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BENEFIT THREE
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Benefit three: Success in Developing Intelligence
Success in school and in society depends on an array of abilities. Without joining the intense ongoing debate about the nature of intelligence as a basic ability, we can demonstrate that some measures of a child’s intelligence are indeed increased with music instruction. Once again, this burgeoning range of data supports a long-established base of anecdotal knowledge to the effect that music education makes kids smarter. What is new and especially compelling, however, is a combination of tightly-controlled behavioral studies and groundbreaking neurological research that show how music study can actively contribute to brain development:
- In
a study conducted by Dr. Timo Krings, pianists and non-musicians of the
same age and sex were required to perform complex sequences of finger
movements. Their brains were scanned using a technique called “functional
magnetic resource imaging” (fMRI) which detects the activity levels of
brain cells. The non-musicians were able to make the movements as
correctly as the pianists, but less activity was detected in the pianists’
brains. Thus, compared to non-musicians, the brains of pianists are more
efficient at making skilled movements. These findings show that musical
training can enhance brain function. — Weinberger, Norm. “The Impact of
Arts on Learning.” MuSICa Research Notes 7, no. 2 (Spring 2000). Reporting
on Krings, Timo et al. “Cortical Activation Patterns during Complex Motor
Tasks in Piano Players and Control Subjects. A Functional Magnetic
Resonance Imaging Study.” Neuroscience Letters 278, no. 3 (2000): 189-93.
- “The
musician is constantly adjusting decisions on tempo, tone, style, rhythm,
phrasing, and feeling--training the brain to become incredibly good at
organizing and conducting numerous activities at once. Dedicated practice
of this orchestration can have a great payoff for lifelong attentional
skills, intelligence, and an ability for self-knowledge and expression.” —
Ratey John J., MD. A User’s Guide to the Brain. New York: Pantheon
Books, 2001.
- A
research team exploring the link between music and intelligence reported
that music training is far superior to computer instruction in
dramatically enhancing children's abstract reasoning skills, the skills
necessary for learning math and science. — Shaw, Rauscher, Levine,
Wright, Dennis and Newcomb, "Music training causes long-term
enhancement of preschool children's spatial-temporal reasoning,"
Neurological Research, Vol. 19, February 1997
- Students
in two Rhode Island elementary schools who were given an enriched,
sequential, skill-building music program showed marked improvement in
reading and math skills. Students in the enriched program who had started
out behind the control group caught up to statistical equality in reading,
and pulled ahead in math. — Gardiner, Fox, Jeffrey and Knowles, as
reported in Nature, May 23, 1996
- Researchers
at the University of Montreal used various brain imaging techniques to
investigate brain activity during musical tasks and found that
sight-reading musical scores and playing music both activate regions in
all four of the cortex's lobes; and that parts of the cerebellum are also
activated during those tasks. — Sergent, J., Zuck, E., Tenial, S., and
MacDonall, B. (1992). Distributed neural network underlying musical sight
reading and keyboard performance. Science, 257, 106-109.
- Researchers
in Leipzig found that brain scans of musicians showed larger planum
temporale (a brain region related to some reading skills) than those of
non-musicians. They also found that the musicians had a thicker corpus
callosum (the bundle of nerve fibers that connects the two halves of the
brain) than those of non-musicians, especially for those who had begun
their training before the age of seven. — Schlaug, G., Jancke, L.,
Huang, Y., and Steinmetz, H. (1994). In vivo morphometry of interhem
ispheric assymetry and connectivity in musicians. In I. Deliege (Ed.),
Proceedings of the 3d international conference for music perception and
cognition (pp. 417-418). Liege, Belgium.
- A
University of California (Irvine) study showed that after eight months of
keyboard lessons, preschoolers showed a 46% boost in their spatial
reasoning IQ. — Rauscher, Shaw, Levine, Ky and Wright, "Music and
Spatial Task Performance: A Causal Relationship," University of
California, Irvine, 1994
- Researchers
found that children given piano lessons significantly improved in their
spatial- temporal IQ scores (important for some types of mathematical
reasoning) compared to children who received computer lessons, casual
singing, or no lessons. — Rauscher, F.H., Shaw, G.L., Levine, L.J.,
Wright, E.L., Dennis, W.R., and Newcomb, R. (1997) Music training causes
long-term enhancement of preschool children's spatial temporal reasoning.
Neurological Research, 19, 1-8.
- A
McGill University study found that pattern recognition and mental
representation scores improved significantly for students given piano
instruction over a three-year period. They also found that self-esteem and
musical skills measures improved for the students given piano instruction.
— Costa-Giomi, E. (1998, April). The McGill Piano Project: Effects of
three years of piano instruction on children's cognitive abilities,
academic achievement, and self-esteem. Paper presented at the meeting of
the Music Educators National Conference, Phoenix, AZ.
- Researchers
found that lessons on songbells (a standard classroom instrument) led to significant
improvement of spatial-temporal scores for three- and four-year-olds. — Gromko,
J.E., and Poorman, A.S. (1998) The effect of music training on
preschooler's spatial-temporal task performance. Journal of Research in
Music Education, 46, 173-181.
- In
the Kindergarten classes of the school district of Kettle Moraine,
Wisconsin, children who were given music instruction scored 48 percent
higher on spatial-temporal skill tests than those who did not receive
music training. — Rauscher, F.H., and Zupan, M.A. (1999). Classroom
keyboard instruction improves kindergarten children's spatial-temporal
performance: A field study. Manuscript in press, Early Childhood Research
Quarterly.
- An
Auburn University study found significant increases in overall self-concept
of at-risk children participating in an arts program that included music,
movement, dramatics and art, as measured by the Piers-Harris Children’s
Self-Concept Scale. — N.H. Barry, Project ARISE: Meeting the needs of
disadvantaged students through the arts, Auburn University, 1992
- In
a study conducted by Dr. Timo Krings, pianists and non-musicians of the
same age and sex were required to perform complex sequences of finger
movements. Their brains were scanned using a technique called “functional
magnetic resource imaging” (fMRI) which detects the activity levels of
brain cells. The non-musicians were able to make the movements as
correctly as the pianists, but less activity was detected in the pianists’
brains. Thus, compared to non-musicians, the brains of pianists are more
efficient at making skilled movements. These findings show that musical
training can enhance brain function. — Weinberger, Norm. “The Impact of
Arts on Learning.” MuSICa Research Notes 7, no. 2 (Spring 2000). Reporting
on Krings, Timo et al. “Cortical Activation Patterns during Complex Motor
Tasks in Piano Players and Control Subjects. A Functional Magnetic
Resonance Imaging Study.” Neuroscience Letters 278, no. 3 (2000): 189-93.
