Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-09T08:52:22.254Z Has data issue: false hasContentIssue false

Syllable weight and natural duration in textsetting popular music in English

Published online by Cambridge University Press:  23 August 2022

KEVIN M. RYAN*
Affiliation:
Department of Linguistics Harvard University 317 Boylston Hall Cambridge, MA 02138 USA [email protected]

Abstract

Hayes & Kaun (1996) argue that the mapping of syllables onto a metrical grid in textsetting is sensitive to natural duration, not just categorical weight (heavy or light). Most of their evidence, however, derives the final lengthening effects, which admit of another possible analysis (Halle 2004). Drawing on a corpus of 2,371 popular songs in English, I confirm that even when one controls for final lengthening and other factors, the setting of syllables to a discrete grid is sensitive to natural duration. Moreover, onset effects reveal that the domain of weight for textsetting is not the syllable, rime, or vowel-to-vowel interval, but rather the interval between p-centers (perceptual centers). Finally, I argue that the textsetting grammar invokes both natural duration and categorical weight; weight mapping cannot be reduced to one or the other.

Type
Research Article
Copyright
Copyright © The Author, 2022. Published by Cambridge University Press

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

I wish to thank the anonymous reviewers at ELL for their insightful feedback on an earlier draft of this article, which inspired several improvements.

References

Aroui, Jean-Louis & Arleo, Andy (eds.). 2009. Towards a typology of poetic forms. Amsterdam: John Benjamins.CrossRefGoogle Scholar
Baayen, Rolf Harald, Piepenbrock, Richard & Gulikers, Léon. 1993. The CELEX lexical database [CD-ROM]. Philadelphia, PA: Linguistics Data Consortium, University of Pennsylvania.Google Scholar
Banti, Giorgio & Giannattasio, Francesco. 1996. Music and metre in Somali poetry. In Hayward, Richard J. & Lewis, Ioan M. (eds.), Voice and power: The culture of language in North-East Africa, 83127. London: School of Oriental and African Studies.Google Scholar
Barbosa, Plínio, Arantes, Pablo, Meireles, Alexsandro R. & Vieira, Jussara M.. 2005. Abstractness in speech-metronome synchronisation: p-centres as cyclic attractors. Interspeech 2005, 1441–4.CrossRefGoogle Scholar
Bartlett, Susan, Kondrak, Grzegorz & Cherry, Colin. 2009. On the syllabification of phonemes. Human language technologies: The 2009 annual conference of the North American chapter of the ACL, 308–16. Boulder, CO: Association for Computational Linguistics.Google Scholar
Bravi, Paolo. 2016. Sung syllables: Structure and boundaries of the metrical unit in sung verse. In Russo, Domenico (ed.), The notion of the syllable across history, theories and analysis, 436–52. Newcastle upon Tyne: Cambridge Scholars Publishing.Google Scholar
Clements, G. N. & Hertz, Susan. 1996. An integrated model of phonetic representation in grammar. Lavoie, Lisa & Ham, William (eds.), Working papers of the Cornell Phonetics Laboratory, vol. 11, 43116. Ithaca, NY: CLC Publications.Google Scholar
Cooper, André Maurice, Whalen, D. H. & Fowler, Carol Ann. 1986. P-centers are unaffected by phonetic categorization. Perception & Psychophysics 39, 187–96.CrossRefGoogle ScholarPubMed
Dell, François. 1989. Concordances rythmiques entre la musique et les paroles dans le chant: l'accent et l’e muet dans la chanson française. In Dominicy, Marc (ed.), Le souci des apparences, 121–36. Brussels: Éditions de l'Université de Bruxelles.Google Scholar
Dell, François. 2011. Singing in Tashlhiyt Berber, a language that allows vowel-less syllables. In Cairns, Charles & Raimy, Eric (eds.), Handbook of the syllable, 173–93. Leiden: Brill.Google Scholar
Dell, François & Elmedlaoui, Mohamed. 2008. Poetic meter and musical form in Tashlhiyt Berber. Cologne: Köppe.Google Scholar
Dell, François & Elmedlaoui, Mohamed. 2017. Syllabic weight in Tashlhiyt Berber. In Newman, Paul (ed.), Syllable weight in African languages, 8396. Amsterdam: John Benjamins.CrossRefGoogle Scholar
Dell, François & Halle, John. 2009. Comparing musical textsetting in French and in English songs. In Arleo, Aroui (eds.), 6378.Google Scholar
Devine, Andrew M. & Stephens, Laurence. 1994. The prosody of Greek speech. Oxford: Oxford University Press.Google Scholar
Fant, Gunnar & Kruckenberg, Anita. 1989. Preliminaries to the study of Swedish prose reading and reading style. STL-QPSR 2, 183.Google Scholar
Farnetani, Edda & Kori, Shiro. 1986. Effects of syllable and word structure on segmental durations in spoken Italian. Speech Communication 5, 1724.CrossRefGoogle Scholar
Fowler, Carol Ann. 1983. Converging sources of evidence on spoken and perceived rhythms of speech: Cyclic production of vowels in monosyllabic stress feet. Journal of Experimental Psychology: General 112, 386412.CrossRefGoogle ScholarPubMed
Fox, Robert A. & Lehiste, Ilse. 1987a. The effect of unstressed affixes on stress-beat location in speech production and perception. Peceptual and Motor Skills 65, 3544.CrossRefGoogle Scholar
Fox, Robert A. & Lehiste, Ilse. 1987b. The effect of vowel quality variations on stress-beat location. Journal of Phonetics 15, 113.CrossRefGoogle Scholar
Franich, Kathryn. 2018. Tonal and morphophonological effects on the location of perceptual centers (p-centers): Evidence from a Bantu language. Journal of Phonetics 67, 2133.CrossRefGoogle Scholar
Gilroy, Nicole. 2021. English vowel duration in textsetting. Master's thesis, Carleton University.Google Scholar
Girardi, Elena & Plag, Ingo. 2019. Metrical mapping in text-setting: Empirical analysis and grammatical implementation. MS, Heinrich-Heine-Universität Düsseldorf.Google Scholar
Gordon, Matthew. 2005. A perceptually-driven account of onset-sensitive stress. Natural Language and Linguistic Theory 23, 595653.CrossRefGoogle Scholar
Gussenhoven, Carlos & Chen, Aoju (eds.). 2020. The Oxford handbook of language prosody. Oxford: Oxford University Press.CrossRefGoogle Scholar
Halle, John. 2004. Constituency matching in metrical texts. MS, submitted to theProceedings of the Conference Words and Music, University of Missouri, Columbia.Google Scholar
Halle, John & Lerdahl, Fred. 1993. A generative textsetting model. Current Musicology 55, 323.Google Scholar
Halle, Morris & Vergnaud, Jean-Roger. 1987. An essay on stress. Cambridge, MA: MIT Press.Google Scholar
Hayes, Bruce. 2009a. Faithfulness and componentiality in metrics. In Inkelas, Sharon & Hanson, Kristin (eds.), The nature of the word: Essays in honor of Paul Kiparsky, 113–48. Cambridge, MA: MIT Press.Google Scholar
Hayes, Bruce. 2009b. Textsetting as constraint conflict. In Aroui & Arleo (eds.), 4362.Google Scholar
Hayes, Bruce & Kaun, Abigail. 1996. The role of phonological phrasing in sung and chanted verse. The Linguistic Review 13, 243303.CrossRefGoogle Scholar
Hayes, Bruce & MacEachern, Margaret. 1998. Quatrain form in English folk verse. Language 74, 473507.CrossRefGoogle Scholar
Hayes, Bruce & Schuh, Russell G.. 2019. Metrical structure and sung rhythm of the Hausa rajaz. Language 95, e253e299.CrossRefGoogle Scholar
Hill, Joseph David. 2008. Syllabification and syllable weight in Ancient Greek songs. Master's thesis, Massachusetts Institute of Technology.Google Scholar
Hirsch, Aron. 2014. What is the domain for weight computation: The syllable or the interval? In Kingston, John, Moore-Cantwell, Claire, Pater, Joe & Staubs, Robert (eds.), Proceedings of the 2013 Meeting on Phonology. Washington, DC: Linguistic Society of America.Google Scholar
Hyman, Larry. 1985. A theory of phonological weight. Dordrecht: Foris.CrossRefGoogle Scholar
Jacewicz, Ewa, Fox, Robert A. & Salmons, Joseph. 2007. Vowel duration in three American English dialects. American Speech 82, 367–85.CrossRefGoogle ScholarPubMed
Jackendoff, Ray & Lerdahl, Fred. 2006. The capacity for music: What is it, and what's special about it? Cognition 100, 3372.CrossRefGoogle Scholar
Kahn, Daniel. 1976. Syllable-based generalizations in English phonology. PhD dissertation, Massachusetts Institute of Technology.Google Scholar
Katz, Jonah. 2010. Compression effects, perceptual asymmetries, and the grammar of timing. PhD dissertation, Massachusetts Institute of Technology.Google Scholar
Keshet, Ezra. 2006. Relatively optimal text-setting. MS, Massachusetts Institute of Technology.Google Scholar
Kiparsky, Paul. 2006. A modular metrics for folk verse. In Elan Dresher, B. & Friedberg, Nila (eds.), Formal approaches to poetry: Recent developments in metrics (Phonology and Phonetics 11), 749. Berlin and New York: Mouton de Gruyter.Google Scholar
Kiparsky, Paul. 2020. Stress, meter, and text-setting. In Gussenhoven & Chen (eds.), 657–75.Google Scholar
Ladd, D. Robert & Kirby, James. 2020. Tone–melody matching in tone language singing. In Gussenhoven & Chen (eds.), 676–87.Google Scholar
Lerdahl, Fred & Jackendoff, Ray. 1983. A generative theory of tonal music. Cambridge, MA: MIT Press.Google Scholar
List, George. 1974. The reliability of transcription. Ethnomusicology 18, 353–77.CrossRefGoogle Scholar
Lunden, Anya. 2017. Syllable weight and duration: A rhyme/intervals comparison. Proceedings of the Linguistic Society of America 2, 112.CrossRefGoogle Scholar
Marcus, Stephen Michael. 1981. Acoustic determinants of perceptual center (P-center) location. Perception & Psychophysics 30, 247–56.CrossRefGoogle ScholarPubMed
McCrary, Kristie Marie. 2004. Reassessing the role of the syllable in Italian phonology: An experimental study of consonant cluster syllabification, definite article allomorphy and segment duration. PhD dissertation, University of California, Los Angeles.Google Scholar
McPherson, Laura. 2018. The talking balafon of the Sambla: Grammatical principles and documentary implications. Anthropological Linguistics 60, 255–94.CrossRefGoogle Scholar
McPherson, Laura. 2019. Musical adaptation as phonological evidence: Case studies from textsetting, rhyme, and musical surrogates. Language and Linguistics Compass e12359.Google Scholar
McPherson, Laura. 2021. Categoricity, variation, and gradience in Sambla balafon segmental encoding. Frontiers in Communication 6, 652635.CrossRefGoogle Scholar
McPherson, Laura & Ryan, Kevin M.. 2018. Tone-tune association in Tommo So (Dogon) folk songs. Language 94, 119–56.CrossRefGoogle Scholar
Meseguer-Brocal, Gabriel, Cohen-Hadria, Alice & Peeters, Geoffroy. 2018. DALI: A large dataset of synchronized audio, lyrics and notes, automatically created using teacher–student machine learning paradigm. 19th International Society for Music Information Retrieval Conference. Paris: International Society for Music Information Retrieval.Google Scholar
Meyer, Julien, Dentel, Laure & Seifart, Frank. 2012. A methodology for the study of rhythm in drummed forms of languages: Application to Bora Manguaré of Amazon. In Proceedings of Interspeech 12: Annual Conference of the International Speech Communication Association, 687–90.CrossRefGoogle Scholar
Moore-Cantwell, Claire. 2021. Weight and final vowels in the English stress system. Phonology 37, 657–95.CrossRefGoogle Scholar
Morton, John, Marcus, Steve & Frankish, Clive. 1976. Perceptual centers (P-centers). Psychological Review 83, 405–8.CrossRefGoogle Scholar
Nwe, Tin Lay, Dong, Minghui, Chan, Paul, Wang, Xi, Ma, Bin & Li, Haizhou. 2010. Voice conversion: From spoken vowels to singing vowels. 2010 IEEE International Conference on Multimedia and Expo, 1421–6.Google Scholar
Oehrle, Richard. 1989. Temporal structures in verse design. In Kiparsky, Paul & Youmans, Gilbert (eds.), Rhythm and meter, 87119. San Diego, CA: Academic Press.CrossRefGoogle Scholar
Olejarczuk, Paul & Kapatsinski, Vsevolod. 2018. The metrical parse is guided by gradient phonotactics. Phonology 35, 367405.CrossRefGoogle Scholar
Palmer, Caroline & Kelly, Michael H.. 1992. Linguistic prosody and musical meter in song. Journal of Memory and Language 31, 525–42.CrossRefGoogle Scholar
Patel, Aniruddh D. 2008. Music, language and the brain. Oxford: Oxford University Press.Google Scholar
Patel, Aniruddh D., Löfqvist, Anders & Naito, Walter. 1999. The acoustics and kinematics of regularly timed speech: A database and method for the study of the P-center problem. In Proceedings of the XIVth International Congress of Phonetic Sciences, 405–8.Google Scholar
Pitt, Mark, Dilley, Laura, Johnson, Keith, Kiesling, Scott, Raymond, William, Hume, Elizabeth & Fosler-Lussier, Eric. 2007. Buckeye Corpus of Conversational Speech (2nd release). Columbus, OH: Department of Psychology, Ohio State University. www.buckeyecorpus.osu.eduGoogle Scholar
Port, Robert. 2007. The problem of speech patterns in time. In Gareth Gaskell, M. (ed.), The Oxford handbook of psycholinguistics, 503–14. Oxford: Oxford University Press.Google Scholar
Proto, Teresa. 2015. Prosody, melody and rhythm in vocal music: The problem of textsetting in a linguistic perspective. Linguistics in the Netherlands 32, 116–29.Google Scholar
Proto, Teresa & Dell, François. 2013. The structure of metrical patterns in tunes and in literary verse: Evidence from discrepancies between musical and linguistic rhythm in Italian songs. Probus 25, 105–38.CrossRefGoogle Scholar
Ross, Jaan & Lehiste, Ilse. 2011. The temporal structure of Estonian runic songs. Berlin: Mouton de Gruyter.Google Scholar
Ryan, Kevin M. 2011a. Gradient syllable weight and weight universals in quantitative metrics. Phonology 28, 413–54.CrossRefGoogle Scholar
Ryan, Kevin M. 2011b. Gradient weight in phonology. PhD dissertation, University of California, Los Angeles.Google Scholar
Ryan, Kevin M. 2014. Onsets contribute to syllable weight: Statistical evidence from stress and meter. Language 90, 309–41.CrossRefGoogle Scholar
Ryan, Kevin M. 2016. Phonological weight. Language and Linguistics Compass 10, 720–33.CrossRefGoogle Scholar
Ryan, Kevin M. 2019. Prosodic weight: Categories and continua. Oxford: Oxford University Press.CrossRefGoogle Scholar
San, Nay & Turpin, Myfany. 2021. Text-setting in Kaytetye. In Proceedings of the 2020 Annual Meeting on Phonology 9, 19.Google Scholar
van Santen, J. P. H. 1992. Contextual effects on vowel duration. Speech Communication 11, 513–46.CrossRefGoogle Scholar
Schellenberg, Murray. 2012. Does language determine music in tone languages? Ethnomusicology 56, 266–78.CrossRefGoogle Scholar
Schuh, Russell G. 2001. The metrics of a Bole song style, Kona. MS, University of California, Los Angeles.Google Scholar
Schuh, Russell G. 2011. Quantitative metrics in Chadic and other Afroasiatic languages. Brill's Annual of Afroasiatic Languages and Linguistics 3, 202–35.CrossRefGoogle Scholar
Seifart, Frank, Meyer, Julien, Grawunder, Sven & Dentel, Laure. 2018. Reducing language to rhythm: Amazonian Bora drummed language exploits speech rhythm for long-distance communication. Royal Society Open Science 5, 170354.CrossRefGoogle ScholarPubMed
Selkirk, Elisabeth O. 1982. The syllable. In van der Hulst, Harry & Smith, Norval (eds.), The structure of phonological representations, part II, 337–84. Dordrecht: Foris.Google Scholar
Simpson, Andrew J. R., Roma, Gerard & Plumbley, Mark D.. 2015. Deep karaoke: Extracting vocals from musical mixtures using a convolutional deep neural network. In Vincent, E., Yeredor, A., Koldovský, Z. & Tichavský, P. (eds.), Latent variable analysis and signal separation, 429–36. Cham: Springer.Google Scholar
Starr, Rebecca L. & Shih, Stephanie S.. 2017. The syllable as a prosodic unit in Japanese lexical strata: Evidence from text-setting. Glossa 2, 134.CrossRefGoogle Scholar
Steriade, Donca. 2008. Resyllabification in the quantitative meters of Ancient Greek: Evidence for an Interval Theory of Weight. MS, Massachusetts Institute of Technology.Google Scholar
Steriade, Donca. 2012. Invervals vs. syllables as units of linguistic rhythm. Handouts, EALING, Paris.Google Scholar
Steriade, Donca. 2019. CiV lengthening and the weight of CV. In Bowler, Margit, Duncan, Philip T., Major, Travis & Torrence, Harold (eds.), Schuhschrift: Papers in honor of Russell Schuh, 161–77. eScholarship Publishing.Google Scholar
Šturm, Pavel & Volín, Jan. 2016. P-centres in natural disyllabic Czech words in a large-scale speech–metronome synchronization experiment. Journal of Phonetics 55, 3852.CrossRefGoogle Scholar
Tan, Ivan, Lustig, Ethan & Temperley, David. 2019. Anticipatory syncopation in rock: A corpus study. Music Perception 36, 353–70.CrossRefGoogle Scholar
Temperley, Nicholas & Temperley, David. 2013. Stress-meter alignment in French vocal music. Journal of the Acoustical Society of America 134, 520–7.CrossRefGoogle ScholarPubMed
Umeda, Noriko. 1975. Vowel duration in American English. Journal of the Acoustical Society of America 58, 434–45.CrossRefGoogle ScholarPubMed
Villepastour, Amanda. 2014. Talking tones and singing speech among the Yorùbá of Southwest Nigeria. In Lechleitner, Gerda & Liebl, Christian (eds.), Jahrbuch des Phonogrammarchivs der Österreichischen Akademie der Wissenschaften, vol. 4, 2946. Göttingen: Cuvillier.Google Scholar
Villing, Rudi C. 2010. Hearing the moment: Measures and models of the perceptual centre. PhD dissertation, National University of Ireland Maynooth.Google Scholar
Wee, Lian Hee. 2007. Unraveling the relation between Mandarin tones and musical melody. Journal of Chinese Linguistics 35, 128–43.Google Scholar
West, Martin L. 1992. Ancient Greek music. Oxford: Clarendon Press.Google Scholar