TY - JOUR
T1 - Science Achievement Gaps Begin Very Early, Persist, and Are Largely Explained by Modifiable Factors
AU - Morgan, Paul L.
AU - Farkas, George
AU - Hillemeier, Marianne M.
AU - Maczuga, Steve
N1 - Funding Information:
Support for these analyses was provided through a Facilitated Project Grant from Penn State’s Social Science Research Institute, the National Center for Special Education Research, Institute of Education Sciences, U.S. Department of Education (R324A150126), as well as through an infrastructure grant (2R24HD041025) by the Eunice Kennedy Shriver National Institute of Child Health and Human Development. No official endorsement should thereby be inferred.
Publisher Copyright:
© 2016, 2016 AERA.
PY - 2016/1/1
Y1 - 2016/1/1
N2 - We examined the age of onset, over-time dynamics, and mechanisms underlying science achievement gaps in U.S. elementary and middle schools. To do so, we estimated multilevel growth models that included as predictors children’s own general knowledge, reading and mathematics achievement, behavioral self-regulation, sociodemographics, other child- and family-level characteristics (e.g., parenting quality), and school-level characteristics (e.g., racial, ethnic, and economic composition; school academic climate). Analyses of a longitudinal sample of 7,757 children indicated large gaps in general knowledge already evident at kindergarten entry. Kindergarten general knowledge was the strongest predictor of first-grade general knowledge, which in turn was the strongest predictor of children’s science achievement from third to eighth grade. Large science achievement gaps were evident when science achievement measures first became available in third grade. These gaps persisted until at least the end of eighth grade. Most or all of the observed science achievement gaps were explained by the study’s many predictors. Efforts to address science achievement gaps in the United States likely require intensified early intervention efforts, particularly those delivered before the primary grades. If unaddressed, science achievement gaps emerge by kindergarten and continue until at least the end of eighth grade.
AB - We examined the age of onset, over-time dynamics, and mechanisms underlying science achievement gaps in U.S. elementary and middle schools. To do so, we estimated multilevel growth models that included as predictors children’s own general knowledge, reading and mathematics achievement, behavioral self-regulation, sociodemographics, other child- and family-level characteristics (e.g., parenting quality), and school-level characteristics (e.g., racial, ethnic, and economic composition; school academic climate). Analyses of a longitudinal sample of 7,757 children indicated large gaps in general knowledge already evident at kindergarten entry. Kindergarten general knowledge was the strongest predictor of first-grade general knowledge, which in turn was the strongest predictor of children’s science achievement from third to eighth grade. Large science achievement gaps were evident when science achievement measures first became available in third grade. These gaps persisted until at least the end of eighth grade. Most or all of the observed science achievement gaps were explained by the study’s many predictors. Efforts to address science achievement gaps in the United States likely require intensified early intervention efforts, particularly those delivered before the primary grades. If unaddressed, science achievement gaps emerge by kindergarten and continue until at least the end of eighth grade.
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U2 - 10.3102/0013189X16633182
DO - 10.3102/0013189X16633182
M3 - Article
AN - SCOPUS:84959323115
SN - 0013-189X
VL - 45
SP - 18
EP - 35
JO - Educational Researcher
JF - Educational Researcher
IS - 1
ER -