Article published In: Pop culture in applied linguistics: International perspectives: Special issue of ITL - International Journal of Applied Linguistics 173:2 (2022)
Edited by Valentin Werner
[ITL - International Journal of Applied Linguistics 173:2] 2022
► pp. 228–250
Using music in a word stress processing task
Does it favor learners with a musical background?
Published online: 11 May 2022
https://doi.org/10.1075/itl.21011.deg
https://doi.org/10.1075/itl.21011.deg
Abstract
Previous studies have reported that the use of music-related activities (e.g. hand-clapping or songs) can help
learners to acquire foreign languages. It remains unclear, however, whether music-based approaches help every learner equally or
whether it is more beneficial for learners with a musical background, such as musical practice, musical abilities, or engagement
in musical activities. In order to answer this question, we tested 80 French speakers whose musical background was evaluated using
a questionnaire. They performed a word stress processing task in Dutch containing spoken stimuli, spoken stimuli with a beat, or
sung stimuli. The results show that learners with some musical characteristics obtain higher scores than other learners and that
the use of music in the task can favor learners with a musical background.
Keywords: music, songs, musical background, word stress, foreign language prosody
Article outline
- 1.Introduction
- 1.1Word stress acquisition
- 1.2Prosody and music
- 2.Data and methodology
- 2.1Participants
- 2.2Material
- 2.3Procedure
- 2.4Data analysis
- 3.Results
- 4.Discussion
- 5.Conclusion
- Acknowledgments
References
References (51)
Alexander, J., Wong, P., & Bradlow, A. (2005). Lexical
tone perception in musicians and non-musicians. Proceedings of Interspeech
2005, 397–400.
Amer, T., Kalender, B., Hasher, L., Trehub, S. E., & Wong, Y. (2013). Do
older professional musicians have cognitive advantages? PLOS
ONE, 8(8), e71630.
Bidelman, G. M., Hutka, S., & Moreno, S. (2013). Tone
language speakers and musicians share enhanced perceptual and cognitive abilities for musical pitch: Evidence for
bidirectionality between the domains of language and music. PLOS
ONE, 8(4), e60676.
Cason, N., Marmursztejn, M., D’Imperio, M., & Schön, D. (2020). Rhythmic
abilities correlate with L2 prosody imitation abilities in typologically different
languages. Language and
Speech, 63(1), 149–165.
Chin, T., & Rickard, N. S. (2012). The
Music USE (MUSE) questionnaire: An instrument to measure engagement in music. Music Perception:
An Interdisciplinary
Journal, 29(4), 429–446.
Chobert, J., & Besson, M. (2013). Musical
expertise and second language learning. Brain
Sciences, 3(2), 923–940.
Christiner, M., & Reiterer, S. M. (2015). A
Mozart is not a Pavarotti: Singers outperform instrumentalists on foreign accent
imitation. Frontiers in Human
Neuroscience, 91, 482.
Coumel, M., Christiner, M., & Reiterer, S. M. (2019). Second
language accent faking ability depends on musical abilities, not on working memory. Frontiers
in Psychology, 101.
Cutler, A. (2012). Native
listening: Language experience and the recognition of spoken words. MIT Press.
Dankovicová, J., House, J., Crooks, A., & Jones, K. (2016). The
relationship between musical skills, music training, and intonation analysis skills. Language
and
Speech, 50(2), 177–225.
Degrave, P. & Dedonder, J. (2018). A
French translation of the Goldsmiths Musical Sophistication Index, an instrument to assess self-reported musical skills and
behaviours. Journal of New Music
Research, 48(2), 138–144.
Degrave, P. (2019). Music
in the foreign language classroom: How and why? Journal of Language Teaching and
Research, 10(3), 412–420.
(2020). Music
training and the use of songs or rhythm: Do they help for word stress processing? International
Review of Applied Linguistics in Language Teaching.
(2021). The
contribution of prosody to intelligibility, comprehensibility and accentedness in foreign language acquisition: Can music
help? Nederlandse
Taalkunde, 26(2), 273–298.
Delogu, F., Lampis, G., & Olivetti Belardinelli, M. (2006). Music-to-language
transfer effect: May melodic ability improve learning of tonal languages by native nontonal
speakers? Cognitive
Processing, 7(3), 203–207.
Delogu, F., Lampis, G., & Belardinelli, M. (2010). From
melody to lexical tone: Musical ability enhances specific aspects of foreign language
perception. European Journal of Cognitive
Psychology, 22(1), 46–61.
Dupoux, E., Peperkamp, S., & Sebastián-Gallés, N. (2001). A
robust method to study stress “deafness”. The Journal of the Acoustical Society of
America, 110(3), 1606–1618.
Dupoux, E., Sebastián-Gallés, N., Navarrete, E., & Peperkamp, S. (2008). Persistent
stress “deafness”: The case of French learners of
Spanish. Cognition, 106(2), 682–706.
Engh, D. (2013). Why
use music in English language learning? A survey of the literature. English Language
Teaching, 6(2), 113–127.
Ezquerra, Á. O. (2012). Relación entre la aptitud musical y el grado de comprensibilidad del habla en una segunda lengua: Estudio de un
grupo de alumnos de español de la escuela secundaria inglesa [Exploring the
relationship between musical aptitude and degree of comprehensibility in L2 speech: Assessment of a group of English learners
of Spanish in the English secondary school system]. Porta
Linguarum, 171, 223–236.
Gottfried, T. L., Staby, A. M., & Ziemer, C. J. (2004). Musical
experience and Mandarin tone discrimination and imitation. The Journal of the Acoustical
Society of
America, 115(5), 2545–2545.
Gralińska-Brawata, A., & Rybińska, P. (2017). The
relationship between the production of word stress and musical abilities in Polish learners of
English. Research in
Language, 15(3), 265–283.
Kolinsky, R., Cuvelier, H., Goetry, V., Peretz, I., & Morais, J. (2009). Music
training facilitates word stress processing. Music Perception: An Interdisciplinary
Journal, 26(3), 235–246.
Larrouy-Maestri, P., Leybaert, J., & Kolinsky, R. (2013). The
benefit of musical and linguistic expertise on language acquisition in sung material. Musicae
Scientiae, 17(2), 217–228.
Lee, C.-Y., & Hung, T.-H. (2008). Identification
of Mandarin tones by English-speaking musicians and nonmusicians. The Journal of the Acoustical
Society of
America, 124(5), 3235–3248.
Li, P., Sepanski, S., & Zhao, X. (2006). Language
history questionnaire: A web-based interface for bilingual research. Behavior Research
Methods, 38(2), 202–210.
Marian, V., Blumenfeld, H. K., & Kaushanskaya, M. (2007). The
language experience and proficiency questionnaire (LEAP-Q): Assessing language profiles in bilinguals and
multilinguals. Journal of Speech, Language, and Hearing Research, 50(4), 940–967.
Marie, C., Delogu, F., Lampis, G., Belardinelli, M. O., & Besson, M. (2011). Influence
of musical expertise on segmental and tonal processing in Mandarin Chinese. Journal of
Cognitive
Neuroscience, 23(10), 2701–2715.
Moreno, S., & Bidelman, G. M. (2014). Examining
neural plasticity and cognitive benefit through the unique lens of musical training. Hearing
Research, 3081, 84–97.
Mosing, M. A., Madison, G., Pedersen, N. L., & Ullén, F. (2016). Investigating
cognitive transfer within the framework of music practice: Genetic pleiotropy rather than
causality. Developmental
Science, 19(3), 504–512.
Müllensiefen, D., Gingras, B., Musil, J., & Stewart, L. (2014). The
musicality of non-musicians: An index for assessing musical sophistication in the general
population. PLOS
ONE, 9(2), e89642.
Nardo, D. & Reiterer, S. M. (2009). Musicality
and phonetic language aptitude. In G. Dogil & S. M. Reiterer (Eds.), Language
talent and brain
activity (pp. 213–256). Mouton de Gruyter.
Norton, A., Winner, E., Cronin, K., Overy, K., Lee, D. J., & Schlaug, G. (2005). Are
there pre-existing neural, cognitive, or motoric markers for musical ability? Brain and
Cognition, 59(2), 124–134.
Pastuszek-Lipińska, B. (2008). Musicians
outperform nonmusicians in speech imitation. In R. Kronland-Martinet, S. Ystad & K. Jensen (Eds.), Computer
music modeling and retrieval: Sense of sounds. Springer.
Schön, D., Boyer, M., Moreno, S., Besson, M., Peretz, I., & Kolinsky, R. (2008). Songs
as an aid for language
acquisition. Cognition, 106(2), 975–983.
Thompson, W. F., Schellenberg, E. G., & Husain, G. (2003). Perceiving
prosody in speech. Effects of music lessons. Annals of the New York Academy of
Sciences, 9991, 530–532.
Trofimovich, P., & Baker, W. (2006). Learning
second language suprasegmentals: Effect of L2 experience on prosody and fluency characteristics of L2
speech. Studies in Second Language
Acquisition, 28(1), 1–30.
Tremblay, A. (2009). Phonetic
variability and the variable perception of L2 word stress by French Canadian
listeners. International Journal of
Bilingualism, 13(1), 35–62.
Turker, S., & Reiterer, S. M. (2021). Brain,
musicality, and language aptitude: A complex interplay. Annual Review of Applied
Linguistics, 411, 95–107.
Wallentin, M., Nielsen, A. H., Friis-Olivarius, M., Vuust, C., & Vuust, P. (2010). The
musical ear test, a new reliable test for measuring musical competence. Learning and Individual
Differences, 20(3), 188–196.
Werner, V. (2020). “Song-advantage”
or “cost of singing”? A research synthesis of classroom-based intervention studies applying lyrics-based language teaching
(1972–2019). Journal of Second Language Teaching &
Research, 8(1), 138–170.
Wolfe, D. E., & Noguchi, L. K. (2009). The
use of music with young children to improve sustained attention during a vigilance task in the presence of auditory
distractions. Journal of Music
Therapy, 46(1), 69–82.
Wong, P. C. M., & Perrachione, T. K. (2007). Learning
pitch patterns in lexical identification by native English-speaking adults. Applied
Psycholinguistics, 28(4), 565–585.
Zentner, M., & Strauss, H. (2017). Assessing
musical ability quickly and objectively: Development and validation of the Short-PROMS and the
Mini-PROMS. Annals of the New York Academy of
Sciences, 1400(1), 33–45.