The proposed 4-year project will be the first to investigate the effects of measured school environments on cognitive development and academic achievement using a genetically sensitive design. The proposed research will test the hypothesis that genes play a part in mediating the effects of the school environment on educationally relevant behaviors, that is, that children actively select, modify and create environments that are correlated with their genetic propensities. It is also hypothesized that educational influences on cognitive development and academic achievement involve non-shared as well as shared environment. That is, even twins in the same classroom experience different educational environments and these nons-hared environments affect educational outcomes. The project will capitalize on a large twin study of behavioral development in childhood in which 7500 twin pairs born in 1994-96 have been assessed at 2, 3, 4 and 7 years on measures of cognition, language and behavior problems. We plan to assess each child's school and classroom environments at 10 years of age as perceived by the children themselves, as well as their parents and teachers. We will also assess cognitive development and academic achievement in order to test the hypothesis that school environments and their relationship to educational outcomes are in part mediated by genetics. The significance of finding genetic influence on educational experiences and their association with educational outcomes comes from bridging the gulf between the fields of education and genetics. Finding genetic influence will not denigrate the role of education but will suggest new ways of thinking about effective education, such as recognizing that children create their own experience within the educational process in part on the basis of their genetic propensities.
| Zabaneh, D; Krapohl, E; Gaspar, H A et al. (2018) A genome-wide association study for extremely high intelligence. Mol Psychiatry 23:1226-1232 |
| Rimfeld, Kaili; Krapohl, Eva; Trzaskowski, Maciej et al. (2018) Genetic influence on social outcomes during and after the Soviet era in Estonia. Nat Hum Behav 2:269-275 |
| Lewis, Gary J; Shakeshaft, Nicolas G; Plomin, Robert (2018) Face Identity Recognition and the Social Difficulties Component of the Autism-Like Phenotype: Evidence for Phenotypic and Genetic Links. J Autism Dev Disord 48:2758-2765 |
| Selzam, S; Krapohl, E; von Stumm, S et al. (2018) Predicting educational achievement from DNA. Mol Psychiatry 23:161 |
| PardiƱas, Antonio F; Holmans, Peter; Pocklington, Andrew J et al. (2018) Common schizophrenia alleles are enriched in mutation-intolerant genes and in regions under strong background selection. Nat Genet 50:381-389 |
| Wang, R Adele H; Davis, Oliver S P; Wootton, Robyn E et al. (2017) Social support and mental health in late adolescence are correlated for genetic, as well as environmental, reasons. Sci Rep 7:13088 |
| Sallis, Hannah; Evans, Jonathan; Wootton, Robyn et al. (2017) Genetics of depressive symptoms in adolescence. BMC Psychiatry 17:321 |
| Rimfeld, Kaili; Shakeshaft, Nicholas G; Malanchini, Margherita et al. (2017) Phenotypic and genetic evidence for a unifactorial structure of spatial abilities. Proc Natl Acad Sci U S A 114:2777-2782 |
| Zabaneh, Delilah; Krapohl, Eva; Simpson, Michael A et al. (2017) Fine mapping genetic associations between the HLA region and extremely high intelligence. Sci Rep 7:41182 |
| Smith-Woolley, E; Rimfeld, K; Plomin, R (2017) Weak associations between pubertal development and psychiatric and behavioral problems. Transl Psychiatry 7:e1098 |
Showing the most recent 10 out of 109 publications
