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Neighborhoods and genes and everything in between: Understanding adolescent aggression in social and biological contexts

Published online by Cambridge University Press:  07 July 2009

Daniel Hart  and
Naomi R. Marmorstein
Daniel Hart*
Affiliation:
Rutgers University
Naomi R. Marmorstein
Affiliation:
Rutgers University
*
Address correspondence and reprint requests to: Daniel Hart, Center for Children and Childhood Studies, 325 Cooper Street, Camden, NJ 08102; E-mail: [email protected].
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Abstract

Adolescent aggression was explored in relation to neighborhood and genetic characteristics. Child saturation (the proportion of the population consisting of children under the age of 15), ethnic heterogeneity, poverty, and urbanicity of neighborhoods were examined in relation to adolescent aggression in 12,098 adolescents followed longitudinally for 1 year. Longitudinal analyses indicated that child saturation was positively associated with increases in aggression, with this finding emerging among those living in the same neighborhood at both testing times and those who moved between testing times. In a subsample of males for whom genetic data were available, the relation of child saturation to adolescent aggression was moderated by the monoamine oxidase A (MAOA) gene. The regression of aggression on child saturation was steeper for those with the low activity version of the MAOA allele than among those with the high activity version of the allele. The implications of the results for an understanding of the origins and ontogeny of aggression and personality disorders are discussed.

Type
Regular Articles
Information
Development and Psychopathology , Volume 21 , Issue 3: Precursors and Diverse Pathways to Personality Disorder in Children and Adolescents: Part 1 , August 2009 , pp. 961 - 973
Copyright
Copyright © Cambridge University Press 2009

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References

Allison, P. D. (2005). Fixed effects regression methods for longitudinal data: Using SAS. Cary, NC: SAS.Google Scholar
Anchordoquy, H. C., McGeary, C., Liu, L., Krauter, K. S., & Smolen, A. (2003). Genotyping of three candidate genes after whole-genome preamplification of DNA collected from buccal cells. Behavior Genetics, 33, 15733297.CrossRefGoogle ScholarPubMed
Bellair, P. E. (1997). Social interaction and community crime: examining the importance of neighbor networks. Criminology, 35, 677704.CrossRefGoogle Scholar
Boyce, W. T., & Ellis, B. J. (2005). Biological sensitivity to context: I. An evolutionary–developmental theory of the origins and functions of stress reactivity. Development and Psychopathology, 17, 271301.CrossRefGoogle ScholarPubMed
Brame, B., Nagin, D. S., & Tremblay, R. E. (2001). Developmental trajectories of physical aggression from school entry to late adolescence. Journal of Child Psychology and Psychiatry and Allied Disciplines, 42, 503512.CrossRefGoogle ScholarPubMed
Brooks-Gunn, J., Duncan, G. J., Leventhal, T., & Aber, J. L. (1997). Lessons learned and future directions for research in the neighborhoods in which children live. In Brooks-Gunn, J., Duncan, G. J., & Aber, J. L. (Eds.), Neighborhood poverty: Vol. 1. Context and consequences for children (pp. 279297). New York: Russell Sage Foundation.Google Scholar
Caspi, A., McClay, J., Moffitt, T. E., Mill, J., Martin, J., Craig, I. W., et al. (2002). Role of genotype in the cycle of violence in maltreated children. Science, 297, 851854.CrossRefGoogle ScholarPubMed
Caspi, A., Sugden, K., Moffitt, T. E., Taylor, A., Craig, I. W., Harrington, H. L., et al. (2003). Influence of life stress on depression: Moderation by a polymorphism in the 5-HTT gene. Science, 301, 386389.CrossRefGoogle ScholarPubMed
Caspi, A., Taylor, A., Moffitt, T. E., & Plomin, R. (2000). Neighborhood deprivation affects children's mental health: Environmental risks identified in a genetic design. Psychological Science, 11, 338342.CrossRefGoogle Scholar
Chase-Lansdale, P. L., Gordon, R. A., Brooks-Gunn, J., & Klebanov, P. K. (1997). Neighborhood and family influences on the intellectual and behavioral competence of preschool and early school-age children. In Brooks-Gunn, J., Duncan, G. J., & Aber, J. L. (Eds.), Neighborhood poverty: Vol. 1. Context and consequences for children (pp. 79118). New York: Russell Sage Foundation.Google Scholar
De Coster, S., Heimer, K., & Wittrock, S. M. (2006). Neighborhood disadvantage, social capital, street context, and youth violence. Sociological Quarterly, 47, 723753.CrossRefGoogle Scholar
Eisenberger, N. I., Way, B. M., Taylor, S. E., Welch, W. T., & Lieberman, M. D. (2007). Understanding genetic risk for aggression: Clues from the brain's response to social exclusion. Biological Psychiatry, 61, 11001108.CrossRefGoogle ScholarPubMed
Flügge, G., van Kampen, M., & Mijnster, M. J. (2004). Perturbations in brain monoamine systems during stress. Cell and Tissue Research, 315, 114.CrossRefGoogle ScholarPubMed
Foley, D. L., Eaves, L. J., Wormley, B., Silberg, J. L., Maes, H. H., Kuhn, J., et al. (2004). Childhood adversity monoamine oxidase A genotype, and risk for conduct disorder. Archives of General Psychiatry, 61, 738744.CrossRefGoogle ScholarPubMed
Goldstone, J. A. (2002). Population and security: How demographic change can lead to violent conflict. Journal of International Affairs, 56, 321.Google Scholar
Goodman, M., New, A., & Siever, L. (2004). Trauma, genes, and the neurobiology of personality disorders. Annals of the New York Academy of Sciences, 1032, 104116.CrossRefGoogle ScholarPubMed
Guo, G., Roettger, M. E., & Cai, T. (2008). The integration of genetic propensities into social-control models of delinquency and violence among male youths. American Sociological Review, 73, 543568.CrossRefGoogle Scholar
Guo, G., Roettger, M. E., & Shih, J. C. (2007). Contributions of the DAT1 and DRD2 genes to serious and violent delinquency among adolescents and young adults. Human Genetics, 121, 125136.CrossRefGoogle ScholarPubMed
Haberstick, B. C., Lessem, J. M., Hopfer, C. J., Smolen, A., Ehringer, M. A., Timberlake, D., et al. (2005). Monoamine oxidase A and antisocial behaviors in the presence of childhood and adolescence maltreatment. American Journal of Medical Genetics, 1, 5964.Google Scholar
Hart, D., Atkins, R., Markey, P., & Youniss, J. (2004). Youth bulges in communities: The effects of age structure on adolescent civic knowledge and civic participation. Psychological Science, 15, 591597.CrossRefGoogle ScholarPubMed
Hart, D., Eisenberg, N., & Valiente, C. (2007). Personality change in childhood is predicted by the interaction of family risk with autonomic arousal under stress. Psychological Science, 18, 492497.CrossRefGoogle Scholar
Helgeland, M. I., Kjelsberg, E., & Torgersen, S. (2005). Continuities between emotional and disruptive behavior disorders in adolescence and personality disorders in adulthood. American Journal of Psychiatry, 162, 19411947.CrossRefGoogle ScholarPubMed
Huntington, S. P. (1996). The clash of civilizations and the remaking of world order. Chicago: University of Chicago Press.Google Scholar
Jencks, C., & Mayer, S. (1990). The social consequences of growing up in a poor neighborhood. In Lynn, L. E. & McGeary, M. F. H. (Eds.), Inner-city poverty in the United States (pp. 111186). Washington, DC: National Academy Press.Google Scholar
Johnson, J. G., Cohen, P., Dohrenwend, B. P., Link, B. G., & Brook, J. S. (1999). A longitudinal investigation of social causation and social selection processes involved in the association between socioeconomic status and psychiatric disorders. Journal of Abnormal Psychology, 108, 490499.CrossRefGoogle ScholarPubMed
Kaufman, P. (2005). Middle-class social reproduction: The activation and negotiation of structural advantages. Sociological Forum, 20, 245270.CrossRefGoogle Scholar
Kim-Cohen, J., Caspi, A., Taylor, A., Williams, B., Newcombe, R., Craig, I. W., et al. (2006). MAOA, maltreatment, and gene–environment interaction predicting children's mental health: New evidence and a meta-analysis. Molecular Psychiatry, 11, 903913.CrossRefGoogle ScholarPubMed
Kokko, K., & Pulkkinen, L. (2005). Stability of aggressive behavior from childhood to middle age in women and men. Aggressive Behavior, 31, 485499.CrossRefGoogle Scholar
Kupersmidt, J. B., & Griesler, P. C. (1995). Childhood aggression and peer relations in the context of family and neighborhood factors. Child Development, 66, 360375.CrossRefGoogle ScholarPubMed
Leventhal, T., & Brooks-Gunn, J. (2000). The neighborhoods they live in: The effects of neighborhood residence on child and adolescent outcomes. Psychological Bulletin, 126, 309337.CrossRefGoogle ScholarPubMed
Leventhal, T., & Brooks-Gunn, J. (2003). Moving to opportunity: An experimental study of neighborhood effects on mental health. American Journal of Public Health, 93, 15761582.CrossRefGoogle ScholarPubMed
Livesly, W. J., & Jang, K. L. (2008). The behavioral genetics of personality disorder. Annual Review of Clinical Psychology, 4, 247274.CrossRefGoogle Scholar
Loeber, R., & Wikstrom, P.-O. H. (1993). Individual pathways to crime in different types of neighborhoods. In Farrington, D. P., Sampson, R. J., & Wikstrom, P.-O. H. (Eds.), Integrating individual and ecological aspects of crime (pp. 169204). Stockholm: National Council for Crime Prevention.Google Scholar
Lynam, D. R., Caspi, A., Moffitt, T. E., Wikstrom, P. O. H., Loeber, R., & Novak, S. (2000). The interaction between impulsivity and neighborhood context on offending: The effects of impulsivity are stronger in poorer neighborhoods. Journal of Abnormal Psychology, 109, 563574.CrossRefGoogle ScholarPubMed
Meyer-Lindenberg, A., Buckholtz, J. W., Kolachana, B. R., Hariri, A., Pezawas, L., Blasi, G., et al. (2006). Neural mechanisms of genetic risk for impulsivity and violence in humans. Proceedings of the National Academy of Sciences, 103, 62696274.CrossRefGoogle ScholarPubMed
Nilsson, K. W., Sjöberg, R. L., Damberg, M., Leppert, J., Öhrvik, J., Alm, P. O., et al. (2006). Role of monoamine oxidase A genotype and psychosocial factors in male adolescent criminal activity. Biological Psychiatry, 59, 121127.CrossRefGoogle ScholarPubMed
Putnam, R. D. (2007). E pluribus unum: Diversity and community in the twenty-first century. The 2006 Johan Skytte Prize lecture. Scandinavian Political Studies, 30, 137174.CrossRefGoogle Scholar
Regier, D. A., Farmer, M. E., Rae, D. S., Myers, J. K., Kramer, M., Robins, L. N., et al. (1993). One-month prevalence of mental disorders in the United States and sociodemographic characteristics: The Epidemiologic Catchment Area study. Acta Psychiatrica Scandinavica, 88, 3547.CrossRefGoogle ScholarPubMed
Sampson, R. J., & Groves, B. (1989). Community structure and crime: Testing social-disorganization theory. American Journal of Sociology, 94, 774802.CrossRefGoogle Scholar
Shaw, C., & McKay, H. (1942). Juvenile delinquency and urban areas. Chicago: University of Chicago Press.Google Scholar
Turkheimer, E. (2000). Three laws of behavior genetics and what they mean. Current Directions in Psychological Science, 9, 160164.CrossRefGoogle Scholar
Udry, J. R. (2003). The National Longitudinal Study of Adolescent Health (Add Health), Waves I and II, 1994–1996; Wave III, 2001–2002 [Data file and documentation]. Chapel Hill, NC: University of North Carolina at Chapel Hill, Carolina Population Center.Google Scholar
Warner, B. D., & Pierce, G. L. (1993). Reexamining social disorganization theory using calls to the police as a measure of crime. Criminology, 31, 493517.CrossRefGoogle Scholar
Widom, C. S., & Brzustowicz, L. M. (2006). MAOA and the “cycle of violence”: Childhood abuse and neglect, MAOA genotype, and risk for violent and antisocial behavior. Biological Psychiatry, 60, 684689.CrossRefGoogle ScholarPubMed