BoomsmaD.I. (1993). Current status and future prospects in twin studies of the development of cognitive abilities, infancy to old age. InBouchardT.J.Jr.ProppingP.P. (Eds.), Twins us a tool of behavioral genetics (pp.67–82). Chichester, England: Wiley and Sons.
2.
BouchardT.J.Jr.McGueM. (1981). Familial studies of intelligence: A review. Science, 212, 1055–1059.
3.
CardonL.R. (1994). Specific cognitive abilities. InDeFriesJ.C.PlominR.FulkerD.W. (Eds.), Nature and nurture in middle childhood (pp.57–76). Cambridge, MA: Blnckwell.
4.
CarrollJ.B. (1993). Human cognitive abilities. New York: Cambridge University Press.
DeFriesJ.C.FulkerD.W. (1988). Multiple regression analysis of twin data: Etiology of deviant scores versus individual differences. Acta Geneticae Medicae et Gemmellologiae, 37, 205–216.
7.
FodorJ.A. (1983). The modularity of mind. Cambridge, MA: MIT Press.
8.
Karmiloff-SmithA. (1992). Beyond modularity: A developmental perspective on cognitive science. Cambridge, MA: MIT Press.
9.
McCartneyK.HarrisM.J.BernieriF. (1990). Growing up and growing apart: A developmental mcta-analysis of twin studies, Psychological Bulletin, 107, 226–237.
10.
McClearnG.E.AhernF.BergS.JohanssonB.PedersenN.PetrillS.A.PlominR, (1997). Substantial genetic influence on cognitive abilities in twins 80 or more years old. Science, 276, 1560–1563.
11.
PedersenN.L.PlominR.McClearnG.E. (1994). Is there G beyond g? (Is there genetic influence on specific cognitive abilities independent of genetic influence on general cognitive ability?). Intelligence, 18, 133–143.
12.
PetrillS.A.AhernF.BergS.JohanssonB.McClearnG.E.PedersenN.PlominR. (1997). The genetic and environmental relationship between general and specific cognitive abilities in twins 80 years and older. Manuscript submitted for publication.
13.
PetrillS.A.PlominR.McClearnG.E.SmithD.L.VignettiS.ChorneyK.ChorneyM.J.ThompsonL.A.DettermanO.K.BenbowC.LubinskiD.DanielsJ.OwenM.McGuffinP. (1997). DNA markers associated with general and specific cognitive abilities. Intelligence, 23, 191–203.
14.
PetrillS.A.SaudinoK.J.ChernyS.S.EmdeR.N.HewittJ.K.FulkerD.W.PlominR. (1997). Exploring the genetic etiology of low general cognitive ability from 14 to 36 months. Developmental Psychology, 33, 544–548.
15.
PetrillS.A.SaudinoK.J.ChernyS.S.EmdeR.N.HewittJ.K.FulkerD.W.PlominR. (in press). Exploring the genetic etiology of high cognitive ability in 14 to 36 month-old twins, Child Development.
16.
PlominR.DeFriesJ.C.McClearnG.E.RutterM. (1997). Behavioral genetics (3rd ed.). New York: W.H. Freeman.
17.
PlominR.McClearnG.E.SmithD.L.SkuderP.VignettiS.ChorneyM.J.ChomeyK.KasardaS.ThompsonL.A.DettermanD.K.PetrillS.A.DanielsJ.OwenM.J.McGuffinP. (1995). Allelic associations between 100 DNA markers and high versus low IQ. Intelligence, 21, 31–48.
18.
PlominR.McClearnG.E.SmithD.L.VignettiS.ChorneyM.J.ChorneyK.VendittiS.P.KasardaS.ThompsonL.A.DettermanD.K.DanielsJ.OwenM.J.McGuffinP. (1994). DNA markers associated with high versus low IQ: The IQ quantitative trait loci (QTL) project. Behavior Genetics, 24, 107–118.
19.
PlominR.ThompsonL.A. (1993), Genetics and high cognitive ability. InBockG.R.AckrillK. (Eds.), The origins and development of high ability (CIBA Foundation Symposium 178, pp.67–84). New York: John Wiley & Sons.
20.
SaudinoK.J.PlominR.PedersenN.L.McClearnG.E. (1994). The etiology of high versus low IQ in the second half of the life span. Intelligence, 19, 359–371.
