Hostname: page-component-586b7cd67f-t7czq Total loading time: 0 Render date: 2024-11-25T03:05:22.692Z Has data issue: false hasContentIssue false

Heterogeneity of causes for delinquency and criminality: Lifespan perspectives

Published online by Cambridge University Press:  31 October 2008

Lisabeth Fisher Dilalla*
Affiliation:
Institute for Behavioral Genetics, University of Colorado
Irving I. Gottesman
Affiliation:
University of Virginia
*
Address reprint requests to: Lisabeth Fischer DiLalla, Institute for behavioral Genetics, Box 447, University of Colorado, Boulder, Co 80309-0447.

Abstract

This review of family, twin, and adoption studies on offender behaviors points to the importance of a genetic predisposition as a partial explanation for criminality in some populations. Twin and adoption studies show that criminality increases with the presence of criminality in biological relatives; the environmental effects of having a criminal adoptive parent also increase the risk of adoptee criminality. Delinquency is described developmentally as a fairly typical phase for many adolescents. Because of the high base rate for delinquency, any genetic predisposition for offense behaviors may be difficult to uncover in adolescence. Three groups are differentiated that may aid in this detection: continuous antisocials are delinquents who continue to be criminal as adults; transitory delinquents are delinquents but not criminals; and late bloomers are criminals but not delinquents.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1989

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Cadoret, R. J. (1982). Genotype-environment interaction in antisocial behavior. Psychological Medicine, 12, 235239.CrossRefGoogle Scholar
Cadoret, R. J., Troughton, E., O'Gorman, T. W., & Heywood, E. (1986). An adoption study of genetic and environmental factors in drug abuse. Archives of General Psychiatry, 43, 11311136.CrossRefGoogle ScholarPubMed
Cadoret, R. J., Troughton, E., & O'Gorman, T. W. (1987). Genetic and environmental factors in alcohol abuse and antisocial personality. Journal of Studies on Alcohol, 48(1), 18.CrossRefGoogle ScholarPubMed
Christiansen, K. O. (1977). A review of studies of criminality among twins. In Mednick, S. A. & Christiansen, K. O. (Eds.), Biosocial bases of criminal behavior (pp. 4588). New York: Gardner.Google Scholar
Cicchetti, D. (1989). Developmental psychopathology: Some thoughts on its evolution. Development and Psychopathology, 1, 14.CrossRefGoogle Scholar
Cloninger, C. R. (1987). Pharmacological approaches to the treatment of antisocial behavior. In Mednick, S. A., Moffitt, T. E., & Stack, S. A. (Eds.), The causes of crime: New biological approaches (pp. 329350). Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Cloninger, C. R., & Gottesman, I. I. (1986). Genetic and childhood antecedents of antisocial behavior. In Shagass, C., Josiassen, R. C., Bridger, W. H., Weiss, K. J., Stoff, D., & Simpson, G. M. (Eds.), Proceedings of the IV World Congress of Biological Psychiatry, Biological Psychiatry 1985 (pp. 14481451). New York: Elsevier.Google Scholar
Cloninger, C. R., & Gottesman, I. I. (1987). Genetic and environmental factors in antisocial behavior disorders. In Mednick, S. A., Moffitt, T. E., & Stack, S. A. (Eds.), The causes of crime: New biological approaches (pp. 92109). Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Crowe, R. R. (1974). An adoption study of antisocial personality. Archives of General Psychiatry, 31, 785791.CrossRefGoogle ScholarPubMed
Crowe, R. R. (1975). An adoptive study of psychopathy: Preliminary results from arrest records and psychiatric hospital records. In Fieve, R. R., Rosenthal, D., & Brill, H. (Eds.), Genetic research in psychiatry (pp. 95103). Baltimore: Johns Hopkins University Press.Google Scholar
DiLalla, L. F. (1987). Forecasting transitions from delinquency to criminality. Unpublished doctoral dissertation, University of Virginia, Charlottesville.Google Scholar
DiLalla, L. F., & Gottesman, I. I. (1987). Forecasting delinquency and criminality: Resurrection of the Hathaway-Monachesi data set. Behavior Genetics, 17(6), 621 [abstract].Google Scholar
Ehrenkranz, J., Bliss, E., & Sheard, M. H. (1974). Plasma testosterone: Correlation with aggressive behavior and social dominance in man. Psychosomatic Medicine, 36(6), 469475.CrossRefGoogle ScholarPubMed
Ellis, L. (1982). Genetics and criminal behavior. Criminology, 20(1), 4366.CrossRefGoogle Scholar
Farrington, D. P. (1975). The family backgrounds of aggressive youths. In Hersov, L. et al. (Eds.), Aggressive and antisocial behavior in childhood and adolescence (pp. 7393). Oxford: Pergamon.Google Scholar
Farrington, D. P., Gundry, G., & West, D. J. (1975). The familial transmission of criminality. Medicine, Science, and the Law, 15(3), 177186.Google ScholarPubMed
Gold, M. G., & Petronio, R. J. (1980). Delinquent behavior in adolescence. In Adelson, J. (Ed.), Handbook of adolescent psychology (pp. 495535). New York: Wiley.Google Scholar
Goldsmith, H. H. (1988). Human developmental behavioral genetics: Mapping the effects of genes and environments. In Vasta, R. (Ed.), Annals of child development (Vol. 5, pp. 182227). Greenwich, CT: JAI.Google Scholar
Gottesman, I. I. (1963). Heritability of personality: A demonstration. Psychological Monographs, 77(9, entire no. 572), 121.CrossRefGoogle ScholarPubMed
Gottesman, I. I., Carey, G., & Hanson, D. R. (1983). Pearls and perils in epigenetic psychopathology. In Guze, S. B., Earls, F. J., & Barrett, J. E. (Eds.), Childhood psychopathology and development (pp. 286299). New York: Raven.Google Scholar
Hare, R. D. (1978). Electrodermal and cardiovascular correlates of psychopathy. In Hare, R. D. & Schalling, D. (Eds.), Psychopathic behaviour: Approaches to research (pp. 107144). New York: Wiley.Google Scholar
Hathaway, S. R., & Monachesi, E. D. (Eds.). (1953). Analyzing and predicting juvenile delinquency with the MMPI. Minneapolis: The University of Minnesota Press.Google Scholar
Hathaway, S. R., & Monachesi, E. D. (1957). The personalities of predelinquent boys. Journal of Criminal Law and Criminology, 48(2), 149163.Google Scholar
Hathaway, S. R., & Monachesi, E. D. (1963). Adolescent personality and behavior: MMPI patterns of normal, delinquent, dropout, and other outcomes. Minneapolis: The University of Minnesota Press.Google Scholar
Hutchings, B., & Mednick, S. A. (1975). Registered criminality in the adoptive and biological parents of registered male criminal adoptees. In Fieve, R. R., Rosenthal, D., & Brill, H. (Eds.), Genetic research in psychiatry (pp. 105116). Baltimore: Johns Hopkins University Press.Google Scholar
Linnoila, M., Virkkunen, M., Scheinin, M.Nuutila, A., Rimon, R., & Goodwin, F. K. (1983). Low cerebrospinal fluid 5-Hydroxyindoleacetic acid concentration differentiates impulsive from nonimpulsive violent behavior. Life Sciences, 33, 26092614.CrossRefGoogle ScholarPubMed
Loeber, R. (1982). The stability of antisocial and delinquent child behavior: A review. Child Development, 53, 14311446.CrossRefGoogle ScholarPubMed
Loehlin, J. C., Willerman, L., & Horn, J. M. (1988). Human behavior genetics. In Rosenzweig, M. R. & Porter, L. W. (Eds.), Annual review of psychology (Vol. 39). Palo Alto, CA: Annual Reviews, Inc.Google Scholar
McGuffin, P., & Gottesman, I. I. (1985). Genetic influences on normal and abnormal development. In Rutter, M. & Hersov, L. (Eds.), Child and adolescent psychiatry: Modern approaches, (2nd ed., pp. 1733). Oxford: Blackwell Scientific Publication.Google Scholar
Mednick, S. A., Brennan, P., & Kandel, E. (1988). Predisposition to violence. Aggressive Behavior, 14, 2533.3.0.CO;2-9>CrossRefGoogle Scholar
Mednick, S. A., Gabrielli, W. F. Jr., & Hutchings, B. (1984). Genetic influences in criminal behavior: Evidence from an adoption cohort. Science, 224, 891893.CrossRefGoogle ScholarPubMed
Mednick, S. A., Gabrielli, W. F. Jr., & Hutchings, B. (1987a). Genetic factors in the etiology of criminal behavior. In Mednick, S. A., Moffitt, T. E., & Stack, S. A. (Eds.), The causes of crime: New biological approaches (pp. 7491). Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Mednick, S. A., Moffitt, T. E., & Stack, S. A. (Eds.) (1987b). The causes of crime: New biological approaches. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Olweus, D. (1987). Testosterone and adrenaline: Aggressive antisocial behavior in normal adolescent males. In Mednick, S. A., Moffitt, T. E., & Stack, S. A. (Eds.), The causes of crime: New biological approaches (pp. 263282). Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Piper, E. S. (1985). Violent recidivism and chronicity in the 1958 Philadelphia cohort. Journal of Quantitative Criminology, 1(4), 319344.CrossRefGoogle Scholar
Plomin, R. (1985). Genetics, development, and psychology. Hillsdale, NJ: Erlbaum.Google Scholar
Plomin, R., DeFries, J. C., & McClearn, G. E. (1980). Behavioral genetics: A primer. San Francisco: Freeman.Google Scholar
Robins, L. N. (1966). Deviant children grown up. Baltimore: Williams & Wilkins.Google Scholar
Rowe, D. C. (1983). Biometrical genetic models of self-reported delinquent behavior: A twin study. Behavior Genetics, 13, 473–389.CrossRefGoogle ScholarPubMed
Rowe, D. C., & Osgood, D. W. (1984). Heredity and sociological theories of delinquency: A reconsideration. American Sociological Review, 49, 526540.CrossRefGoogle Scholar
Rowe, D. C., & Rodgers, J. L. (1989). Behavioral genetics, adolescent deviance, and “d”: Contributions and issues. In Adams, G. R., Montemayor, R., & Gullotta, T. P. (Eds.), Biology of adolescent behavior and development. Newbury Park, CA: Sage.Google Scholar
Rutter, M., & Giller, H. (1983). Juvenile delinquency: Trends and perspectives. New York: Guilford.Google Scholar
Scarr, S. & McCartney, K. (1983). How people make their own environments. Child Development, 54, 424435.Google ScholarPubMed
Schalling, D. (1978). Psychopathy-related personality variables and the psychophysiology of socialization. In Hare, R. D. & Schalling, D. (Eds.), Psychopathic behaviour: Approaches to research (pp. 85106). New York: Wiley.Google Scholar
Seidman, E. (1984). The adolescent passage and entry into the juvenile justice system. In Reppucci, N. D., Weithorn, L. A., Mulvey, E. P., & Monahan, J. (Eds.), Children, mental health, and the law (pp. 233258). Beverly Hills: Sage.Google Scholar
Smith, C. (1974). Concordance in twins: Methods and interpretations. American Journal of Human Genetics, 26, 454466.Google Scholar
Stern, C. (1973). Principles of human genetics (3rd ed.). San Francisco: Freeman.Google Scholar
Virkkunen, M. (1983). Insulin secretion during the glucose tolerance test in antisocial personality. British Journal of Psychiatry, 142, 598604.CrossRefGoogle ScholarPubMed
West, D. J. (1982). Delinquency: Its roots, careers and prospects. Cambridge, MA: Harvard University Press.Google Scholar
Wilson, J. Q., & Herrnstein, R. J. (1985). Crime & human nature. New York: Simon & Schuster.Google Scholar
Wirt, R. D., & Briggs, P. F. (1959). Personality and environmental factors in the development of delinquency. Psychological Monographs, 23, 147.CrossRefGoogle Scholar
Wolf, P. (1965). A contribution to the topology of crime in Denmark. In Christiansen, K. O. (Ed.), Scandanavian studies in criminology (Vol. 1, pp. 201226). London: Tavistock.Google Scholar
Wolf, P. (1987). Definitions of antisocial behavior in biosocial research. In Mednick, S. A., Moffitt, T. E., & Stack, S. A. (Eds.), The causes of crime: New biological approaches (pp. 6573). Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Wolfgang, M. E., Figlio, R. M., & Sellin, T. (1972). Delinquency in a birth cohort. Chicago: University of Chicago Press.Google Scholar