Children’s Block-Building Skills and Mother-Child Block-Building Interactions Across Four U.S. Ethnic Groups

Play offers an unparalleled opportunity for young children to gain cognitive skills in informal settings. Block play in particular—including interactions with parents around block constructions—teaches children about intrinsic spatial features of objects (size, shape) and extrinsic spatial relations. In turn, early spatial cognition paves the way for later competencies in math and science. We assessed 4- and 5-year-old children’s spatial skill on a set of block-building constructions and examined mother-child block building interactions in 167 U.S. dyads from African American, Dominican, Mexican, and Chinese backgrounds. At both ages, children were instructed to copy several 3D block constructions, followed by a “break” during which mothers and children were left alone with the blocks. A form that contained pictures of test items was left on the table. Video-recordings of mother-child interactions during the break were coded for two types of building behaviors – test-specific construction (building structures on the test form) or free-form construction (building structures not on the test form). Chinese children outperformed Mexican, African American, and Dominican children on the block-building assessment. Further, Chinese and Mexican mother-child dyads spent more time building test-specific constructions than did African American and Dominican dyads. At an individual level, mothers’ time spent building test-specific constructions at the 4-year (but not 5-year) assessment, but not mothers’ initiation of block building interactions or verbal instructions, related to children’s performance, when controlling for ethnicity. Ethnic differences in children’s block-building performance and experiences emerge prior to formal schooling and provide a valuable window into sources of individual differences in early spatial cognition.

[1]  Autumn B. Hostetter,et al.  Gesture as simulated action: Revisiting the framework , 2018, Psychonomic Bulletin & Review.

[2]  L. S. Liben,et al.  Encouraging Maternal Guidance of Preschoolers' Spatial Thinking During Block Play. , 2018, Child development.

[3]  Haley A. Vlach,et al.  Producing Spatial Words Is Not Enough: Understanding the Relation Between Language and Spatial Cognition. , 2017, Child development.

[4]  E. Dearing,et al.  Maternal support of young children’s planning and spatial concept learning as predictors of later math (and reading) achievement , 2017 .

[5]  S. Sonnenschein,et al.  Racial/ethnic differences in kindergartners' reading and math skills: Parents' knowledge of children's development and home‐based activities as mediators , 2017 .

[6]  Sotaro Kita,et al.  How Do Gestures Influence Thinking and Speaking? The Gesture-for-Conceptualization Hypothesis , 2017, Psychological review.

[7]  Brian N. Verdine,et al.  IV. RESULTS-LINKS BETWEEN SPATIAL ASSEMBLY, LATER SPATIAL SKILLS, AND CONCURRENT AND LATER MATHEMATICAL SKILLS. , 2017, Monographs of the Society for Research in Child Development.

[8]  Stella F. Lourenco,et al.  Spatial Processing in Infancy Predicts Both Spatial and Mathematical Aptitude in Childhood , 2016, Psychological science.

[9]  Brian N. Verdine,et al.  Deconstructing building blocks: preschoolers' spatial assembly performance relates to early mathematical skills. , 2014, Child development.

[10]  Shannon M. Pruden,et al.  Children's spatial thinking: does talk about the spatial world matter? , 2011, Developmental science.

[11]  N. Newcombe,et al.  Block Talk: Spatial Language During Block Play , 2011 .

[12]  D. Lubinski,et al.  Spatial ability for STEM domains: Aligning over 50 years of cumulative psychological knowledge solidifies its importance. , 2009 .

[13]  M. Keels,et al.  Ethnic group differences in early head start parents’ parenting beliefs and practices and links to children's early cognitive development , 2009 .

[14]  P. Jose,et al.  Parental involvement in children's schooling: Different meanings in different cultures , 2009 .

[15]  Michael A. Arbib,et al.  Affordances, effectivities, and assisted imitation: Caregivers and the directing of attention , 2007, Neurocomputing.

[16]  M. Suizzo Parents' Goals and Values for Children , 2007 .

[17]  H. Keller Socialization for Competence: Cultural Models of Infancy , 2003, Human Development.

[18]  Susan H. Landry,et al.  Precursors to Mathematical Skills: Examining the Roles of Visual-Spatial Skills, Executive Processes, and Parenting Factors , 2003 .

[19]  P. Jose,et al.  Mathematics, vocabulary, and reading development in Chinese American and European American children over the primary school years , 2000 .

[20]  Yvonne M. Caldera,et al.  Children’s Play Preferences, Construction Play with Blocks, and Visual-spatial Skills: Are they Related? , 1999 .

[21]  J. Mandler,et al.  Early Sensitivity to Language-Specific Spatial Categories in English and Korean , 1999 .

[22]  S. Kosslyn,et al.  Motor processes in mental rotation , 1998, Cognition.

[23]  M. Bowerman,et al.  Learning to express motion events in English and Korean: The influence of language-specific lexicalization patterns , 1991, Cognition.

[24]  S. Reifel Block construction: Children's developmental landmarks in representation of space. , 1984 .

[25]  Shari R. Metzger,et al.  How Do Children Learn Mathematics? Chinese and Latina Immigrant Perspectives , 2018 .

[26]  D. Uttal,et al.  Spatial Thinking and STEM Education. When, Why, and How? , 2012 .

[27]  L. Tesar,et al.  Thirteen Ways of Looking at the Black-White Test Score Gap , 2007 .