The heritability of IQ
by
Devlin B, Daniels M, Roeder K.
Department of Psychiatry,
University of Pittsburgh School of Medicine,
Pennsylvania 15213, USA.
devlinbj@msx.upmc.edu
Nature. 1997 Jul 31;388(6641):468-71.


ABSTRACT

IQ heritability, the portion of a population's IQ variability attributable to the effects of genes, has been investigated for nearly a century, yet it remains controversial. Covariance between relatives may be due not only to genes, but also to shared environments, and most previous models have assumed different degrees of similarity induced by environments specific to twins, to non-twin siblings (henceforth siblings), and to parents and offspring. We now evaluate an alternative model that replaces these three environments by two maternal womb environments, one for twins and another for siblings, along with a common home environment. Meta-analysis of 212 previous studies shows that our 'maternal-effects' model fits the data better than the 'family-environments' model. Maternal effects, often assumed to be negligible, account for 20% of covariance between twins and 5% between siblings, and the effects of genes are correspondingly reduced, with two measures of heritability being less than 50%. The shared maternal environment may explain the striking correlation between the IQs of twins, especially those of adult twins that were reared apart. IQ heritability increases during early childhood, but whether it stabilizes thereafter remains unclear. A recent study of octogenarians, for instance, suggests that IQ heritability either remains constant through adolescence and adulthood, or continues to increase with age. Although the latter hypothesis has recently been endorsed, it gathers only modest statistical support in our analysis when compared to the maternal-effects hypothesis. Our analysis suggests that it will be important to understand the basis for these maternal effects if ways in which IQ might be increased are to be identified.
NR2B gene
Flynn Effect
Microcephalin
SNAP-25 gene
Reprogenetics
'Designer babies'
Private eugenics
Cognitive genetics
Psychiatric genetics
Eugenics before Galton
Scandanavian eugenics
Preimplantation genetic diagnosis
Smarts genes and Ashkenazi Jews
Do the DREAMless learn more and age less?
Gene therapy and performance enhancement
The commercialisation of pre-natal enhancement
Institute for Germinal Choice ('Genius Sperm Bank')



reproductive-revolution.com
Refs

and further reading

HOME
Resources
Wireheading
BLTC Research
nootropic.com
Superhappiness?
Utopian Surgery?
The Good Drug Guide
The Abolitionist Project
The Hedonistic Imperative
The Reproductive Revolution
MDMA: Utopian Pharmacology
Critique of Huxley's Brave New World