tone sandhi 台語變調的心理特性. Tsinghua Journal of Chinese Studies 清華學報 23:175192.Google Scholar
Wang, Jialing王嘉齡. 2002. Optimality theory and the tone sandhi and light syllables in the Tianjin dialect 優選論和天津話的連讀變調及輕聲. Studies of the Chinese Language 中國語文 2002(4):363371.Google Scholar
Wang, Ping. 汪平. 1988. Tone sandhi in Changzhou dialect 常州方言的連讀變調. Dialects 方言 1988(3):177194.Google Scholar
Wang, William S.-Y. 1967. Phonological features of tone. International Journal of American Linguistics 33:93105.Google Scholar
Wee, Lian-Hee. 2010. A percolative account of Tianjin tone sandhi. Language and Linguistics 11:2164.Google Scholar
Wee, Lian-Hee. 2022. Tonal processes conditioned by morphosyntax. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 313335. Cambridge, UK: Cambridge University Press.Google Scholar
White, James. 2014. Evidence for a learning bias against salutatory phonological alternations. Cognition 130:96115.Google Scholar
Wilson, Colin. 2006. Learning phonology with substantive bias: An experimental and computational study of velar palatalization. Cognitive Science 30: 945982.Google Scholar
Wong, Puisan. 2012. Acoustic characteristics of three-year-olds’ correct and incorrect monosyllabic Mandarin lexical tone productions. Journal of Phonetics 40:141151.Google Scholar
Xu, Baohua and Tang, Zhenzhu 許寶華, 湯珍珠. 1988. A grammar of inner city Shanghai 上海市區方言志. Shanghai: Shanghai Educational Press.Google Scholar
Xu, Yi. 1994. Production and perception of coarticulated tones. Journal of the Acoustical Society of America 96:22402253.Google Scholar
Xu, Yi. 1998. Consistency of tone-syllable alignment across different syllable structures and speaking rates. Phonetica 55.179203.Google Scholar
Xu, Yi. 2001. Fundamental frequency peak delay in Mandarin. Phonetica 58.2652.Google Scholar
Xu, Yi. 2005. Speech melody as articulatorily implemented communicative functions. Speech Communication 46:220251.Google Scholar
Xu, Yi, and Albert, Lee. 2022. Tonal processes defined as articulatory-based contextual tonal variation. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 275290. Cambridge, UK: Cambridge University Press.Google Scholar
Yan, Hanbo. 2018. The nature of variation in tone sandhi patterns of Shanghai and Wuxi Wu.Beijing/Berlin: Peking University Press/Springer.Google Scholar
Yan, Hanbo, and Zhang, Jie. 2016. Pattern substitution in Wuxi tone sandhi and its implication for phonological learning. International Journal of Chinese Linguistics 3:145.Google Scholar
Yip, Moira. 1980/1990. The tonal phonology of Chinese.Doctoral dissertation, Massachusetts Institute of Technology. Published 1990, New York, NY: Garland Publishing.Google Scholar
Yip, Moira. 1989. Contour tones. Phonology 6:149174.Google Scholar
Yip, Moira. 1995. Tone in East Asian languages. In Handbook of theoretical phonology, ed. Goldsmith, John A., 476494. Oxford: Blackwell.Google Scholar
Yip, Moira. 1999. Feet, tonal reduction and speech rate at the word and phrase level in Chinese. In Phrasal phonology, ed. Kager, Rene and Zonneveld, Wim, 171194. Nijmegen: Nijmegen University Press.Google Scholar
Yip, Moira. 2004. Phonological markedness and allomorph selection in Zahao. Language and Linguistics 5:9691001.Google Scholar
You, Rujie 游汝杰. 2006a. On the classification and mixed nature of the Shanghai dialect 上海話在吳語分區的地位—兼論上海話的混合方言性質. Dialects 方言 2006:7278.Google Scholar
You, Rujie 游汝杰. 2006b. The social functions and harmonic coexistence of dialects and Standard Chinese 方言和普通話的社會功能與和諧發展. Rhetoric Learning 修辭學習 2006:18.Google Scholar
Yue-Hashimoto, Anne O. 1987. Tone sandhi across Chinese dialects. In Wang Li memorial volumes, English volume, ed. Chinese Language Society of Hong Kong, 445474. Hong Kong: Joint Publishing Co.Google Scholar
Zhang, Caicai, Xia, Quansheng, and Peng, Gang. 2015. Mandarin third tone sandhi requires more effortful phonological encoding in speech production: Evidence from an ERP study. Journal of Neurolinguistics 33:149162.Google Scholar
Zhang, Hongming. 1992. Topics in Chinese phrasal tonology. Doctoral dissertation, University of California, San Diego.Google Scholar
Zhang, Jie. 2007. A directional asymmetry in Chinese tone sandhi systems. Journal of East Asian Linguistics 16:259302.Google Scholar
Zhang, Jie. 2010. Issues in the analysis of Chinese tone. Language and Linguistics Compass 4(12):11371153.Google Scholar
Zhang, Jie. 2014. Tones, tonal phonology, and tone sandhi. In The handbook of Chinese linguistics, ed. James Huang, C.-T., Audrey Li, Y.-H., and Simpson, Andrew, 443464. Oxford: Wiley-Blackwell.Google Scholar
Zhang, Jie. 2016. Using nonce-probe tests and auditory priming to investigate speakers’ phonological knowledge of tone sandhi. In Proceedings of the 5th International Symposium on Tonal Aspects of Languages, ed. DiCanio, Christian, Malins, Jeff, Good, Jeff, Michelson, Karin, Jaeger, Jerri, and Keily, Holly, 1218. International Speech Communication Association (ISCA) Archives. www.isca-speech.org/archive/TAL_2016.Google Scholar
Zhang, Jie. 2019. Speakers treat transparent and opaque alternation patterns differently: Evidence from Chinese tone sandhi. In Proceedings of the 36th West Coast Conference on Formal Linguistics, ed. Stockwell, Richard, O’Leary, Maura, Xu, Zhongshi, and Zhou, Z. L., 2240. Somerville, MA: Cascadilla Proceedings Project.Google Scholar
Zhang, Jie, and Lai, Yuwen. 2010. Testing the role of phonetic knowledge in Mandarin tone sandhi. Phonology 27:153201.Google Scholar
Zhang, Jie, Lai, Yuwen, and Sailor, Craig. 2011. Modeling Taiwanese speakers’ knowledge of tone sandhi in reduplication. Lingua 121:181206.Google Scholar
Zhang, Jie, and Liu, Jiang. 2011. Tone sandhi and tonal coarticulation in Tianjin Chinese. Phonetica 68(3):161191.Google Scholar
Zhang, Jie, and Liu, Jiang. 2016. The productivity of variable disyllabic tone sandhi in Tianjin Chinese. Journal of East Asian Linguistics 25(1):135.Google Scholar
Zhang, Jie, and Meng, Yuanliang. 2016. Structure-dependent tone sandhi in real and nonce words in Shanghai Wu. Journal of Phonetics 54(1):169201.Google Scholar
Zhang, Ning. 1997. The avoidance of the third tone sandhi in Mandarin Chinese. Journal of East Asian Linguistics 6:293338.Google Scholar
Zhu, Hua, and Dodd, Barbara. 2000. The phonological acquisition of Putonghua (Modern Standard Chinese). Journal of Child Language 27:342.Google Scholar
Zhu, Xiaonong. 2006. A grammar of Shanghai Wu. Munich: Lincom Europa.Google Scholar
Zuraw, Kie. 2000. Patterned exceptions in phonology. Doctoral dissertation, University of California, Los Angeles.Google Scholar
Zuraw, Kie. 2007. The role of phonetic knowledge in phonological patterning: Corpus and survey evidence from Tagalog infixation. Language 83(2):7397.Google Scholar
Zuraw, Kie. 2010. A model of lexical variation and the grammar with application to Tagalog nasal substitution. Natural Language and Linguistic Theory 28(2):417472.Google Scholar

References

Bao, Zhiming. 1999. The structure of tone. New York, NY: Oxford University Press.Google Scholar
Chao, Yuen-Ren. 1930. A system of tone letters. La Maître Phonétique 45:2427.Google Scholar
Chen, Matthew Y.. 1987. The syntax of Xiamen tone sandhi. Phonology Yearbook 4:109149.Google Scholar
Chen, Matthew Y.. 2000. Tone sandhi: Patterns across Chinese dialects. Cambridge: Cambridge University Press.Google Scholar
Chen, Yiya. 2022. Tone and Intonation. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 336360. Cambridge, UK: Cambridge University Press.Google Scholar
Cheng, Chin-Chuan. 1973. A synchronic phonology of Mandarin Chinese. The Hague: Mouton.Google Scholar
Feng, Shengli 馮勝利. 2015. Tone, intonation and sentence-final particles in Chinese 聲調、語調與漢語的句末語氣. Essays on Linguistics 語言學論叢 51(1):5279.Google Scholar
Goldsmith, John. 1976/1979. Autosegmental phonology. Doctoral dissertation, Massachusetts Institute of Technology. Published 1979, New York, NY: Garland.Google Scholar
Gussenhoven, Carlos. 2004. The phonology of tone and intonation. Cambridge: Cambridge University Press.Google Scholar
Hirayama, Hisao 平山久雄. 1998. On the pre-neutral tone sandhi in Shandong from the perspective of diachronic change 從聲調調值演變史的觀點論山東方言的輕聲前變調. Fangyan 方言 1998(1):713.Google Scholar
Hou, Dianfeng. 2015. The phonology of circular chain shifts: A case study of tone sandhis in Jinan Chinese. Master’s dissertation, Nankai University.Google Scholar
Hsiao, Yuchau E.. 1991. Syntax, rhythm and tone: A triangular relationship. Taipei: Crane Publishing.Google Scholar
Hsiao, Yuchau E. 2015. Tonal chain shifts in Taiwanese: A comparative markedness approach. In Capturing phonological shades within and across languages, ed. Hsiao, Yuchau E. and Wee, Lian-Hee, 142165. Newcastle upon Tyne: Cambridge Scholars Publishing.Google Scholar
Hsu, Yu-Yin, Anqi, Xu, and Hang, Ngai. 2018. Focus prosody in Cantonese and Teochew noun phrases. In Proceedings of the 9th International Conference on Speech Prosody, Poznan, Poland, 961–965. www.researchgate.net/publication/325744449_Focus_Prosody_in_Cantonese_and_Teochew_Noun_Phrases.Google Scholar
Kaisse, Ellen. 1985. Connected speech: The interaction of syntax and phonology. Orlando, FL: Academic Press.Google Scholar
Leben, Will. 1973. Suprasegmental phonology. Doctoral dissertation, Massachusetts Institute of Technology.Google Scholar
Lee, Wai Sum. 2003. A phonetic study of the neutral tone in Beijing Mandarin. Proceedings of the 15th International Congress of Phonetic Sciences (ICPhS-15), Barcelona, Spain, 1121–1124. www.internationalphoneticassociation.org/icphs/icphs2003.Google Scholar
Lin, Hui-shan. 2015. Chengdu reduplication: An optimality theoretic analysis. Language and Linguistics 16(6):843872.Google Scholar
Lin, Jo-wan.1994. Lexical government and tone group formation in Xiamen Chinese. Phonology 11(2):237275.Google Scholar
Lin, Maocan, and Yan, Jingzhu 林茂燦, 顏景助. 1980. The acoustic properties of the light tone in Beijing 北京話輕聲的聲學性質. Fangyan 方言 1980(3):166178Google Scholar
Ling, Wang-chen. 2015. Circular tonal chain shifts in Jiaoxian compound words. Language and Linguistics 16(6):873890.Google Scholar
Łubowicz, Anna. 2003. Contrast preservation in phonological mapping. Doctoral dissertation, University of Massachusetts Amherst.Google Scholar
Łubowicz, Anna. 2012. The phonology of contrast. Sheffield: Equinox.Google Scholar
Mathews, Stephen, and Yip, Virginia. 1994. Cantonese: A comprehensive grammar. London: Routledge.Google Scholar
Nespor, Marina, and Irene, Vogel. 1986. Prosodic phonology. Dordrecht: Foris.Google Scholar
Packard, Jerome. 1998. A lexical phonology of Mandarin Chinese. In New approaches to Chinese word formation: Morphology, phonology, and the lexicon in modern and Ancient Chinese, ed. Packard, Jerome, 311328. Berlin: Mouton.Google Scholar
Pham, Andrea Hoa. 2003. Vietnamese tone: A new analysis. New York, NY: Routledge.Google Scholar
Selkirk, Elisabeth. 1984. Phonology and syntax: The relationship between sound and structure. Cambridge, MA: MIT Press.Google Scholar
Selkirk, Elisabeth, and Lee, Seunghun. 2015. Constituency in sentence phonology: An introduction. Phonology 32:115.Google Scholar
Selkirk, Elisabeth, and Shen, Tong. 1990. Prosodic domains in Shanghai Chinese. In The phonology–syntax connection, eds Inkelas, Sharon and Zec, Draga, 313337. Chicago, IL: University of Chicago Press.Google Scholar
Shi, Rujie 石汝傑. 1988. On light tones 説輕聲. Studies in Language and Linguistics 語言研究 1988(1):98109.Google Scholar
Shih, Chi-lin. 1986. The prosodic domain of tone sandhi in Chinese. Doctoral dissertation, University of California San Diego.Google Scholar
Shih, Chi-lin. 2008. Linking phonology and phonetics: An implementation model of tones. In Interfaces in Chinese phonology, ed. Hsiao, Yuchau E., Hsu, Hui-chuan, Wee, Lian-Hee, and Ho, Dah-an, 99120. Taipei: Institute of Linguistics, Academia Sinica.Google Scholar
Teaching and Research Office of Chinese Linguistics, Department of Chinese Language and Literature, Peking University 北京大學中國語言文學系語言學教研室. 1995. A lexicon of Han-Chinese dialects 漢語方言詞彙. Beijing: Language and Culture Press.Google Scholar
Thomas, Guillaume. 2008. An analysis of the Xiamen tone circle. In Proceedings of the 27th West Coast Conference on Formal Linguistics, ed. Abner, Natasha and Bishop, Jason, 422430. Somerville, MA: Cascadilla Proceedings Project.Google Scholar
Truckenbrodt, Hubert. 1999. On the relation between syntactic phrases and phonological phrases. Linguistic Inquiry 30(2):219255.Google Scholar
Wagner, Michael. 2010. Prosody and recursion in coordinate structures and beyond. Natural Language and Linguistic Theory 28:183237.Google Scholar
Wang, Bei, Ling, Wang, and Tursun, Qadir. 2011. Prosodic encoding of focus in six languages/dialects in China. Proceedings of the 17th International Congress of Phonetic Sciences (ICPhS-17), Hong Kong, 144–147. www.researchgate.net/publication/286669759_Prosodic_encoding_of_focus_in_six_languagesdialects_in_China.Google Scholar
Wang, Jialing 王嘉齡. 2002. An optimality theoretic analysis of three dialects 三種方言輕聲的優選論分析. Linguistic Sciences 語言科學 2002(1):7885.Google Scholar
Wang, William S.-Y. 1967. Phonological features of tone. International Journal of American Linguistics 33(2):93105.Google Scholar
Wang, William. S.-Y., and Li, Kung-Pu. 1967. Tone 3 in Pekingese. Journal of Speech and Hearing Research 10:629636.Google Scholar
Wakefield, John. 2011. The English equivalents of Cantonese sentence-final particles: A contrastive analysis. Doctoral dissertation, Hong Kong Polytechnic University. http://theses.lib.polyu.edu.hk/handle/200/6084.Google Scholar
Wakefield, John. 2020.Intonational morphology. Singapore: Springer.Google Scholar
Wee, Lian-Hee. 2004. Inter-tier correspondence theory. Doctoral dissertation, Rutgers University.Google Scholar
Wee, Lian-Hee. 2010. A percolative account of Tianjin tone sandhi. Language and Linguistics 11(1):2164.Google Scholar
Wee, Lian-Hee. 2020. A spin to preserve contrast: Taiwanese tone sandhi. Stellenbosch Papers in Linguistics (SPiL Plus) 60:1329.Google Scholar
Wee, Lian-Hee, Xiuhong, Yan, and Chen, Matthew 黃良喜, 嚴修鴻, 陳淵泉. 2005. Conundrums and directions: On tone sandhi in the Tianjin dialect 疑難與路向 : 論天津方言的連讀變調). Beijing: Commercial Press.Google Scholar
Wei, Gangqiang 魏剛強. 2000. Lightness in tone value and lightness in tone category 調值的輕聲和調類的輕聲. Fangyan 方言 2000(1):2029.Google Scholar
Xu, Yi. 1993. Contextual tonal variation in Mandarin Chinese. Doctoral dissertation, University of Connecticut.Google Scholar
Xu, Yi. 1997. Contextual tonal variations in Mandarin. Journal of Phonetics 25:6183.Google Scholar
Xu, Yi. 1999. Effects of tone and focus on the formation and alignment of f0 contours, Journal of Phonetics 27:55105.Google Scholar
Xu, Yi, and Albert, Lee. 2022. Tonal processes defined as articulatory-based contextual tonal variation. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 275290. Cambridge, UK: Cambridge University Press.Google Scholar
Yip, Moira. 1980. The tonal phonology of Chinese. Doctoral dissertation, Massachusetts Institute of Technology. Published 1991, New York, NY: Garland Publishing.Google Scholar
Yip, Moira. 1995. Tone in East Asian languages. In The handbook of phonological theory, ed. Goldsmith, John, 476494 Oxford: Blackwell.Google Scholar
Zhang, Caicai, and William Shi, Yuan Wang. 2022. Perceptual normalization of lexical tones: Behavioral and neural evidence. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 383404. Cambridge, UK: Cambridge University Press.Google Scholar
Zhang, Hongming. 2017. Syntax–phonology interface: Argumentation from tone sandhi in Chinese dialects. New York, NY: Routledge.Google Scholar
Zhang, Jie. 2002. The effects of duration and sonority on contour tone distribution: A typological survey and formal analysis. New York, NY: Routledge.Google Scholar
Zhang, Jie. 2022. Tonal processes defined as tone sandhi. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 291312. Cambridge, UK: Cambridge University Press.Google Scholar
Zhan, Weidong, and Xiaojing, Bai. 2022. Parts of speech in Chinese and how to identify them. In The Cambridge handbook of Chinese linguistics, ed. Huang, Chu-Ren, Lin, Yen-Hwei, Chen, I-Hsuan, and Hsu, Yu-Yin, 97113. Cambridge, UK: Cambridge University Press.Google Scholar
Zhang Xiao-yu 張孝裕. 1977. Minimal pairs of tonal reduction 輕聲辨義舉例. Taiwan: Xuehai Chubanshe.Google Scholar

References

Austin, John Langshaw. 1962. How to do things with words. Cambridge, MA: Harvard University Press.Google Scholar
Bauer, Robert S., and Benedict, Paul K.. 1997. Modern Cantonese phonology. Berlin: Mouton de Gruyter.Google Scholar
Cao, Jianfeng. 2002. The relationship between tone and intonation in Mandarin Chinese. Chinese Language 3:195202.Google Scholar
Cao, Wen 曹文. 2010. The prosodic realization of Chinese focus 汉语焦点重音的韵律实现. Beijing: Beijing Language and Cultural University Press.Google Scholar
Chao, Yuen Ren 赵元任. 1929. On intonation in Beijing Mandarin 北平语调和声调. In Chao Yuen Ren’s linguistic papers 赵元任语言学论文集, ed. Wu, Zongji and Zhao, Xinna 吴宗济,赵新娜, 253271. Beijing: Commercial Press.Google Scholar
Chao, Yuen Ren. 1933. Tone and intonation in Chinese. Bulletin of the Institute of History and Philology 4:121134.Google Scholar
Chao, Yuen Ren. 1968. A grammar of spoken Chinese. Berkeley, CA: University of California Press.Google Scholar
Chang, Nien Chuang T. 1958. Tones and intonation in Chengdu dialect (Szechuan, China). Phonetica 2:5985.Google Scholar
Cheang, Henry S., and Pell, Marc D.. 2009. Acoustic markers of sarcasm in Cantonese and English. Journal of the Acoustical Society of America 126:13941405.Google Scholar
Cheang, Henry S., and Pell, Marc D.. 2011. Recognizing sarcasm without language: A cross-linguistic study of English and Cantonese. Pragmatics & Cognition 19:203223.Google Scholar
Chen, Lijing, Li, Xingshan, and Yang, Yufang. 2012. Focus, newness, and their combination: Processing of information structure in discourse. PLoS One 7:42533.Google Scholar
Chen, Lijing, Wang, Lin, and Yang, Yufang. 2014. Distinguish between focus and newness: An ERP study. Journal of Neurolinguistics 31:2841.Google Scholar
Chen, Ying, Yi, Xu, and Guion-Anderson, Susan. 2014. Prosodic realization of focus in bilingual production of Southern Min and Mandarin. Phonetica 71:249270.Google Scholar
Chen, Yiya. 2003. The phonetics and phonology of contrastive focus in Standard Chinese. Doctoral dissertation, Stony Brook University.Google Scholar
Chen, Yiya. 2006. Durational adjustment under corrective focus in standard Chinese. Journal of Phonetics 34:176201.Google Scholar
Chen, Yiya. 2008. The acoustic realization of vowels of Shanghai Chinese. Journal of Phonetics 36:629648.Google Scholar
Chen, Yiya. 2009. Prosody and information structure mapping: Evidence from Shanghai Chinese. Chinese Journal of Phonetics 2:123133.Google Scholar
Chen, Yiya. 2010. Post-focus f0 compression: Now you see it, now you don’t. Journal of Phonetics 38:517525.Google Scholar
Chen, Yiya. 2012. Message-related variation. In The Oxford handbook of laboratory phonology, ed. Cohn, Abby, Fourgeron, Cecile, and Huffman, Marie K., 103115. Oxford: Oxford University Press.Google Scholar
Chen, Yiya and Braun, Bettina. 2006. Prosodic realization of information structure categories in Standard Chinese. Speech Prosody 2006:54.Google Scholar
Chen, Yiya, and Gussenhoven, Carlos. 2008. Emphasis and tonal implementation in Standard Chinese. Journal of Phonetics 36:724746.Google Scholar
Chen, Yiya and He, Agnes Weiyun. 2001. Dui bu dui as a pragmatic marker: Evidence from Chinese classroom discourse. Journal of Pragmatics 33: 14411465.Google Scholar
Chen, Yiya, Lee, Pepina, and Pan, Haihua. 2016. Focus and topic marking in Chinese. In The Oxford handbook of information structure, ed. Féry, Caroline and Ishihara, Shinichiro, 733752. Oxford: Oxford University Press.Google Scholar
Cheng, Lisa Lai-Shen. 1991. On the typology of WH-questions. Doctoral dissertation, MIT.Google Scholar
Connell, Bruce A., Hogan, John T., and Rozsypal, Anton J.. 1983. Experimental evidence of interaction between tone and intonation in Mandarin Chinese. Journal of Phonetics 11:337351.Google Scholar
Cruttenden, Alan. 1997. Intonation. Cambridge: Cambridge University Press.Google Scholar
Féry, Caroline. 2016. Intonation and prosodic structure. Cambridge: Cambridge University Press.Google Scholar
Féry, Caroline, and Ishihara, Shinichiro. (eds.) 2016. The Oxford handbook of information structure. Oxford: Oxford University Press.Google Scholar
Gårding, Eva, Zhang, Jialu, and Svantesson, Jan-Olof. 1983. A generative model for tone and intonation in standard Chinese based on data from one speaker. Lund Working Papers 25:5365.Google Scholar
Gårding, Eva. 1987. Speech act and tonal pattern in Standard Chinese: Constancy and variation. Phonetica 44:1329.Google Scholar
Grice, Paul. 1957. Meaning. The Philosophical Review 66:377388.Google Scholar
Gu, Wentao, Hirose, Keikichi, and Fujisaki, Hiroya. 2005. Analysis of the effects of word emphasis and echo question on f0 contours of Cantonese utterances. In Proceedings of INTERSPEECH 2005, Portugal, 1825–1828.Google Scholar
Gu, Wentao, Zhang, Ting, and Fujisaki, Hiroya. 2011. Prosodic analysis and perception of Mandarin utterances conveying attitudes. In Proceedings of INTERSPEECH 2011, Florence, 1069–1072.Google Scholar
Gussenhoven, Carlos. 2004. The phonology of tone and intonation. Cambridge: Cambridge University Press.Google Scholar
Gussenhoven, Carlos. 2016. Foundations of intonational meaning: Anatomical and physiological factors. Topics in Cognitive Science 8:425434.Google Scholar
Gussenhoven, Carlos, and Aoju, Chen. 2000. Universal and language-specific effects in the perception of question intonation. In Proceedings of the 6th International Conference on Spoken Language Processing (ICSLP 2000), Beijing, 91–94.Google Scholar
Gussenhoven, Carlos, Chen, Yiya, Frota, Sónia, and Prieto, Pilar. 2013. Intonation. In Oxford bibliographies in linguistics, ed. Aronoff, Mark. New York, NY: Oxford University Press.Google Scholar
He, Yang and Jing, Song 贺阳, 劲松. 1992. An experimental exploration of intonation in Beijing Mandarin 北京话语调的试验探索. Language Teaching and Research 语言教学与研究 2:7196.Google Scholar
Ho, Aichen T. 1977. Intonation variation in a Mandarin sentence for three expressions: Interrogative, exclamatory, and declarative. Phonetica 34:446457.Google Scholar
Hu, Mingyang 胡明扬. 1987. On Beijing Mandarin 北京话初探. Beijing: Commercial Press.Google Scholar
Jiang, Ping, and Chen, Aishu. 2016. Representation of Mandarin intonation: Boundary tone revisited. In Proceedings of the 23rd North American Conference on Chinese Linguistics, Eugene, 97–109.Google Scholar
Jin, Shunde. 1996. An acoustic study of sentence stress in Mandarin Chinese. Doctoral dissertation, The Ohio State University.Google Scholar
Krifka, Manfrid. 2008. Basic notions of intonation structure. Acta Linguistica Hungarica 55:243276.Google Scholar
Kuang, Jianjing. 2017. Creaky voice as a function of tonal categories and prosodic boundaries. Proceedings of INTERSPEECH 2017, 1350–1354.Google Scholar
Kung, Carmen, Chwilla, Dorothee, and Schriefers, Herbert. 2014. The interaction of lexical tone, intonation and semantic context in online spoken word recognition: An ERP study on Cantonese Chinese. Neuropsychologia 53:293309.Google Scholar
Lee, Ok Joo. 2000. The pragmatics and intonation of Ma-particle questions in Mandarin. Master’s thesis, The Ohio State University.Google Scholar
Lee, Ok Joo. 2005. The prosody of questions in Beijing Mandarin. Doctoral dissertation, The Ohio State University.Google Scholar
Lee, Yong-Cheo, Wang, Ting, and Liberman, Mark. 2016. Production and perception of tone 3 focus in Mandarin Chinese. Frontiers in Psychology 7:1058.Google Scholar
Levow, Gina. 2004. Prosody-based topic segmentation for mandarin broadcast news. In Proceedings of HLT-NAACL 2004, Boston, 137–140.Google Scholar
Levow, Gina. 2005. Turn-taking in Mandarin dialogue: Interactions of tones and intonation. In Proceedings of the Fourth SIGHAN Workshop, Jeju Island, 72–78.Google Scholar
Li, Aijun, and Wang, Haibo. 2004. Friendly speech analysis and perception in Standard Chinese. In Proceedings of the Eighth International Conference on Spoken Language Processing (ICSLP), Jeju, 897–900.Google Scholar
Li, Boya. 2006. Chinese final particles and the syntax of the periphery. Doctoral dissertation, Leiden University.Google Scholar
Li, Charles N., and Thompson, Sandra A.. 1981. Mandarin Chinese: A functional reference grammar. Berkeley, CA: California University Press.Google Scholar
Li, Aijun, Fang, Qiang, and Dang, Jianwu. 2011. Emotional intonation in a tone language: Experimental evidence from Chinese. In Proceedings of the 17th International Congress of Phonetic Sciences (ICPhS XVII), Hong Kong, 17–21.Google Scholar
Li, Xiaoqing, and Chen, Yiya. 2015. Representation and processing of lexical tone and tonal variants: Evidence from the Mismatch NegativityPLoS ONE 10: e0143097.Google Scholar
Li, Xiaoqing, Chen, Yiya, and Yang, Yufang. 2011. Immediate integration of different types of prosodic information during online spoken language comprehension: An ERP study. Brain Research 1386:139152.Google Scholar
Li, Weijun, and Yang, Yufang. 2009. Perception of prosodic hierarchical boundaries in Mandarin Chinese sentences. Neuroscience 158:1416.Google Scholar
Li, Xiaoqing and Chen, Yiya. 2018. Pre-attentive processing of hierarchical pitch variations in spoken sentences. Brain and Language 183:2131.Google Scholar
Li, Xiaoqing, Yang, Yufang, and Hagoort, Peter. 2008. Pitch accent and lexical tone processing in Chinese discourse comprehension: An ERP studyBrain Research 1222:192200.Google Scholar
Lin, Maocan 林茂灿. 2004. Chinese intonation and tone 汉语语调和声调. Applied Linguistics 语言文字应用 3:5767.Google Scholar
Lin, Maocan 林茂灿. 2006. Interrogative vs. declarative and boundary tone 疑问和陈述语气与边界调. Studies of the Chinese Language 中国语文 4:364376.Google Scholar
Ling, Bijun, and Liang, Jie. 2017. Focus encoding and prosodic structure in Shanghai Chinese. Journal of Acoustical Society of America 141:EL610.Google Scholar
Liu, Fang, and Yi, Xu. 2005. Parallel encoding of focus and interrogative meaning in Mandarin intonation. Phonetica 62:7087.Google Scholar
Liu, Min, Chen, Yiya, and Schiller, Niels. 2016a. Context effects on tone and intonation processing in Mandarin. In Proceedings of Speech Prosody 2016, Boston, 1056–1060.Google Scholar
Liu, Min, Chen, Yiya, and Schiller, Niels. 2016b. Online processing of tone and intonation in Mandarin: Evidence from ERPs. Neuropsychologia 91:307317.Google Scholar
Liu, Pan, and Pell, Marc. 2012. Recognizing vocal emotions in Mandarin Chinese: A validated database of Chinese vocal stimuli. Behavior Research Methods 44:10421051.Google Scholar
Lu, Yan, Véronique, Aubergé, and Albert, Rilliard. 2012. Do you hear my attitude? Prosodic perception of social affect in Mandarin. In Proceedings of Speech Prosody 2012, Shanghai, 685–688.Google Scholar
Ma, Joan, Ciocca, Valter, and Whitehill, Tara. 2006. Effect of intonation on Cantonese lexical tones. Journal of the Acoustical Society of America 120:39783987.Google Scholar
Ma, Joan, Ciocca, Valter, and Whitehill, Tara. 2011. The perception of intonation questions and statements in Cantonese. Journal of the Acoustical Society of America 129:10121023.Google Scholar
Mann, William C., and Thompson, Sandra A.. 1988. Rhetorical structure theory: Toward a functional theory of text organization. Text 8:243281.Google Scholar
Mueller-Liu, Patricia. 2006. Signalling affect in Mandarin Chinese: The role of utterance-final non-lexical edge tones. In Proceedings of Speech Prosody 2006, Dresden, Paper 48.Google Scholar
Nolan, Francis. 2006. Intonation. In Handbook of English linguistics, ed. Aarts, Bas, McMahon, April, and Hinrichs, Lars, 385405. Oxford: Blackwell.Google Scholar
Ouyang, Iris Chuoying, and Kaiser, Elsi. 2013. Prosody and information structure in a tone language: An investigation of Mandarin Chinese. Language and Cognitive Processes 30(1–2):5772.Google Scholar
Ohala, John. 1983. Cross-language uses of pitch. Phonetica 40:118.Google Scholar
Ohala, John. 1984. An ethological perspective on common cross-language utilization of F0 of Voice. Phonetica 41:116.Google Scholar
Pan, Ho-Hsien. 2007. Focus and Taiwanese unchecked tones. In Topic and focus: Cross-linguistic perspectives on meaning and intonation, ed. Lee, Chungmin, Gordon, Matthew, and Büring, Daniel, 195213. Dordrecht: Springer.Google Scholar
Paulmann, Silke, and, Uskul, Ayse K.. 2014. Cross-cultural emotional prosody recognition: Evidence from Chinese and British listeners. Cognition and Emotion 28:230244.Google Scholar
Pell, Marc D. 2006. Judging emotion and attitudes from prosody following brain damage. Progress in Brain Research 156:303317.Google Scholar
Pell, Marc D., Paulmann, Silke, Dara, Chinar, Alasseri, Areej, and Kotz, Sonia A.. 2009. Factors in the recognition of vocally expressed emotions: A comparison of four languages. Journal of Phonetics 37(4):417435.Google Scholar
Peng, Shu-hui, Marjorie, K. M. Chan, Chiu-yu, Tseng, Tsan, Huang, Ok Joo, Lee, and Mary E, Beckman. 2005. Towards a Pan-Mandarin system for prosodic transcription. In Prosodic typology: The phonology of intonation and phrasing, ed. Jun, Sun-Ah, 230270. Oxford: Oxford University Press.Google Scholar
Ren, Guiqin, Tang, Yiyuan, Li, Xiaoqing, and Sui, Xue. 2013. Pre-attentive processing of Mandarin tone and intonation: Evidence from event-related potentials. In Functional brain mapping and the endeavor to understand the working brain, ed. Signorelli, Francesco and Chirchiglia, Domenico, 95108. BoD–Books on Demand.Google Scholar
Ren, Guiqin, Yang, Yufang, and Li, Xiaoqing. 2009. Early cortical processing of linguistic pitch patterns as revealed by the mismatch negativity. Neuroscience 162:8795.Google Scholar
Rialland, A. 2007. Question prosody: an African perspective. In Tones and tunes. Volume 1: Typological studies in word and sentence prosody, ed. Riad, Tomas and Gussenhoven, Carlos, 3563. Berlin: Mouton de Gruyter.Google Scholar
Scherer, Klaus, Rainer Banse, R., and Wallbott, Harald G.. 2001. Emotion inferences from vocal expression correlate across languages and cultures. Journal of Cross-Cultural Psychology 32:7692.Google Scholar
Scholz, Franziska. 2012. Tone sandhi, prosodic phrasing, and focus marking in Wenzhou Chinese. Doctoral dissertation, Leiden University.Google Scholar
Scholz, Franziska, and Chen, Yiya. 2014. The independent effects of prosodic structure and information status on tonal coarticulation: Evidence from Wenzhou Chinese. In Above and beyond the segments: Experimental linguistics and phonetics, ed. Caspers, Johanneke, Chen, Yiya, Heeren, Willemijn, Pacilly, Jos, Schiller, Niels O., and van Zanten, Ellen, 275287. Amsterdam: Benjamins.Google Scholar
Searle, John R. 1969. Speech acts: An essay in the philosophy of language. Cambridge: Cambridge University Press.Google Scholar
Selkirk, Elizabeth, and Shen, Tong. 1990. Prosodic domain in Shanghai Chinese. In The phonology–syntax connection, ed. Inkelas, Sharon and Zec, Draga, 313338. Chicago, IL: The University of Chicago Press.Google Scholar
Shattuck-Hufnagel, Stefanie, and Turk, Alice E.. 1996. A prosody tutorial for investigators of auditory sentence processing. Journal of Psycholinguistic Research 25:193247.Google Scholar
Shen, Chen, and Yi, Xu. 2016. Prosodic focus with post-focus compression in Lan-Yin Mandarin. In Proceedings of Speech Prosody 2016, Boston, 340–344.Google Scholar
Shen, Jong. 1992. On Chinese intonation models. Chinese Studies 4:1624.Google Scholar
Shen, Xiaonan. 1989. The prosody of Mandarin Chinese. Berkeley, CA: University of California Press.Google Scholar
Shih, Chilin. 1988. Tone and intonation in Mandarin. Working papers of the Cornell Phonetics Laboratory 3: Stress, tone and intonation. Ithaca, NY: Cornell University.Google Scholar
Speer, Shari. R., Shih, Chilin, and Slowiaczek, Maria L.. 1989. Prosodic structure in language understanding: Evidence from tone sandhi in Mandarin. Language and Speech 32:337354.Google Scholar
Tseng, Chiu-yu, Pin, Shao-huang, Lee, Yehlin, Wang, Hsin-min, and Chen, Yong-cheng. 2005. Fluent speech prosody: Framework and modeling. Speech Communication 46: 284309.Google Scholar
Vance, Timothy J. 1976. An experimental investigation of tone and intonation in Cantonese. Phonetica 33:368392.Google Scholar
Wang, Bei, Ling, Wang, and Tursun, Qadir. 2011. Prosodic realization of focus in six languages/dialects in China. In Proceedings of the 17th International Congress of Phonetic Sciences (ICPhS XVII), Hong Kong, 144–147.Google Scholar
Wang, Bei, and Yi, Xu. 2011. Differential prosodic encoding of topic and focus in sentence-initial position in Mandarin Chinese. Journal of Phonetics 37:502520.Google Scholar
Wang, Ping, and Shi, Feng 王萍, 石锋. 2011. Intonation patterns 汉语语调的基本模式. Nankai Journal of Language 南开大学学报 2:111.Google Scholar
Whalen, Doug H., and Yi, Xu. 1992. Information for Mandarin tones in the amplitude contour and in brief segments. Phonetica 49:2547.Google Scholar
Wichmann, Anne. 2000. The attitudinal effects of prosody, and how they relate to emotion. In SpeechEmotion-2000, Newcastle, Northern Ireland, 143–148.Google Scholar
Wu, Weiling, and Yi, Xu. 2010. Prosodic focus in Hong Kong Cantonese without post-focus compression. In Proceedings of Speech Prosody 2010, Chicago, Paper 040.Google Scholar
Wu, Zongji 吴宗济.1982. Tonal changes in Mandarin sentences 普通话语句中的声调变化. Studies of the Chinese Language 中国语文 171:439449.Google Scholar
Xu, Bo, and Mok, Peggy. 2011. Final rising and global raising in Cantonese intonation. Proceedings of the 17th International Congress of Phonetic Sciences (ICPhS), Hong Kong, 2173–2176.Google Scholar
Xu, Liejiong. 2006. Topicalization in Asian languages. In The Blackwell companion to syntax, vol. 5, ed. Everaert, Martin and van Riemsdijk, Henk, 137174. Oxford: Blackwell.Google Scholar
Xu, Yi. 1994. Production and perception of coarticulated tones. Journal of the Acoustical Society of America 95:22402253.Google Scholar
Xu, Yi. 1999. Effects of tone and focus on the formation and alignment of f0 contours. Journal of Phonetics 27:55105.Google Scholar
Xu, Yi. 2005. Speech melody as articulatorily implemented communicative functions. Speech Communication 46:220251.Google Scholar
Xu, Yi, and Prom-on, Santitham. 2014. Toward invariant functional representations of variable surface fundamental frequency contours: Synthesizing speech melody via model-based stochastic learning. Speech Communication 57:181208.Google Scholar
Xu, Yi, Chen, Szu-wei, and Wang, Bei. 2012. Prosodic focus with and without post-focus compression (PFC): A typological divide within the same language family? The Linguistic Review 29:131147.Google Scholar
Xu, Yi, Kelly, Andrew, and Smillie, Cameron. 2013. Emotional expressions as communicative signals. In Prosody and iconicity, ed. Hancil, Sylvie and Hirst, Daniel, 3360. Philadelphia, PA: Benjamins.Google Scholar
Xu, Yi and Xu, Ching. 2005. Phonetic realization of focus in English declarative intonation. Journal of Phonetics 33:159197.Google Scholar
Xu, Yi, Xueching, Xu, and Xiejing, Sun. 2004. On the temporal domain of focus. International Conference on Speech Prosody 2004, Nara, 81–84.Google Scholar
Yuan, Jiahong. 2004. Intonation in Mandarin Chinese: Acoustics, perception, and computational modeling. Doctoral dissertation, Cornell University.Google Scholar
Yuan, Jiahong. 2011. Perception of intonation in Mandarin Chinese. The Journal of the Acoustical Society of America 130:40634069.Google Scholar
Yuan, Jiahong and Chen, Yiya. 2014. 3rd tone sandhi in Standard Chinese: A corpus approach. Journal of Chinese Linguistics 42:218237.Google Scholar
Yuan, Jiahong, Chilin, Shih, and Greg P., Kochanski. 2002. Comparison of declarative and interrogative intonation in Chinese. In Proceedings of Speech Prosody 2002, Aix-en-Provence, 711–714.Google Scholar
Yang, Xiaohong, and Yang, Yufang. 2012. Prosodic realization of rhetorical structure in Chinese discourse. IEEE Transactions on Audio, Speech, and Language Processing 20:11961206.Google Scholar

References

Baayen, R. Harald, Piepenbrock, Richard, and Gulikers, Leon.. 1995. The CELEX lexical database: Release 2 (CD-ROM). Philadelphia, PA: Linguistic Data Consortium, University of Pennsylvania.Google Scholar
Bolinger, Dwight. 1958. A theory of pitch accent in English. Word 14(2–3):109149.Google Scholar
Cao, Wen 曹文. 2002. A course in Chinese phonetics 汉语语音教程. Beijing: Beijing Language and Culture University Press.Google Scholar
Chao, Yuen-Ren. 1933. Tone and intonation in Chinese. Bulletin of the Institute of History and Philology, Academia Sinica 4(2):121134.Google Scholar
Chao, Yuen-Ren. 1968. A grammar of spoken Chinese. Berkeley, CA: University of California Press.Google Scholar
Cheng, Chin-Chuan. 1968. English stress and Chinese tones in Chinese sentences. Phonetica 18:7788.Google Scholar
Chomsky, Noam, and Halle, Morris. 1968. The sound pattern of English. New York, NY: Harper and Row.Google Scholar
Dong, Yan. 2015. The prosody and morphology of elastic words in Chinese: annotations and analyses. Doctoral dissertation, University of Michigan.Google Scholar
Duanmu, San. 1994. Syllabic weight and syllabic durations: A correlation between phonology and phonetics. Phonology 11(1):124.Google Scholar
Duanmu, San. 1999. Metrical structure and tone: Evidence from Mandarin and Shanghai. Journal of East Asian Linguistics 8(1):138.Google Scholar
Duanmu, San. 2007. The phonology of Standard Chinese, 2nd ed. Oxford: Oxford University Press.Google Scholar
Duanmu, San. 2008. Syllable structure: The limits of variation. Oxford: Oxford University Press.Google Scholar
Eady, Stephen J., and Cooper, William E.. 1986. Speech intonation and focus location in matched statements and questions. Journal of the Acoustical Society of America 80(5):402415.Google Scholar
Fry, Dennis B. 1958. Experiments in the perception of stress. Language and Speech 1:126152.Google Scholar
Gao, Mingkai, and Shi, Anshi 高名凯, 石安石. 1963. Introduction to linguistics 语言学概论. Beijing: Zhonghua Book Company.Google Scholar
Gårding, Eva. 1987. Speech act and tonal pattern in Standard Chinese: Constancy and variation. Phonetica 44:1329.Google Scholar
Goldsmith, John. 1981. English as a tone language. In Phonology in the 1980s, ed. Goyvaerts, Didier L., 287308. Ghent: E. Story-Scientia.Google Scholar
Gussenhoven, Carlos. 1983. Focus, mode and the nucleus. Journal of Linguistics 19(2):377417.Google Scholar
Gussenhoven, Carlos. 2009. Vowel duration, syllable quantity, and stress in Dutch. In The nature of the word: Studies in honor of Paul Kiparsky, ed. Hanson, Kristin and Inkelas, Sharon, 181198. Cambridge, MA: MIT Press.Google Scholar
Halle, Morris, and Vergnaud, Jean-Roger. 1987. An essay on stress. Cambridge, MA: MIT Press.Google Scholar
Hayes, Bruce. 1995. Metrical stress theory: Principles and case studies. Chicago, IL: University of Chicago Press.Google Scholar
Hoa, Monique. 1983. L’accentuation en pékinois. Paris: Éditions Langages Croisés.Google Scholar
Hyman, Larry M. 1977. On the nature of linguistic stress. In Studies in stress and accent, ed. Hyman, Larry M., 3782. Los Angeles, CA: University of Southern California.Google Scholar
Institute of Linguistics, Chinese Academy of Social Sciences 中国社会科学院语言研究所词典编辑室. 2005. Modern Chinese Dictionary (5th edition) 现代汉语词典 (第五版). Beijing: Commercial Press.Google Scholar
Jensen, John. 2000. Against ambisyllabicity. Phonology 17:187235.Google Scholar
Jin, Shunde. 1996. An acoustic study of sentence stress in Mandarin Chinese. Doctoral dissertation, The Ohio State University.Google Scholar
Jones, Daniel. 1909. The pronunciation of English. Cambridge: Cambridge University Press.Google Scholar
Jones, Daniel, Roach, Peter, Setter, Jane, and Esling, John. 2011. Cambridge English pronouncing dictionary, 18th ed. Cambridge: Cambridge University Press.Google Scholar
Kenyon, John Samuel, and Knott, Thomas Albert. 1949. A pronouncing dictionary of American English. Springfield, MA: Merriam.Google Scholar
Liberman, Mark. 1975. The intonational system of English. Doctoral dissertation, Massachusetts Institute of Technology.Google Scholar
, Shuxiang 吕叔湘. 1963. A preliminary study of the problem of monosyllabism and disyllabism in modern Chinese 现代汉语单双音节问题初探. Zhongguo Yuwen 中国语文 1:1022.Google Scholar
McCawley, James D. 1965. The accentual system of modern standard Japanese. Doctoral dissertation, Massachusetts Institute of Technology.Google Scholar
Ran, Qibin 冉启斌. 2011. Phonetic difference of ambiguous ‘V-monosyllable + N-monosyllable’ phrases in Beijing Dialect and Sichuan Dialect and some theoretical thoughts 北京话、四川话歧义"动单+ 名单”结构的语音差异及意义. Chinese Teaching in the World 世界汉语教学 25(4):235448.Google Scholar
Selkirk, Elisabeth. 1982. The syllable. In The structure of phonological representations (part II), ed. van der Hulst, Harry and Smith, Norval, 337383. Linguistic Models 2. Dordrecht: Foris.Google Scholar
Selkirk, Elisabeth, and Tong, Shen. 1990. Prosodic domains in Shanghai Chinese. In The phonology–syntax connection, ed. Inkelas, Sharon and Zec, Draga, 313337. Stanford, CA: CSLI, Stanford University.Google Scholar
Shen, Jiong 沈炯. 1985. Pitch range of tone and intonation in Beijing dialect 北京话声调的音域和语调. In Working papers in experimental phonetics 北京语音实验彔, ed. Tao, Lin and Lijia, Wang 林焘, 王理嘉, 73130. Beijing: Peking University Press.Google Scholar
Shen, Jiong 沈炯. 1994. Intonation structure and intonation types in Chinese 汉语语调构造和语调类型. Fangyan 方言 3:221228.Google Scholar
Shi, Xiangdong 施向东. 2008. Prosody and metrics 韵律与格律. In Studies on the literature–language interface 文学和语言的界面研究, ed. Hong, Chen and Hongming, Zhang 陈洪, 张洪明, 164172. Tianjin: Nankai University Press.Google Scholar
Shih, Chi-lin. 1988. Tone and intonation in Mandarin. In Working papers of the Cornell Phonetics Laboratory, no. 3, ed. Clements, Nick, 83–109.Google Scholar
Truckenbrodt, Hubert. 2006. Phrasal stress. In Encyclopedia of language & linguistics, second edition, volume 9, ed. Brown, Keith, 572579. Oxford: Elsevier.Google Scholar
Vennemann, Theo. 1988. Preference laws for syllable structure and the explanation of sound change. Berlin: Mouton de Gruyter.Google Scholar
Wang, Hongjun 王洪君. 1999. Chinese non-linear phonology 汉语非线性音系学. Beijing: Peking University Press.Google Scholar
Wang, Li 王力. 1958. Chinese versification 汉语诗律学. Shanghai: Xin Zhishi Publishing House.Google Scholar
Wells, John Christopher. 2008. Longman pronunciation dictionary, 3rd ed.. Harlow: Pearson Education Limited.Google Scholar
Xu, Baohua, Tang, Zhenzhu, You, Rujie, Qian, Nairong, Shi, Rujie, and Shen, Yaming 许宝华, 汤珍珠, 游汝杰, 钱乃荣, 石汝杰, 沈亚明. 1988. Shanghai City dialect gazette 上海市区方言志. Shanghai: Shanghai Education Publishing House.Google Scholar
Xu, Yi, Chen, Szu-wei, and Wang, Bei. 2012. Prosodic focus with and without post-focus compression: A typological divide within the same language family? Linguistic Review 29:131147.Google Scholar
Xu, Yi, and Wang, Maolin. 2009. Organizing syllables into groups: Evidence from F0 and duration patterns in Mandarin. Journal of Phonetics 37(4):502520.Google Scholar
Xu, Yi, and Xu, Ching X.. 2005. Phonetic realization of focus in English declarative intonation. Journal of Phonetics 33:159197.Google Scholar
Yang, Shun-an 杨顺安. 1992. An experiment on the prosody of polysyllables in the Beijing dialect 北京话多音节组合韵律特性的实验研究. Fangyan 方言 2:128137.Google Scholar
Yin, Zuoyan 殷作炎. 1982. A preliminary study of accents and atonics in disyllabic words in common use 关于普通话双音常用词轻重音的初步考察. Zhongguo Yuwen 中国语文 3(168):168173.Google Scholar
Yuan, Jiahong. 2004. Intonation in Mandarin Chinese: Acoustics, perception, and computational modeling. Doctoral dissertation, Cornell University.Google Scholar
Zhu, Xiaonong. 1995. Shanghai tonetics. Doctoral dissertation, Australian National University.Google Scholar

References

Arend, Lawrence, and Reeves, Adam. 1986. Simultaneous color constancy. Journal of the Optical Society of America 3(10): 17431751. https://doi.org/10.1364/JOSAA.3.001743Google Scholar
Bäuml, Karl-Heinz. 1999. Simultaneous color constancy: How surface color perception varies with the illuminant. Vision Research 39(8):15311550. https://doi.org/10.1016/S0042–6989(98)00192-8.Google Scholar
Bishop, Jason, and Keating, Patricia. 2012. Perception of pitch location within a speaker’s range: Fundamental frequency, voice quality and speaker sex. The Journal of the Acoustical Society of America 132(2):11001112. https://doi.org/10.1121/1.4714351.Google Scholar
Chandrasekaran, Bharath, Chan, Alice H. D., and Wong, Patrick C. M.. 2011. Neural processing of what and who information in speech. Journal of Cognitive Neuroscience 23(10): 26902700. https://doi.org/10.1162/jocn.2011.21631.Google Scholar
Chen, Fei, and Peng, Gang. 2016. Context effect in the categorical perception of Mandarin tones. Journal of Signal Processing Systems 82(2):253261. https://doi.org/10.1007/s11265–015-1008-2.Google Scholar
Choi, Ja Young, and Perrachione, Tyler K.. 2019. Noninvasive neurostimulation of left temporal lobe disrupts rapid talker adaptation in speech processing. Brain and Language 196:104655. https://doi.org/10.1016/j.bandl.2019.104655.Google Scholar
Connolly, John F., and Phillips, Natalie A.. 1994. Event-related potential components reflect phonological and semantic processing of the terminal word of spoken sentences. Journal of Cognitive Neuroscience 6(3):256266. https://doi.org/10.1162/jocn.1994.6.3.256.Google Scholar
Craik, Fergus I. M., and Kirsner, Kim. 1974. The effect of speaker’s voice on word recognition. Quarterly Journal of Experimental Psychology 26(2):274284. https://doi.org/10.1080/14640747408400413.Google Scholar
Desroches, Amy S., Newman, Randy Lynn, and Joanisse, Marc F.. 2008. Investigating the time course of spoken word recognition: Electrophysiological evidence for the influences of phonological similarity. Journal of Cognitive Neuroscience 21(10):18931906.Google Scholar
Federmeier, Kara D., McLennan, Devon B., de Ochoa, Esmeralda, and Kutas, Marta. 2002. The impact of semantic memory organization and sentence context information on spoken language processing by younger and older adults: An ERP study. Psychophysiology 39(2):133146. https://doi.org/10.1017/S0048577202001373.Google Scholar
Fowler, Carol A. 2006. Compensation for coarticulation reflects gesture perception, not spectral contrast. Perception and Psychophysics 68(2):161177. https://doi.org/10.3758/BF03193666.Google Scholar
Francis, Alexander L., Valter, Ciocca, Natalie, King Yu Wong, Wilson, Ho Yin Leung, and Phoe, Cheuk Yan Chu. 2006. Extrinsic context affects perceptual normalization of lexical tone. The Journal of the Acoustical Society of America 119(3):17121726. https://doi.org/10.1121/1.2149768.Google Scholar
Galantucci, Bruno, Fowler, Carol A., and Turvey, M. T.. 2006. The motor theory of speech perception reviewed. Psychonomic Bulletin and Review 13(3):361377. https://doi.org/10.3758/BF03193990.Google Scholar
Garrett, Kathryn L., and Charles Healey, E.. 1987. An acoustic analysis of fluctuations in the voices of normal adult speakers across three times of day. Journal of the Acoustical Society of America 82(1):5862. https://doi.org/10.1121/1.395437.Google Scholar
Goldinger, Stephen D., Pisoni, David B., and Logan, John S.. 1991. On the nature of talker variability effects on serial recall of spoken word lists. Journal of Experimental Psychology: Learning, Memory, and Cognition 17:152162. https://doi.org/http://dx.doi.org/10.1037/0278-7393.17.1.152.Google Scholar
Goldinger, Stephen D. 1996. Words and voices: Episodic traces in spoken word identification and recognition memory. Journal of Experimental Psychology: Learning, memory, and cognition 22(5):11661183.Google Scholar
Goldinger, Stephen D. 1998. Echoes of echoes? An episodic theory of lexical access. Psychological Review 105(2):251279.Google Scholar
Grill-Spector, Kalanit. 2003. The neural basis of object perception. Current Opinion in Neurobiology 13(2):159166. https://doi.org/10.1016/S0959–4388(03)00040-0.Google Scholar
Hagoort, Peter, Baggio, Giosuè, and Willems, Roel M.. 2009. Semantic unification. In The cognitive neurosciences, ed. Gazzaniga, Michael S., 819836. Cambridge, MA: MIT Press.Google Scholar
Holt, Lori L. 2005. Temporally nonadjacent nonlinguistic sounds affect speech categorization. Psychological Science 16(4):305312. https://doi.org/10.1111/j.0956-7976.2005.01532.x.Google Scholar
Holt, Lori L. 2006a. Speech categorization in context: Joint effects of nonspeech and speech precursors. The Journal of the Acoustical Society of America 119(6):40164026. https://doi.org/10.1121/1.2195119.Google Scholar
Holt, Lori L. 2006b. The mean matters: Effects of statistically defined nonspeech spectral distributions on speech categorization. The Journal of the Acoustical Society of America 120(5):28012817. https://doi.org/10.1121/1.2354071.Google Scholar
Holt, Lori L., and Wade, Travis. 2004. Non-linguistic sentence-length precursors affect speech perception: Implications for speaker and rate normalization. From Sound to Sense: 1–6. https://doi.org/10.1184/R1/6617312.v1.Google Scholar
Honorof, Douglas N., and Whalen, D. H.. 2005. Perception of pitch location within a speaker’s F0 range. Journal of the Acoustical Society of America 117(4):21932200. http://dx.doi.org/10.1121/1.1841751.Google Scholar
Huang, Jingyuan, and Holt, Lori L.. 2009. General perceptual contributions to lexical tone normalization. The Journal of the Acoustical Society of America 125(6):39833994. https://doi.org/10.1121/1.3125342.Google Scholar
Huang, Jingyuan, and Holt, Lori L.. 2011. Evidence for the central origin of lexical tone normalization (L). The Journal of the Acoustical Society of America 129(3):11451148. https://doi.org/10.1121/1.3543994.Google Scholar
Johnson, Keith. 1997. Speech perception without speaker normalization: An exemplar model. In Talker variation in speech processing, ed. Johnson, Keith and Mullennix, John W., 145165. San Diego, CA: Academic Press.Google Scholar
Johnson, Keith. 2007. Decisions and mechanisms in exemplar-based phonology. In Experimental approaches to phonology: In honor of John Ohala, ed. Maria-Josep, Sole, Beddor, Patrice Speeter, and Ohala, Manjari, 2540. Oxford: Oxford University Press.Google Scholar
Johnson, Keith. 2008. Speaker normalization in speech perception. In The handbook of speech perception, ed. Pisoni, David B. and Remez, Robert E., 363389. Malden, MA: Blackwell Publishing. https://doi.org/10.1002/9780470757024.ch15.Google Scholar
Johnson, Keith, and Mullennix, John W.. (eds.) 1997. Talker variability in speech processing. San Diego, CA: Academic Press.Google Scholar
Joos, Martin. 1948. Acoustic Phonetics. Baltimore, MD: Linguistic Society of America.Google Scholar
Koenig, Laura L. 2000. Laryngeal factors in voiceless consonant production in men, women, and 5-year-olds. Journal of Speech, Language, and Hearing Research 43(5):12111228. https://doi.org/10.1044/jslhr.4305.1211.Google Scholar
Kreitewolf, Jens, Gaudrain, Etienne, and von Kriegstein, Katharina. 2014. A neural mechanism for recognizing speech spoken by different speakers. NeuroImage 91:375385. https://doi.org/10.1016/j.neuroimage.2014.01.005.Google Scholar
Kutas, Marta, and Federmeier, Kara D.. 2011. Thirty years and counting: Finding meaning in the N400 component of the event-related brain potential (ERP). The Annual Review of Psychology 62:14.114.27.Google Scholar
Ladefoged, Peter, and Broadbent, D. E.. 1957. Information conveyed by vowels. The Journal of the Acoustical Society of America 29(1):98104. https://doi.org/10.1121/1.1908694.Google Scholar
Laing, Erika J. C., Ran, Liu, Lotto, Andrew J., and Lori L, Holt. 2012. Tuned with a tune: Talker normalization via general auditory processes. Frontiers in Psychology 3(June):19. https://doi.org/10.3389/fpsyg.2012.00203.Google Scholar
Lawson, Rebecca. 1999. Achieving visual object constancy across plane rotation and depth rotation. Acta Psychologica 102(2–3):221245. https://doi.org/10.1016/S0001–6918(98)00052-3.Google Scholar
Leather, Jonathan. 1983. Speaker normalization in perception of lexical tone. Journal of Phonetics 11:373382.Google Scholar
Logothetis, Nikos K., and Sheinberg, David L.. 1996. Visual object recognition. Annual Review of Neuroscience 19(1):577621. https://doi.org/10.1146/annurev.ne.19.030196.003045.Google Scholar
Lotto, Andrew J., and Kluender, Keith R.. 1998. General contrast effects in speech perception: Effect of preceding liquid on stop consonant identification. Perception and Psychophysics 60(4):602619. https://doi.org/10.3758/BF03206049.Google Scholar
Malins, Jeffrey G., and Joanisse, Marc F.. 2012. Setting the tone: An ERP investigation of the influences of phonological similarity on spoken word recognition in Mandarin Chinese. Neuropsychologia 50(8):20322043. https://doi.org/10.1016/j.neuropsychologia.2012.05.002.Google Scholar
Maloney, Lawrence T., and Wandell, Brian A.. 1986. Color constancy: A method for recovering surface spectral reflectance. Journal of the Optical Society of America A 3(1):2933. https://doi.org/10.1364/JOSAA.3.000029.Google Scholar
Massaro, Dominic W., and Chen, Trevor H.. 2008. The motor theory of speech perception revisited. Psychonomic Bulletin & Review 15(2):453457.Google Scholar
Mesgarani, Nima, and Chang, Edward F.. 2012. Selective cortical representation of attended speaker in multi-talker speech perception. Nature 485(7397):233236. https://doi.org/10.1038/nature11020.Google Scholar
Monahan, Philip J., and Idsardi, William J.. 2010. Auditory sensitivity to formant ratios: Toward an account of vowel normalisation. Language and Cognitive Processes 25(6):808839. https://doi.org/10.1080/01690965.2010.490047.Google Scholar
Moore, Corrine B., and Jongman, Allard. 1997. Speaker normalization in the perception of Mandarin Chinese tones. The Journal of the Acoustical Society of America 102(3):18641877. https://doi.org/10.1121/1.420092.Google Scholar
Morris, Richard J., McCrea, Christopher R., and Herring, Kaileen D.. 2008. Voice onset time differences between adult males and females: Isolated syllables. Journal of Phonetics 36(2):308317. https://doi.org/10.1016/j.wocn.2007.06.003.Google Scholar
Nusbaum, Howard, and Magnuson, James. 1997. Talker normalization: Phonetic constancy as a cognitive process. In Talker variability and speech processing, ed. Johnson, Keith A. and Mullennix, John W., 109132. New York, NY: Academic Press.Google Scholar
Nygaard, Lynne C., and Pisoni, David B.. 1998. Talker-specific learning in speech perception. Perception & Psychophysics 60(3): 355376. https://doi.org/10.3758/BF03206860.Google Scholar
Peng, Gang. (2006). Temporal and tonal aspects of Chinese syllables: A corpus-based comparative study of mandarin and cantonese. Journal of Chinese Linguistics 34(1):135154.Google Scholar
Peng, Gang, Zhang, Caicai, Zheng, Hong-Ying, Minett, James W., and Wang, William S.-Y.. 2012. The effect of inter-talker variations on acoustic-perceptual mapping in Cantonese and Mandarin tone systems. Journal of Speech, Language, and Hearing Research 55(2):579595. https://doi.org/10.1044/1092-4388(2011/11-0025).Google Scholar
Protopapas, Athanassios, and Lieberman, Philip. 1997. Fundamental frequency of phonation and perceived emotional stress. The Journal of the Acoustical Society of America 101(4):22672277. https://doi.org/10.1121/1.418247.Google Scholar
Rose, Phil. 1996. Cantonese citation tones. In Vocal fold physiology: Controlling complexity and chaos, ed. Davis, Pamela J., and Fletcher, Neville H., 307324. San Diego, CA: Singular.Google Scholar
Sheffert, Sonya M., and Fowler, Carol A.. 1995. The effects of voice and visible speaker change on memory for spoken words. Journal of Memory and Language 34(5):665685. http://dx.doi.org/10.1006/jmla.1995.1030.Google Scholar
Sjerps, Matthias J., Mitterer, Holger, and McQueen, James M.. 2011a. Constraints on the processes responsible for the extrinsic normalization of vowels. Attention, Perception, and Psychophysics 73(4):11951215. https://doi.org/10.3758/s13414–011-0096-8.Google Scholar
Sjerps, Matthias J., Mitterer, Holger, and McQueen, James M.. 2011b. Listening to different speakers: On the time-course of perceptual compensation for vocal-tract characteristics. Neuropsychologia 49(14):38313846. https://doi.org/10.1016/j.neuropsychologia.2011.09.044.Google Scholar
Sjerps, Matthias J., Mitterer, Holger, and McQueen, James M.. 2012. Hemispheric differences in the effects of context on vowel perception. Brain and Language 120(3):401405. https://doi.org/10.1016/j.bandl.2011.12.012.Google Scholar
Sjerps, Matthias J., and Smiljanić, Rajka. 2013. Compensation for vocal tract characteristics across native and non-native languages. Journal of Phonetics 41(3–4):145155. https://doi.org/10.1016/j.wocn.2013.01.005.Google Scholar
Slawson, A. Wayne. 1968. Vowel quality and musical timbre as functions of spectrum envelope and fundamental frequency. The Journal of the Acoustical Society of America 43(1):87101. https://doi.org/10.1121/1.1910769.Google Scholar
Smith, David R. R., and Patterson, Roy D.. 2005. The interaction of glottal-pulse rate and vocal-tract length in judgements of speaker size, sex, and age. The Journal of the Acoustical Society of America 118(5):31773186. https://doi.org/10.1121/1.2047107.Google Scholar
Syrdal, Ann K., and Gopal, H. S.. 1986. A perceptual model of vowel recognition based on the auditory representation of American English vowels. The Journal of the Acoustical Society of America 79(4):10861100. https://doi.org/10.1121/1.393381.Google Scholar
Viswanathan, Navin, Fowler, Carol A., and Magnuson, James S.. 2009. A critical examination of the spectral contrast account of compensation for coarticulation. Psychonomic Bulletin and Review 16(1):7479. https://doi.org/10.3758/PBR.16.1.74.Google Scholar
Viswanathan, Navin, Magnuson, James S., and Fowler, Carol A.. 2010. Compensation for coarticulation: Disentangling auditory and gestural theories of perception of coarticulatory effects in speech. Journal of Experimental Psychology: Human Perception and Performance 36(4):10051015.Google Scholar
Viswanathan, Navin, Magnuson, James S., and Fowler, Carol A.. 2013. Similar response patterns do not imply identical origins: An energetic masking account of nonspeech effects in compensation for coarticulation. Journal of Experimental Psychology. Human Perception and Performance 39(4):11811192. https://doi.org/10.1037/a0030735.Google Scholar
Von Kriegstein, Katharina, Smith, David R. R., Patterson, Roy D., Kiebel, Stefan J., and Griffiths, Timothy D.. 2010. How the human brain recognizes speech in the context of changing speakers. The Journal of Neuroscience 30(2):629638. https://doi.org/10.1523/jneurosci.2742-09.2010.Google Scholar
Wallach, Hans. 1948. Brightness constancy and the nature of achromatic colors. Journal of Experimental Psychology 38(3):310324.Google Scholar
Wang, William S.-Y. 1972. The many uses of F0. In Linguistics and phonetics to the memory of Pierre Delattre, ed. Valdman, Albert, 487503. The Hague: De Gruyter Mouton.Google Scholar
Wong, Patrick C. M., and Diehl, Randy L.. 2003. Perceptual normalization for inter- and intratalker variation in Cantonese level tones. Journal of Speech, Language, and Hearing Research 46(2):413421.Google Scholar
Wong, Patrick C. M., Nusbaum, Howard C., and Small, Steven L.. 2004. Neural bases of talker normalization. Journal of Cognitive Neuroscience 16:11731184.Google Scholar
Yip, Moira. 2002. Tone. Cambridge: Cambridge University Press.Google Scholar
Zhang, Caicai. 2018. Online adjustment of phonetic expectation of lexical tones to accommodate speaker variation: A combined behavioural and ERP study. Language, Cognition and Neuroscience 33(2):175195. https://doi.org/10.1080/23273798.2017.1376752.Google Scholar
Zhang, Caicai, and Chen, Si. 2016. Toward an integrative model of talker normalization. Journal of Experimental Psychology: Human Perception and Performance 42(8):12521268. https://doi.org/10.1037/xhp0000216.Google Scholar
Zhang, Caicai, Peng, Gang, and Wang, William S.-Y.. 2012. Unequal effects of speech and nonspeech contexts on the perceptual normalization of Cantonese level tones. The Journal of the Acoustical Society of America 132(2): 10881099. https://doi.org/10.1121/1.4731470.Google Scholar
Zhang, Caicai, Peng, Gang, and Wang, William S.-Y.. 2013. Achieving constancy in spoken word identification: Time course of talker normalization. Brain and Language 126(2):193202. https://doi.org/10.1016/j.bandl.2013.05.010.Google Scholar
Zhang, Caicai, Pugh, Ken R., Einar Mencl, W., Molfese, Peter J., Frost, Stephen J., Magnuson, James S., Peng, Gang, and Wang, William S-Y.. 2016. Functionally integrated neural processing of linguistic and talker information: An event-related fMRI and ERP study. NeuroImage 124:536549. https://doi.org/10.1016/j.neuroimage.2015.08.064.Google Scholar
Zhang, Caicai, Shao, Jing, and Chen, Si. 2018. Impaired perceptual normalization of lexical tones in Cantonese-speaking congenital amusics. The Journal of the Acoustical Society of America 144(2):634647. https://doi.org/10.1121/1.5049147.Google Scholar
Zhao, Jingjing, Guo, Jingjing, Zhou, Fengying, and Shu, Hua. 2011. Time course of Chinese monosyllabic spoken word recognition: Evidence from ERP analyses. Neuropsychologia 49(7):17611770. https://doi.org/10.1016/j.neuropsychologia.2011.02.054.Google Scholar

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