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7 - Quality and Continuity in Young Children’s Educational Experiences

from Part II - Continuity from Preschool to Third Grade

Published online by Cambridge University Press:  21 December 2018

By
Deborah J. Stipek
Edited by
Arthur J. Reynolds  and
Judy A. Temple
Arthur J. Reynolds
Affiliation:
University of Minnesota
Judy A. Temple
Affiliation:
University of Minnesota
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Sustaining Early Childhood Learning Gains
Program, School, and Family Influences
 , pp. 160 - 181
Publisher: Cambridge University Press
Print publication year: 2019

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References

August, D. & Shanahan, T. (2006). Developing Literacy in Second-Language Learners. Mahwah, NJ: Lawrence Erlbaum Associates.Google Scholar
Bailey, D. H., Siegler, R. S. & Geary, D. C. (2014). Early predictors of middle school fraction knowledge. Developmental Science, 17(5), 775785. https://doi.org/10.1111/desc.12155CrossRefGoogle ScholarPubMed
Barnett, S., Jung, K., Yarosz, D. et al. (2008). Educational effects of the tools of the mind curriculum: a randomized trial. Early Childhood Research Quarterly, 23, 299313.Google Scholar
Barnett, S. W. (2011). Effectiveness of early education interventions. Science, 333, 975978.Google Scholar
Bierman, K. & Torres, M. (2016). Promoting the development of executive functions through early education and prevention programs, in Griffin, J. A., Freund, L.S. & McCardle, P. (Eds.), Executive Function in Preschool Age Children: Integrating Measurement, Neurodevelopment and Translational Research. Washington, DC: American Psychological Association.Google Scholar
Bogard, K. & Takanishi, R. (2005). PK–3: An aligned and coordinated approach to education for children 3 to 8 years old. SRCD Social Policy Report.Google Scholar
Cai, J., Ding, M. & Wang, T. (2013). How do exemplary Chinese and U.S. mathematics teachers view instructional coherence? Educational Studies in Mathematics, 85(2), 265280.Google Scholar
Caspe, M. (2005). A catalog of family process measures. The evaluation exchange: evaluating family involvement programs. Harvard Family Research Project, 10(4), 89.Google Scholar
Chambers, B., Cheung, A. & Slavin, T. (2016). Literacy and language outcomes of comprehensive and developmental-constructivist approaches to early childhood education: a systematic review. Educational Research Review, 18, 88111.Google Scholar
Clements, D. H. & Sarama, J. (2014). Learning and Teaching Early Math: The Learning Trajectories Approach (2nd edn.). New York, NY: Routledge.CrossRefGoogle Scholar
Currie, J. & Thomas, D. (2000). School quality and the longer-term effects of Head Start. Journal of Human Resources, 35(4), 755774.Google Scholar
DiPerna, J. C., Lei, P. W. & Reid, E. E. (2007). Kindergarten predictors of mathematical growth in the primary grades: an investigation using the early childhood longitudinal study, kindergarten cohort. Journal of Educational Psychology, 99(2), 369379.Google Scholar
Duncan, G. J., Dowsett, C. J., Claessens, A. et al. (2007). School readiness and later achievement. Developmental Psychology, 43(6),14281446.CrossRefGoogle ScholarPubMed
Duncan, G. & Magnuson, K. (2011). The nature and impact of early achievement skills, attention skills, and behavior problems, in Duncan, G. & Murnane, R. (Eds.), Whither Opportunity: Rising Inequality, Schools, and Children’s Life Chances (pp. 4769). New York, NY: Russell Sage.Google Scholar
Durlak, J., Weissberg, R., Dymnicki, A., Taylor, R. & Schellinger, K. (2011). The Impact of enhancing students’ social and emotional learning: a meta-analysis of school-based universal interventions. Child Development, 82(1), 405432.Google Scholar
Emmer, E. T. & Strough, L. (2001). Classroom management: a critical part of educational psychology, with implications for teacher education. Educational Psychologist, 36, 103112.Google Scholar
Engel, M., Claessens, A. & Finch, M. (2013). Teaching students what they already know? The (Mis) Alignment between mathematics instructional content and student knowledge in kindergarten. Educational Evaluation and Policy Analysis, 35(2), 157178.CrossRefGoogle Scholar
Espinosa, L. (2008). Challenging Common Myths about Young English Language Learners. Policy Brief No. 8: Advancing PK–3. Foundation for Child Development. Retrieved from http://fcd-us.org/sites/default/files/MythsOfTeachingELLsEspinosa.pdfGoogle Scholar
Farran, D., Lipsey, M. & Wilson, S. (2011). Experimental evaluation of the Tools of the Mind Pre-K curriculum. Working paper available online. Retrieved from http://peabody.vanderbilt.edu/Documents/pdf/PRI/Tools_Evaluation_Report.pdfGoogle Scholar
Ferrini-Mundy, J., Burrill, G. & Schmidt, W. H. (2007). Building teacher capacity for implementing curricular coherence: mathematics teacher professional development tasks. Journal of Mathematics Teacher Education, 10(4–6), 311324.Google Scholar
Frye, D., Baroody, A. J., Burchinal, M. et al. (2013). Teaching Math to Young Children: A Practice Guide. Washington, DC: National Center for Education Evaluation and Regional Assistance (NCEE), Institute of Education Sciences (IES), US Department of Education. Retrieved from https://ies.ed.gov/ncee/wwc/Docs/PracticeGuide/early_math_pg_111313.pdfGoogle Scholar
Fuller, B., Bein, E., Bridges, M., Kim, Y. & Rabe-Hesketh, S. (2017). Do academic preschools yield stronger benefits? Cognitive emphasis, dosage, and early learning. Journal of Applied Developmental Psychology 52, 111Google Scholar
Galindo, C. & Fuller, B. (2010). The social competence of Latino kindergartners and growth in mathematical understanding. Developmental Psychology, 46(3), 579592.CrossRefGoogle ScholarPubMed
Goldenberg, C., Hicks, J. & Lit, I. (2013). Teaching young English learners, in Reutzel, R. (Ed.), Handbook of Research-Based Practice in Early Childhood Education (pp. 140160). New York, NY: Guilford Press.Google Scholar
Good, T. & Grouws, D. (1977). Teaching effects: a process-product study of fourth grade mathematics classrooms. Journal of Teacher Education, 28, 4954.CrossRefGoogle Scholar
Graves, B. (2006). PK–3: What is it and how do we know it works? Foundation for Child Development Working Paper 4: Advancing PK–3.Google Scholar
Hamre, B. (2014). Teachers’ daily interactions with children: an essential ingredient in effective early childhood programs. Child Development Perspectives, 4, 223230.Google Scholar
Hamre, B. K. & Pianta, R. C. (2005), Can instructional and emotional support in the first-grade classroom make a difference for children at risk of school failure? Child Development, 76, 949967.Google Scholar
Hanushek, E. (2002). Teacher quality, in Izumi, L. T. and Evers, W. M. (Ed.), Teacher Quality. Stanford, CA: Hoover Institution Press, pp. 112.Google Scholar
Henderson, A. & Mapp, K. (2002). A New Wave of Evidence: The Impact of School, Family and Community Connections on Student Achievement. Austin, TX: Southwest Educational Development Laboratory. www.sedl.org/connectionsGoogle Scholar
Hirsh-Pasek, K., Golinkoff, R., Berk, L. & Singer, D. (2009). A Mandate for Playful Learning in Preschool: Presenting the Evidence. New York, NY: Oxford University Press.Google Scholar
Hyson, M., Whittaker, J., Zaslow, M. et al. (2011). Measuring the quality of environmental supports for young children’s social and emotional competence, in Zaslow, M., Martinez-Beck, I., Tout, K. & Halle, T. (Eds.), Quality Measurement in Early Childhood Settings (pp. 105134). Baltimore, MD: Paul Brookes Publishing Co.Google Scholar
Jordan, N. C., Kaplan, D., Ramineni, C. & Locuniak, M. N. (2009). Early math matters: kindergarten number competence and later mathematics outcomes. Developmental Psychology, 45(3), 850867. https://doi.org/10.1037/a0014939Google Scholar
Kauerz, K. (2006). Ladders of learning: Fighting fade-out by advancing PK–3 alignment. New America Foundation Early Education Initiative, Issue Brief No. 3.Google Scholar
Krashen, S. (2003). Explorations in Language Acquisition and Use. Portsmouth: Heinemann.Google Scholar
Luciana, M. & Nelson, C. (1998). The functional emergence of prefrontally-guided working memory systems in four- to eight-year-old children. Neuropsychologia, 36, 273293.Google Scholar
National Association for the Education of Young Children, & National Council of Teachers of Mathematics. (2010). Early childhood mathematics: Promoting good beginnings (Joint position statement). Washington, DC. Retrieved from www.naeyc.org/files/naeyc/file/positions/psmath.pdfGoogle Scholar
National Reading Panel (US) & National Institute of Child Health and Human Development (US). (2000). Report of the National Reading Panel: Teaching Children to Read: An Evidence-Based Assessment of the Scientific Research Literature on Reading and Its Implications for Reading Instruction: Reports of the Subgroups. Washington, DC: National Institute of Child Health and Human Development, National Institutes of Health.Google Scholar
National Research Council (US). (1998). Preventing Reading Difficulties in Young Children. Washington, DC: The National Academies Press.Google Scholar
National Research Council (US). (2001). Adding It Up: Helping Children Learn Mathematics. Washington, DC: The National Academies Press.Google Scholar
National Research Council (US). (2008). Early Childhood Assessment: Why, What, and How. Washington, DC: The National Academies Press.Google Scholar
National Research Council (US). (2009). Mathematics learning in early childhood: paths toward excellence and equity, in Cross, C., Woods, T. & Schweingruber, H. (Eds.), Committee on Early Childhood Mathematics. Washington, DC: The National Academies Press.Google Scholar
National Research Council (U.S.). (2010). Language Diversity, School Learning, and Closing Achievement Gaps: A Workshop Summary. Washington, DC: The National Academies Press.Google Scholar
National Science Foundation. (2010). Science and Engineering Indicators. Retrieved from www.nsf.gov/statistics/seind10/figures.htm.Google Scholar
Nesbitt, K., Farran, D. & Fuhs, M. (2015). Executive function skills and academic achievement gains in prekindergarten: Contributions of learning-related behaviors. Developmental Psychology, 51(7), 865878.Google Scholar
Nguyen, T., Watts, T. W., Duncan, G. J. et al. (2016). Which preschool mathematics competencies are most predictive of fifth grade achievement? Early Childhood Research Quarterly, 36, 550560.Google Scholar
Obradovic, J., Portilla, X. A. & Boyce, W. T. (2012). Executive functioning and developmental neuroscience, in Pianta, R. (Ed.), Handbook of Early Childhood Education (pp. 324351). New York, NY: Guilford Press.Google Scholar
Pagani, C., Archambault, I. & Janosz, M. (2010). School readiness and later achievement: A French Canadian replication and extension. Developmental Psychology, 46, 984994.Google Scholar
Payton, J., Weissberg, R., Durlak, J. et al. (2008). The Positive Impact of Social and Emotional Learning for Kindergarten to Eighth-Grade Students: Findings from Three Scientific Reviews. Chicago, IL: Collaborative for Academic, Social, and Emotional Learning.Google Scholar
Peske, H. G. & Haycock, K. (2006). Teaching Inequality: How Poor and Minority Students Are Shortchanged on Teacher Quality. Washington, DC: The Education Trust.Google Scholar
Pianta, R. (1999). Enhancing Relationships Between Children and Teachers. Washington, DC: American Psychological Association.Google Scholar
Pomerantz, E. M., Moorman, E. A. & Cheung, C. S. (2012). Parents’ involvement in children’s learning, in Harris, K. R., Graham, S., Urdan, T. C. et al. (Eds.), APA Educational Psychology Handbook (pp. 417440). Washington, DC: American Psychological Association.Google Scholar
Preschool Curriculum Evaluation Research Consortium (2008). Effects of Preschool Curriculum Programs on School Readiness Report from the Preschool Curriculum Evaluation Research Initiative. Washington, DC: Institute for Education Sciences.Google Scholar
Pressley, M. (2002). Before reading instruction begins, in Pressley, M. (Ed.), Reading Instruction That Works: The Case for Balanced Teaching (2nd edn., pp. 90133). New York, NY: Guilford.Google Scholar
Ramey, D. & Gambrell, L. (2013). Motivating and engaging children in early childhood settings, in Reutzel, R. (Ed.). Handbook of Research-Based Practice in Early Childhood Education (pp. 193204). New York, NY: Guilford Press.Google Scholar
Raver, C. C., Jones, S. M., Li-Grining, C. P. et al. (2011). CSRP’s impact on low-income preschoolers’ pre-academic skills: Self-regulation as a mediating mechanism. Child Development, 82(1), 362378.Google Scholar
Reynolds, A., Magnuson, K. & Ou, S. (2006). PK–3 education: programs and practices that work in children’s first decade. Foundation for Child Development Working Paper 6: Advancing PK–3.Google Scholar
Romano, E., Kohen, D., Babchishin, L. & Pagani, L. S. (2010). School readiness and later achievement: replication and extension study using a nation-wide Canadian survey. Developmental Psychology, 46, 9951007.Google Scholar
Rudasill, K., Gallagher, K. & White, J. (2010). Temperamental attention and activity, classroom emotional support, and academic achievement in third grade. Journal of School Psychology, 48, 113134.Google Scholar
Sabol, T. & Pianta, R. (2012). Recent trends in research on teacher–child relationships. Attachment and Human Development, 14(3), 213231.Google Scholar
Schweinhart, L., Barnes, H. & Weikart, D. (1993). Significant benefits: The High/Scope Perry preschool study through age 27 [Monograph]. High/Scope Educational Research Foundation, No. 10.Google Scholar
Stipek, D. (2002). Motivation to Learn: Integrating Theory and Practice (4th edn.). Needham Heights, MA: Allyn & Bacon.Google Scholar
Stipek, D. (2011). Classroom practices and children’s motivation to learn, in Zigler, E., Gilliam, W. S. & Barnett, W. S. (Eds.), The Pre-K Debates: Current Controversies & Issues (pp. 98103). Baltimore, MA: Paul H. Brookes Publishing.Google Scholar
Stipek, D. & Johnson, N. (in press). Developmentally appropriate practice in early childhood education redefined: the case of math, in Graue, B., Levin, F. & Ryan, S. (Eds.), Advancing Knowledge and Building Capacity for Early Childhood Research: Creating Synergies Among Segregated Scholarly Communities. Washington, DC: American Education Research Association.Google Scholar
Stipek, D., Clements, D., Coburn, C., Franke, M. & Farran, D. (2017). PK–3: What does it mean for instruction? SRCD Social Policy Report, 30(2), 123.Google Scholar
Takanishi, R. (2016). First Things First! Creating the New American Primary School. New York, NY: Teachers College Press.Google Scholar
Tominey, S. & McClelland, M. (2011). Red light, purple light: Findings from a randomized trial using circle time games to improve behavioral self-regulation in preschool, Early Education & Development, 22, 489519.Google Scholar
Valentino, R. & Stipek, D. (2016). PreK–3 Alignment in California’s Education System: Obstacles and Opportunities. Stanford University: Policy Analysis for California Education.Google Scholar
Watts, T., Duncan, G., Siegler, R. & Davis-Kean, P. (2014). What’s past is prologue: Relations between early mathematics knowledge and high school achievement. Educational Researcher, 43(7), 352360.CrossRefGoogle ScholarPubMed
Wigfield, A. & Wentzel, K. (2007). Introduction to motivation at school: Interventions that work. Educational Psychologist, 42(2), 191196.Google Scholar

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