Musical and cognitive abilities in children from disadvantaged backgrounds


Human beings are born with several abilities which are amenable to change. A growing number of studies have focused on the relations between musical and cognitive abilities but research with children from disadvantaged communities is scarce. This study explored the relations between musical and cognitive abilities in disadvantaged children. Participants were 169 children from deprived neighborhoods, attending the second year of primary education in public schools that do not offer music education. Children’s musical abilities (perception) were measured with the Melody, Rhythm, and Memory tests of Montreal Battery for the Evaluation of Musical Abilities and their cognitive abilities, with five WISC-III subtests (Similarities, Vocabulary, Cubes, Picture Arrangement, and Digits). Parental level of education was obtained from a questionnaire on the socio-economic status of children’s families. Results revealed (1) few and weak correlations between musical and cognitive abilities; (2) stronger correlations of Socioeconomic Status (SES) with cognitive than with musical abilities; (3) digit span predicts all musical abilities; 4) a clear factorial distinction between musical and cognitive abilities. Overall, results suggest that disadvantaged children’s musical and cognitive abilities, as measured by the present instruments, are partly independent regarding processing components.

Palabras clave

Musical ability; cognitive ability; children; socio-economic status.

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Ackerman, P.L., Beier, M.E. & Boyle, M.O. (2005). Working memory and intelligence: The same or different constructs? Psychological Bulletin, 131(1), 30-60.

Anaya, E.M., Pisoni, D.B. & Kronenberger, W.G. (2017). Visual-spatial sequence learning and memory in trained musicians. Psychology of Music, 45(1), 5-21. https://doi:10.1177/0305735616638942

Anvari, S.H., Trainor, L.J., Woodside, J. & Levy, B.A. (2002). Relations among musical skills, phonological processing, and early reading ability in preschool children. Journal of Experimental Child Psychology, 83(2), 111-130.

Arenas, M.M., Tortosa, F.R.L. & López, M.C.S. (2017). Aptitudes musicales e intelectuales en escolares de 10 a 12 años de la comunidad autónoma de la Región de Murcia. Revista Electrónica de LEEME, 38, 28-40.

Benítez, M.A., Diaz Abrahan, V.M. & Justel, N. (2021). Plasticidad cerebral y entrenamiento musical en infantes: Una revisión sistemática.  Revista Electrónica de LEEME, 47, 39-60.

Bornstein, M.H., Hahn, C.S. & Putnick, D.L. (2016). Long-term stability of core language skill in children with contrasting language skills. Developmental Psychology, 52(5), 704-716.

Boyle, J.D. (1992). Evaluation of music ability. In R. Colwell (Ed.), Handbook of research in music teaching and learning (pp.247-265). Schirmer Books.

Braswell, C., Decuir, A., Hoskins, C., Kvet, E. & Oubre, G. (1988). Relation between musical aptitude and intelligence among mentally retarded, advantaged, and disadvantaged subjects. Perceptual and Motor Skills, 67(2), 359-364.

Butkovic, A., Ullén, F. & Mosing, M.A. (2015). Personality related traits as predictors of music practice: Underlying environmental and genetic influences. Personality and Individual Differences, 74, 133-138.

Campbell, D.T. & Fiske, D.W. (1959). Convergent and discriminant validation by the multitrait-multimethod matrix. Psychological Bulletin, 56(2), 81-105.

Chein, J.M., Moore, A.B. & Conway, A.R.A. (2011). Domain-general mechanisms of complex working memory span. NeuroImage, 54(1), 550-559.

Couvignou, M. & Kolinsky, R. (2021). Comorbidity and cognitive overlap between developmental dyslexia and congenital amusia in children. Neuropsychologia, 155, 107811.

Degé, F., Kubicek, C. & Schwarzer, G. (2015). Associations between musical abilities and precursors of reading in preschool aged children. Frontiers in Psychology, 6, Article 1220.

Doidge, N. (2007). The brain that changes itself. Penguin.

Doxey, C. & Wright, C. (1990). An exploratory study of children’s music ability. Early Childhood Research Quarterly, 5(3), 425-440.

Gardner, H.E. (1983). Frames of mind. The theory of multiple intelligences. Basic Books.

Habibi, A., Damasio, A., Ilari, B., Elliott Sachs, M. & Damasio, H. (2018). Music training and child development: a review. Annals of the New York Academy of Sciences, 1423(1), 73-81.

Haier, R.J. (2017). The neuroscience of intelligence. Cambridge University Press.

Hallam, S. (2006). Musicality. In G. McPherson (Ed.), The child as musician: A handbook of musical development (pp.93-110). Oxford University Press.

Hallam, S. (2010). 21st century conceptions of musical ability. Psychology of Music, 38(3), 308-330.

Hobbs, C. (1985). A comparison of the music aptitude, scholastic aptitude, and academic achievement of young children. Psychology of Music, 13(2), 93-98.

Ilari, B. (2020). Longitudinal Research on Music Education and Child Development: Contributions and Challenges. Music & Science, 3, 1-21.

Ilari, B., Keller, P., Damasio, H. & Habibi, A. (2016). The development of musical skills of underprivileged children over the course of one year: A study in the context of an El Sistema-inspired program. Frontiers in Psychology, 7(62), 1-13.

James, C., Zuber, S., Dupuis-Lozeron, E., Abdili, L., Gervaise, D. & Kliegel, M. (2020). How musicality, cognition and sensorimotor skills relate in musically untrained children. Swiss Journal of Psychology, 79, 101-112.

Karma, K. (2007). Musical aptitude definition and measure validation: Ecological validity can endanger the construct validity of musical aptitude tests. Psychomusicology: A Journal of Research in Music Cognition, 19(2), 79-90.

Kragness, H.E., Swaminathan, S., Cirelli, L.K. & Schellenberg, E.G. (2021). Individual differences in musical ability are stable over time in childhood. Developmental Science, 24(4), e13081.

Kranzler, J.H. (1997). What does the WISC-III measure? Comments on the relationship between intelligence, working memory capacity, and information processing speed and efficiency. School Psychology Quarterly, 12(2), 110-116.

Lemos, G.C., Almeida, L.S. & Colom, R. (2011). Intelligence of adolescents is related to their parents’ educational level but not to family income. Personality and Individual Differences, 50(7), 1062-1067.

Lynn, R., Wilson, R.G. & Gault, A. (1989). Simple musical tests as measures of spearman’s g. Personality and Individual Differences, 10(1), 25-28.

Mota, G. (1997). Detecting young children’s musical aptitude: a comparison between Standardized Measures of Music Aptitude and ecologically valid musical performances. Bulletin of the Council for Research in Music Education, 133, 89-94.

Nelson, D.J., Barresi, A.L. & Barrett, J.R. (1992). Musical cognition within an analogical setting: Toward a cognitive component of musical aptitude in children. Psychology of Music, 20(1), 70-79.

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.

Peretz, I. (2008). Musical disorders: from behavior to genes. Current Directions in Psychological Science, 17(5), 329-333.

Peretz, I. (2009). Music, language, and modularity framed in action. Psychologica Belgica, 49(2-3), 157.

Peretz, I., Gosselin, N., Nan, Y., Caron-Caplette, E., Trehub, S.E. & Béland, R. (2013). A novel tool for evaluating children’s musical abilities across age and culture. Frontiers in Systems Neuroscience, 7, 1-10.

Raven, J.C. & Court, J.H. (1938). Raven’s progressive matrices. Western Psychological Services.

Ready, D.D. & Wright, L. (2011). Accuracy and inaccuracy in teachers’ perceptions of young children’s cognitive abilities: the role of child background and classroom context. American Educational Research Journal, 48(2), 335-360.

Rindermann, H. & Ceci, S.J. (2018). Parents’ education is more important than their wealth in shaping their children’s intelligence: results of 19 samples in seven countries at different developmental levels. Journal for the Education of the Gifted, 41(4), 298-326.

Sallat, S. & Jentschke, S. (2015). Music perception influences language acquisition: melodic and rhythmic-melodic perception in children with specific language impairment. Behavioural Neurology, 2015, e606470.

Schellenberg, E.G. (2011). Examining the association between music lessons and intelligence: Music lessons and intelligence. British Journal of Psychology, 102(3), 283-302.

Schellenberg, E.G., Weiss, M.W., Peng, C. & Alam, S. (2019). Fine-grained implicit memory for key and tempo. Music & Science, 2, 1-14.

Schellenberg, E.G. & Weiss, M.W. (2013). Music and cognitive abilities. In D. Deutch (Ed.), The psychology of music (Third Edition) (pp.499-550). Elsevier.

Seashore, C.E. (1919). The psychology of musical talent. Silver, Burdett & Co.

Sergeant, D. & Thatcher, G. (1974). Intelligence, social status, and musical abilities. Psychology of Music, 2(2), 32-57.

Shuter-Dyson, R. (1999). Musical ability. In D. Deutsch (Ed.), The psychology of music (Second Edition) (pp.627-651). Academic Press.

Simões, M. & Ferreira, C. (2003). Escala de Inteligência de Wechsler para Crianças-III. Manual David Wechsler. CEGOC-TEA.

Steinbrink, C., Knigge, J., Mannhaupt, G., Sallat, S. & Werkle, A. (2019). Are temporal and tonal musical skills related to phonological awareness and literacy skills? Evidence from two cross-sectional studies with children from different age groups. Frontiers in Psychology, 10, 1-16.

Stern, E. (2017). Individual differences in the learning potential of human beings. npj Science Learn, 2, 2.

Strait, D.L., Hornickel, J. & Kraus, N. (2011). Subcortical processing of speech regularities underlies reading and music aptitude in children. Behavioral and Brain Functions, 7(1), 44.

Swaminathan, S. & Schellenberg, E.G. (2018). Musical competence is predicted by music training, cognitive abilities, and personality. Scientific Reports, 8(1), 9223.

Swaminathan, S. & Schellenberg, E.G. (2019). Music training and cognitive abilities: Associations, causes, and consequences. In M.H. Thaut & D.A. Hodges (Eds.), The Oxford handbook of music and the brain (pp.644-670). Oxford University Press.

Swaminathan, S. & Schellenberg, E.G. (2020). Musical ability, music training, and language ability in childhood. Journal of Experimental Psychology: Learning, Memory, and Cognition, 46(12), 2340-2348.

Swaminathan, S., Schellenberg, E.G. & Khalil, S. (2017). Revisiting the association between music lessons and intelligence: Training effects or music aptitude? Intelligence, 62, 119-124.

Torppa, R. & Huotilainen, M. (2019). Why and how music can be used to rehabilitate and develop speech and language skills in hearing-impaired children. Hearing Research, 380, 108-122.

Treffert, D.A. (2009). The savant syndrome: An extraordinary condition. A synopsis: past, present, future. Philosophical Transactions of the Royal Society B: Biological Sciences, 364(1522), 1351-1357.

Ullén, F., Mosing, M.A., Holm, L., Eriksson, H. & Madison, G. (2014). Psychometric properties and heritability of a new online test for musicality, the Swedish Musical Discrimination Test. Personality and Individual Differences, 63, 87-93.

von Stumm, S. & Plomin, R. (2015). Socioeconomic status and the growth of intelligence from infancy through adolescence. Intelligence, 48, 30-36.

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.

Waterhouse, L. (2006). Multiple intelligences, the Mozart effect, and emotional intelligence: A critical review. Educational Psychologist, 41, 207-225.

Wing, H. (1968). Tests of musical ability of man. Macmillan.

Wechsler, D. (1991). Wechsler Intelligence Scale for Children. Psychological Corporation.

Young, R. & Nettelbeck, T. (1995). The abilities of a musical savant and his family. Journal of Autism and Developmental Disorders, 25, 231-248.

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La recepción de originales para la sección "ARTÍCULOS" y "DIFUSIÓN DE PUBLICACIONES" está abierta todo el año. La recepción de documentos para la sección "MONOGRÁFICO" está abierta hasta la fecha de cierre de recepción de documentos de cada uno de ellos. Mencione el título del Monográfico al que se dirigen en la cabecera del trabajo.

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