15.1.3

Hormonal Mechanisms

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Hormonal Mechanisms: Testosterone

Hormonal mechanisms, such as testosterone, may also play a role in aggressive behaviour.

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Testosterone

  • Observations indicate that males are generally more aggressive than females.
  • This means researchers have focused their attention on the male sex hormone testosterone.
  • Testosterone is an androgen responsible for the development of masculine features.
  • It also has a role in regulating social behaviour via its influence on certain areas of the brain related to aggression.
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Animal and castration studies

  • Animal studies, such as those conducted by Giammanco et al. (2005), have demonstrated that increases in testosterone are related to greater aggression in several species.
  • Decreases in testosterone has also been shown to lead to reductions in aggressive behaviour in castration studies.
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Prison studies

  • Studies of prison populations and violent offenders have provided evidence of a similar association in humans.
  • Dolan et al. (2001) studied a sample of 60 male offenders in UK maximum-security hospitals.
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Dolan et al. (2001) findings

  • They found a positive correlation between testosterone levels and aggressive behaviours.
  • Many of these men suffered from personality disorders, such as psychopathy, and had histories of impulsively violent behaviour.

Testosterone: Mazur (1985) and Mehta and Josephs (2006)

Testosterone also has a role in regulating social behaviour via its influence on certain areas of the brain related to aggression.

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The biosocial model of status

  • Mazur (1985) formulated the biosocial model of status (BMoS) to explain the link between testosterone and aggression in humans.
  • Testosterone levels change rapidly during the course of the day, especially in response to social interactions related to status - in other words, competition.
  • A change in testosterone levels following the loss of status, for example, should affect post-competition aggression.
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Mehta and Josephs (2006)

  • Mehta and Josephs (2006) measured changes in their male participants’ testosterone levels before and after a competitive game, which they lost.
  • Once the second sample was taken, the participants were given a choice:
    • They could either challenge their victorious opponent to another competition (aggression);
    • Or complete an unrelated task (non-aggression).
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Mehta and Josephs (2006) results

  • Out of the losers whose testosterone levels rose after their loss, 73% re-challenged.
  • Out of the losers whose testosterone dropped, only 22% re-challenged.
  • So after a loss of status, individuals behaved aggressively by choosing to re-challenge but only after an increase in testosterone levels.
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Mehta and Josephs (2006) conclusions

  • These findings confirm Mazur’s BMoS.
  • This increases its validity as an explanation of how testosterone may exert its effect on aggression.

Testosterone and Other Hormones

Testosterone is known to influence areas of the brain related to aggression. But evidence of the link between testosterone and aggression in humans is mixed and other hormones may also play a role.

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Dual-hormone hypothesis

  • Carre and Mehta (2011) developed the dual-hormone hypothesis.
  • This claims that high levels of testosterone leads to aggressive behaviour only if levels of cortisol are low.
  • When cortisol is high, testosterone’s influence on aggression is blocked.
  • (Cortisol is a glucocorticoid hormone that plays a central role in the stress response).
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Cortisol and testosterone

Popma et al. (2007) confirm this in a study of adolescent males.

  • They found that the combined activity of testosterone and cortisol may be a better predictor of human aggression than either hormone on its own.

Jump to other topics

1Social Influence

2Memory

3Attachment

4Psychopathology

5Approaches in Psychology

6Biopsychology

7Research Methods

8Issues & Debates in Psychology (A2 only)

9Option 1: Relationships (A2 only)

10Option 1: Gender (A2 only)

11Option 1: Cognition & Development (A2 only)

12Option 2: Schizophrenia (A2 only)

13Option 2: Eating Behaviour (A2 only)

14Option 2: Stress (A2 only)

15Option 3: Aggression (A2 only)

16Option 3: Forensic Psychology (A2 only)

17Option 3: Addiction (A2 only)

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