Training working memory in kindergarten children: Effects on working memory and early numeracy

This study investigated the relationship between working memory and early numeracy. It aimed to explore the possibility of training young children’s working memory and to investigate the effects of such training both on working memory and on the specific domain of early numerical skills. Measures of working memory and numeracy were used with low-performing children in kindergarten. A total of 51 five-year-old children received one of two different versions of working memory training or no training at all. The two versions differed in the type of information the children were given to practice: non-numerical or numerical. After a pretest, 4 weeks of intervention took place, followed by a posttest. Children who participated in one of the working memory interventions significantly improved their working memory skills. Furthermore, their early numeracy skills also improved. Differences between both experimental conditions were small.

[1]  Bruce D. McCandliss,et al.  Training, maturation, and genetic influences on the development of executive attention. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[2]  E. Kroesbergen,et al.  Working memory and early mathematics: Possibilities for early identification of mathematics learning disabilities , 2007 .

[3]  C. Semenza,et al.  The role of working memory in the association between number magnitude and space. , 2008, Acta psychologica.

[4]  Clarissa A. Thompson,et al.  Early development of spatial-numeric associations: evidence from spatial and quantitative performance of preschoolers. , 2010, Developmental science.

[5]  Mark R. Shinn,et al.  A Preliminary Investigation Into the Identification and Development of Early Mathematics Curriculum-Based Measurement , 2004 .

[6]  R. Engle,et al.  The nature of individual differences in working memory capacity: active maintenance in primary memory and controlled search from secondary memory. , 2007, Psychological review.

[7]  V Menon,et al.  Differential contribution of specific working memory components to mathematics achievement in 2nd and 3rd graders. , 2010, Learning and individual differences.

[8]  G. Scerif,et al.  Executive Functioning as a Predictor of Children's Mathematics Ability: Inhibition, Switching, and Working Memory , 2001, Developmental neuropsychology.

[9]  Russell Gersten,et al.  Number Sense , 1999 .

[10]  M. W. van der Molen,et al.  Effectiveness of a computerised working memory training in adolescents with mild to borderline intellectual disabilities. , 2010, Journal of intellectual disability research : JIDR.

[11]  D. Geary Mathematical Disabilities: Reflections on Cognitive, Neuropsychological, and Genetic Components. , 2010, Learning and individual differences.

[12]  E. Kroesbergen,et al.  Number Sense in Low-Performing Kindergarten Children: Effects of a Working Memory and an Early Math Training , 2012 .

[13]  H. Swanson,et al.  Cognitive profile of adolescents with math disabilities: Are the profiles different from those with reading disabilities? , 2012, Child neuropsychology : a journal on normal and abnormal development in childhood and adolescence.

[14]  S. Gathercole,et al.  Working Memory and Learning: A Practical Guide for Teachers , 2008 .

[15]  Susan E. Gathercole,et al.  Working memory and phonological awareness as predictors of progress towards early learning goals at school entry , 2005 .

[16]  S. Wiebe,et al.  Short-Term Memory, Working Memory, and Executive Functioning in Preschoolers: Longitudinal Predictors of Mathematical Achievement at Age 7 Years , 2008, Developmental neuropsychology.

[17]  W. Schneider,et al.  Exploring the impact of phonological awareness, visual-spatial working memory, and preschool quantity-number competencies on mathematics achievement in elementary school: findings from a 3-year longitudinal study. , 2009, Journal of experimental child psychology.

[18]  H. Swanson,et al.  Reading comprehension and working memory in learning-disabled readers: Is the phonological loop more important than the executive system? , 1999, Journal of experimental child psychology.

[19]  Torkel Klingberg,et al.  Training and transfer effects of executive functions in preschool children. , 2009, Developmental science.

[20]  Nancy Kanwisher,et al.  Non-symbolic arithmetic in adults and young children , 2006, Cognition.

[21]  C. Cornoldi,et al.  Working Memory Failures in Children with Arithmetical Difficulties , 2008, Child neuropsychology : a journal on normal and abnormal development in childhood and adolescence.

[22]  C. Gilmore,et al.  Children's mapping between symbolic and nonsymbolic representations of number. , 2009, Journal of experimental child psychology.

[23]  Cheng,et al.  Training in Place-Value Concepts Improves Children's Addition Skills , 1997, Contemporary educational psychology.

[24]  Nancy C. Jordan,et al.  Using Kindergarten Number Sense to Predict Calculation Fluency in Second Grade , 2008, Journal of learning disabilities.

[25]  Mary K. Hoard,et al.  Numerical and arithmetical cognition: patterns of functions and deficits in children at risk for a mathematical disability. , 1999, Journal of experimental child psychology.

[26]  T. Alloway,et al.  Investigating the predictive roles of working memory and IQ in academic attainment. , 2010, Journal of experimental child psychology.

[27]  J. Hautamäki,et al.  Mathematical thinking intervention programmes for preschool children with normal and low number sense , 2005 .

[28]  Susanne M. Jaeggi,et al.  Working memory training improves reading processes in typically developing children , 2012, Child neuropsychology : a journal on normal and abnormal development in childhood and adolescence.

[29]  Pirjo Aunio,et al.  Visuospatial working memory and early numeracy , 2003, Educational and Child Psychology.

[30]  Diane Pedrotty Bryant,et al.  Commentary on early identification and intervention for students with mathematics difficulties. , 2005, Journal of learning disabilities.

[31]  E. Kroesbergen,et al.  Individual Differences in Early Numeracy , 2009 .

[32]  Mary K. Hoard,et al.  Cognitive mechanisms underlying achievement deficits in children with mathematical learning disability. , 2007, Child development.

[33]  Zhang Yu-Xuan,et al.  Working Memory Training , 2020, Cognitive Training.

[34]  S. Dowsett,et al.  The development of inhibitory control in preschool children: effects of "executive skills" training. , 2000, Developmental psychobiology.

[35]  A. V. Kleeck,et al.  Training in Phonological AwarenessGeneralizes to Phonological Working Memory: A Preliminary Investigation , 2006 .

[36]  Sanne H. G. van der Ven,et al.  Executive Functions as Predictors of Math Learning Disabilities , 2011, Journal of learning disabilities.

[37]  S. Griffin The cognitive sciences offer insights into how young students can best learn math. , 2004 .

[38]  Marie-Pascale Noël,et al.  Counting on working memory when learning to count and to add: a preschool study. , 2009, Developmental psychology.

[39]  C. Hamilton,et al.  What develops in visuo-spatial working memory development? , 2003 .

[40]  P. Lachenbruch Statistical Power Analysis for the Behavioral Sciences (2nd ed.) , 1989 .

[41]  K. A. Ericsson,et al.  Long-term working memory. , 1995, Psychological review.

[42]  H. Swanson,et al.  The Relationship Between Working Memory and Mathematical Problem Solving in Children at Risk and Not at Risk for Serious Math Difficulties , 2004 .

[43]  A. Baddeley Exploring the Central Executive , 1996 .

[44]  A. Baddeley The episodic buffer: a new component of working memory? , 2000, Trends in Cognitive Sciences.

[45]  Russell Gersten,et al.  Early Identification and Interventions for Students With Mathematics Difficulties , 2005, Journal of learning disabilities.

[46]  Jacob Cohen Statistical Power Analysis for the Behavioral Sciences , 1969, The SAGE Encyclopedia of Research Design.

[47]  W. Fias,et al.  Number sense in children with visuospatial disabilities: Orientation of the mental number line , 2005 .

[48]  Tracy Packiam Alloway,et al.  Verbal and visuospatial short-term and working memory in children: are they separable? , 2006, Child development.

[49]  H. Forssberg,et al.  Training of Working Memory in Children With ADHD , 2002 .

[50]  Marie-Pascale Noël,et al.  Developmental Changes in the Profiles of Dyscalculia: An Explanation Based on a Double Exact-and-Approximate Number Representation Model , 2011, Front. Hum. Neurosci..

[51]  M. Barnes,et al.  Working memory and mathematics: A review of developmental, individual difference, and cognitive approaches. , 2010 .

[52]  J. Lehto Working Memory and School Achievement in the Ninth Form , 1995 .

[53]  J. Bisanz,et al.  Representation and working memory in early arithmetic. , 2005, Journal of experimental child psychology.

[54]  H. Forssberg,et al.  Computerized training of working memory in children with ADHD--a randomized, controlled trial. , 2005, Journal of the American Academy of Child and Adolescent Psychiatry.

[55]  Stanislas Dehaene,et al.  Précis of The Number Sense , 2001 .

[56]  Joni Holmes,et al.  Adaptive training leads to sustained enhancement of poor working memory in children. , 2009, Developmental science.

[57]  S. Griffin Teaching Number Sense. , 2004 .

[58]  B. Butterworth,et al.  Updating Working Memory and arithmetical attainment in school , 2011 .

[59]  David C. Geary,et al.  Development of Number Line Representations in Children With Mathematical Learning Disability , 2008, Developmental neuropsychology.