Individual differences and the canalization of human behavior.

Turkheimer, Eric; Gottesman, Irving I.

doi:10.1037/0012-1649.27.1.18

Cited by 52 publications

(48 citation statements)

References 49 publications

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“…The gene × environment interaction observed on early mathematics skill is consistent with proposals (Bronfenbrenner & Ceci, 1994; Turkheimer & Gottesman, 1991) that the expression of genes for cognitive development is dependent on the quality of the larger environmental context in which children are situated. Why was there no gene x environment interaction apparent on reading skill?…”

Section: Discussionsupporting

confidence: 87%

Gene-by-Socioeconomic Status Interaction on School Readiness

Rhemtulla

Tucker‐Drob

2012

Behav Genet

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In previous work with a nationally representative sample of over 1,400 monozygotic and dizygotic twins born in the United States, Tucker-Drob, Rhemtulla, Harden, Turkheimer, and Fask (2011; Psychological Science, 22, 125–133) uncovered a gene × environment interaction on scores on the Bayley Short Form test of mental ability at 2 years of age—higher socioeconomic status (SES) was associated not only with higher mental ability, but also with larger genetic contributions to individual differences in mental ability. The current study examined gene × SES interactions in mathematics skill and reading skill at 4 years of age (preschool age) in the same sample of twins, and further examined whether interactions detected at 4 years could be attributed to the persistence of the interaction previously observed at 2 years. For early mathematics skill but not early reading skill, genetic influences were more pronounced at higher levels of SES. This interaction was not accounted for by the interaction observed at 2 years. These findings indicate that SES moderates the etiological influences on certain cognitive functions at multiple stages of child development.

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Section: Discussionsupporting

confidence: 87%

Gene-by-Socioeconomic Status Interaction on School Readiness

Rhemtulla

Tucker‐Drob

2012

Behav Genet

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“…The socioeconomic advantage of the NMSQT adolescents may be due to two selection processes: (a) for this cohort, only adolescents with a certain level of academic achievement took the NMSQT; (b) of twins identified as potential participants, non-response may have been associated with environmental disadvantage. The modification of heritability within the NMSQT sample suggests that genotype-environment interactions in cognitive ability are not limited to severely disadvantaged environments, as has been previously suggested (Turkheimer and Gottesman 1991;Scarr 1992). …”

Section: The Modification Of Heritability Within the Range Of "Normalmentioning

confidence: 77%

“…Rather, the bioecological model is predicting an increase in genetic variance even over the range of normal environments, a slightly different conception of what it means for environmental differences to be "relevant" for children 's functioning. Indeed, Bronfenbrenner and Ceci (1994) predict the identical pattern as Turkheimer and Gottesman (1991): high heritability estimates and low shared environmentality estimates as environmental advantage increases.…”

Section: The Modification Of Heritability Within the Range Of "Normalmentioning

confidence: 90%

Genotype by Environment Interaction in Adolescents’ Cognitive Aptitude

2006

Self Cite

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In a replication of Turkheimer, Haley, Waldron, D'Onofrio, Gottesman II (2003, Socioeconomic status modifies heritability of IQ in young children. Psychological Science, 14:623-628), we investigate genotype-environment (G × E) interaction in the cognitive aptitude of 839 twin pairs who completed the National Merit Scholastic Qualifying Test in 1962. Shared environmental influences were stronger for adolescents from poorer homes, while genetic influences were stronger for adolescents from more affluent homes. No significant differences were found between parental income and parental education interaction effects. Results suggest that environmental differences between middle-to upper-class families influence the expression of genetic potential for intelligence, as has previously been suggested by Bronfenbrenner and Ceci's (1994, Nature-nurture reconceptualized in developmental perspective: a bioecological model Psychological Review, 101:568-586) bioecological model. KeywordsGene-environment interaction; Intelligence; Socioeconomic status; Cognitive aptitude Turkheimer et al. (2003) published a report of genotype-environment (G × E) interaction in the intelligence of young children. In a sample of 7-year old children from the National Perinatal Collaborative Project, the genetic and shared environmental influences on IQ, as measured by the Weschler Intelligence Scale for Children-Revised (WISC-R), were modified by the socioeconomic status (SES) of the children. For disadvantaged children, shared environmental influences accounted for nearly 60% of the variance in IQ, while genetic factors accounted for negligible variance. In advantaged children, the pattern was nearly the reverse.Although the above results are congruent with some previous research (for reviews see or Turkheimer et al. 2003, researchers have not always found clear evidence for G × E interaction in cognitive ability (e.g., Scarr 1981, Van den Oord and Rowe 1997), leaving open the extent to which the results Turkheimer et al. present can be generalized beyond the NCPP sample. This paper presents results of a replication of Turkheimer et al.'s (2003) investigation; however, there are several key changes in the current study. First, the

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“…We prefer a perspective that uses a genetically informative design to estimate the magnitude of environmentally mediated IQ gains as a function of the nature of the environmental change, including the level of the original deprivation and the magnitude of the eventual enhancement. This point of view has been represented in terms of a construct called a reaction norm, in which the development of a phenotype is viewed as the results of the joint effect of genetic and environmental differences, with neither being granted causal priority (17). Despite being demonstrably related to genetic endowment, cognitive ability is environmentally malleable, and the malleability shows plausible doseresponse relations with the magnitude of the environmental differences.…”

Section: Discussionmentioning

confidence: 99%

Family environment and the malleability of cognitive ability: A Swedish national home-reared and adopted-away cosibling control study

Kendler

Turkheimer

Ohlsson

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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104

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Cognitive ability strongly aggregates in families, and prior twin and adoption studies have suggested that this is the result of both genetic and environmental factors. In this study, we used a powerful design-home-reared and adopted-away cosibling controlsto investigate the role of the rearing environment in cognitive ability. We identified, from a complete national Swedish sample of male-male siblings, 436 full-sibships in which at least one member was reared by one or more biological parents and the other by adoptive parents. IQ was measured at age 18-20 as part of the Swedish military service conscription examination. Parental educational level was rated on a 5-point scale. Controlling for clustering of offspring within biological families, the adopted siblings had an IQ 4.41 (SE = 0.75) points higher than their nonadopted siblings. Each additional unit of rearing parental education was associated with 1.71 (SE = 0.44) units of IQ. We replicated these results in 2,341 male-male half-sibships, in which, controlling for clustering within families, adoption was associated with a gain of IQ of 3.18 (SE = 0.34) points. Each additional unit of rearing parental education was associated with 1.94 (SE = 0.18) IQ units. Using full-and half-sibling sets matched for genetic background, we found replicated evidence that (i) rearing environment affects IQ measured in late adolescence, and (ii) a portion of the IQ of adopted siblings could be explained by the educational level of their adoptive parents.cognitive ability | environment | adoption | rearing | cosibling control

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Individual differences and the canalization of human behavior.

Cited by 52 publications

References 49 publications

Gene-by-Socioeconomic Status Interaction on School Readiness

Gene-by-Socioeconomic Status Interaction on School Readiness

Genotype by Environment Interaction in Adolescents’ Cognitive Aptitude

Family environment and the malleability of cognitive ability: A Swedish national home-reared and adopted-away cosibling control study

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