TY - JOUR
T1 - Gene-environment correlation
T2 - The role of family environment in academic development
AU - Zhou, Quan
AU - Gidziela, Agnieszka
AU - Allegrini, Andrea G.
AU - Cheesman, Rosa
AU - Wertz, Jasmin
AU - Maxwell, Jessye
AU - Plomin, Robert
AU - Rimfeld, Kaili
AU - Malanchini, Margherita
N1 - These authors have contributed equally: QZ and AG. Conceived and designed the study: MM, QZ, AG. Analysed the data: QZ, AG, MM. Wrote the paper: MM, QZ, AG, with helpful contributions from AGA, RC, JW, JM, RP, and KR. All authors contributed to the interpretation of data, provided feedback on drafts, and approved the final draft.
PY - 2024/9/4
Y1 - 2024/9/4
N2 - Academic achievement is partly heritable and highly polygenic. However, genetic effects on academic achievement are not independent of environmental processes. We investigated whether aspects of the family environment mediated genetic effects on academic achievement across development. Our sample included 5151 children who participated in the Twins Early Development Study, as well as their parents and teachers. Data on academic achievement and family environments (parenting, home environments, and geocoded indices of neighbourhood characteristics) were available at ages 7, 9, 12 and 16. We computed educational attainment polygenic scores (PGS) and further separated genetic effects into cognitive and noncognitive PGS. Three core findings emerged. First, aspects of the family environment, but not the wider neighbourhood context, consistently mediated the PGS effects on achievement across development—accounting for up to 34.3% of the total effect. Family characteristics mattered beyond socio-economic status. Second, family environments were more robustly linked to noncognitive PGS effects on academic achievement than cognitive PGS effects. Third, when we investigated whether environmental mediation effects could also be observed when considering differences between siblings, adjusting for family fixed effects, we found that environmental mediation was nearly exclusively observed between families. This is consistent with the proposition that family environmental contexts contribute to academic development via passive gene-environment correlation processes or genetic nurture. Our results show how parents tend to shape environments that foster their children’s academic development partly based on their own genetic disposition, particularly towards noncognitive skills, rather than responding to each child’s genetic disposition.
AB - Academic achievement is partly heritable and highly polygenic. However, genetic effects on academic achievement are not independent of environmental processes. We investigated whether aspects of the family environment mediated genetic effects on academic achievement across development. Our sample included 5151 children who participated in the Twins Early Development Study, as well as their parents and teachers. Data on academic achievement and family environments (parenting, home environments, and geocoded indices of neighbourhood characteristics) were available at ages 7, 9, 12 and 16. We computed educational attainment polygenic scores (PGS) and further separated genetic effects into cognitive and noncognitive PGS. Three core findings emerged. First, aspects of the family environment, but not the wider neighbourhood context, consistently mediated the PGS effects on achievement across development—accounting for up to 34.3% of the total effect. Family characteristics mattered beyond socio-economic status. Second, family environments were more robustly linked to noncognitive PGS effects on academic achievement than cognitive PGS effects. Third, when we investigated whether environmental mediation effects could also be observed when considering differences between siblings, adjusting for family fixed effects, we found that environmental mediation was nearly exclusively observed between families. This is consistent with the proposition that family environmental contexts contribute to academic development via passive gene-environment correlation processes or genetic nurture. Our results show how parents tend to shape environments that foster their children’s academic development partly based on their own genetic disposition, particularly towards noncognitive skills, rather than responding to each child’s genetic disposition.
UR - https://github.com/CoDEresearchlab/Achievement_Env_Mediation
U2 - 10.1038/s41380-024-02716-0
DO - 10.1038/s41380-024-02716-0
M3 - Article
AN - SCOPUS:85203060417
SN - 1359-4184
JO - Molecular Psychiatry
JF - Molecular Psychiatry
ER -