Abstract
Precocious pubertal development has been observed among girls in single parent families and among girls exposed to family conflict. One explanation for their precocious puberty is that it is evolutionarily adaptive (called here the “life history theory” view). Another explanation is that mothers simply pass on genes for precocious puberty. Thus, family environmental circumstances are not causally determinative of rates of pubertal development. The evidence for these two views was evaluated using the genetically-informative sibling pairs from the National Longitudinal Study of Adolescent Health. Both menarcheal age and pubertal timing were heritable (h2 = .44 and .40, respectively), with negligible shared environmental variation. However, in White girls, greater parental warmth delayed puberty, as did living in two parent families. A test of genetic influences underlying the correlation of warmth and pubertal timing was negative, however. Although some of these findings were inconsistent with the evolutionary life history theory, they did not disprove it decisively.
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References
Belsky, J., & Draper, P. (1990). Personality development in evolutionary perspective. Journal of Personality, 58, 141–161.
Belsky J., Steinberg, L., & Draper, P. (1991). Childhood experience, interpersonal development, and reproductive strategy: An evolutionary theory of socializatioa Child Development, 62, 682–685.
Campbell, B.C., Udry J.R. (1995). Stress and age at menarche of mothers and daughters. Journal of Biosocial Science, 27, 127–13
Calabrese, L.H., Kirkendall, D.T., Floyd M., Rapoport S., Williams, G.W., & Weiker, G.F., Bergfeld, J.A. (1983). Menstrual abnormalities, nutritional patterns, and body composition in female classical ballet dancers. Physician and Sports Medicine, 11, 86–98.
DeFries, J.C., Fulker, D.W. (1985). Multiple regression analysis of twin data. Behavior Genetics, 15, 467–473.
Draper, P., & Harpending, H. (1982). Father absence and reproductive strategy: An evolutionary perspective. Journal of Anthropological Research, 38, 255–273.
Draper, P., & Harpending, H. (1988). A sociobiological perspective on the development of human reproductive strategies.” In MacDlonald, K. B. (Ed.,) Sociobiological Perspectives on Human Development. New York: Springer-Verlag, 1988.
Ellis, B.J., McFadyen-ketchum S., Dodge, K.A., Pettit, G.S., Bates, J.E. (1999). Quality of early family relationships and individual differences in the timing of pubertal maturation in girls: A longitudinal test of an evolutionary model. Journal of Personality and Social Psychology, 77, 387–401.
Ellis, BJ, Graber, J. (1998, in press). Psychological antecedents of pubertal maturation in girls: Parental psychopathology, stepfather presence, and family and marital stress. Child Development.
Fischbein, S. (1977). Onset of puberty in MZ and DZ twins. Acta Geneticae Medicae et Gemellologiae 26, 151–157.
Graber, JA, Brooks-Gunn, J, & Warren, MP. (1995). The antecedents of menarcheal age: Heredity, family environment, and stressful life events. ChildDevelopment, 66, 346–359.
Harris, J. (1998). The Nurture Assumption. New York: The Free Press.
Kaprio J., Rimpela A., Winter T., Viken, R.J., Rimpela, M, Rose R.J. (1995). Common genetic influence on BMI and age at menarche. Human Biology, 67, 739–753.
Lewontin, R.C., Kamin, L.J., & Rose, S. (1984). Not in Our Genes. New York, Pantheon
Losoya, S.H., Callor S., Rowe, D.C., & Goldsmith, H.H. (1997). The origins of familial similarity in parenting: A study of twins and adoptive siblings. Developmental Psychology, 33, 1012–1024.
MacDonald, K. (1997). Life history theory and human reproductive behavior: environmental contextual influences and heritable variation. Human Nature, 5, 327–359.
Maccoby, E.E. (1991). Different reproductive strategies in males and females. Child Development, 62, 676–681.
Moffitt, TE, Caspi, A, Belsky, J., & Silva, PA. (1992). Childhood experience and onset of menarche: A test of a sociobiological model. Child Development, 63, 47–
Pickles, A, Pickering, K, Simonoff, E, Silverg, J, Meyer, J, & Maes, H. (1998). Genetic “clocks” and “soft” events: A twin model for pubertal development and other recalled sequences of developmental milestones, transitions, or ages at onset. Beliavior Genetics, 28, 243–253.
Plomin R. & Bergeman, C.S. (1991). The nature of nurture: Genetic influence on “environmental” measures. Behavioral and Brain Sciences, 14, 373–427.
Rowe, David C. (1994). The limits of family influence: Genes, experience, and behavior. New York: Guilford.
Udry, J.R., & Bearman, P.S. (1998). New methods for research on adolescent sexual behavior. In R. Jessor et. al (Eds.) New perspectives on adolescent risk behavior, New York: Cambridge University Press
Steinberg, L.. (1988). Reciprocal relation between parent-child distance and pubertal maturation. Developmental Psychology, 24, 122–128.
Treloar, S.A. & Martin, N.G. (1990). Nonadditive genetic variance detected in a large twin sample. American Journal of Human Genetics, 47, 137–148.
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Rowe, D.C. (2000). Environmental and Genetic Influences on Pubertal Development: Evolutionary Life History Traits?. In: Rodgers, J.L., Rowe, D.C., Miller, W.B. (eds) Genetic Influences on Human Fertility and Sexuality. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-4467-8_10
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DOI: https://doi.org/10.1007/978-1-4615-4467-8_10
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