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BIOLOGICAL EXPLANATIONS OF AGGRESSION

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Title: BIOLOGICAL EXPLANATIONS OF AGGRESSION


1
BIOLOGICAL EXPLANATIONS OF AGGRESSION
  • BIOCHEMICAL FACTORS IN AGGRESSION

2
Objectives
  • Understand the effect of hormones on aggressive
    behaviour
  • Understand how hormones and selected
    neurotransmitters can influence aggressive
    behaviour
  • Evaluate the contribution of research into neural
    and hormonal influences on aggressive behaviour.

3
Hormonal insanity !
  • In the Uk
  • Since the 1980s
  • A series of high profile cases where hormonal
    fluctuations surrounding pre-menstrual tension
    have been used as grounds for claims of temporary
    insanity.
  • A murder charge was reduced to manslaughter on
    account of PMT.

4
Lawyers argument
  • Their clients were automatons of their body.
  • The aggressive act was caused by uncontrollable
    hormonal changes associated with the monthly
    cycle.

5
Hormonal influences
  • Androgens male hormones
  • There is a positive correlation between the level
    of androgens and aggressive behaviour in female
    and male prisoners.

6
Testosterone
  • An androgen produced by Leydig cells in the male
    testes and adrenal cortex.
  • The release of testosterone follows a natural
    circadian rhythm.

7
  • During puberty aggression increases when androgen
    levels are higher (especially in males)
  • Testosterone has masculinising effects.

8
Castration
  • This technique has been used for making domestic
    and farm animals more manageable for many years.
  • Lab studies established the involvement of
    testosterone in increased aggression at puberty.

9
Wagner et al. 1979
  • A castrated mouse showed less aggression.
  • After testosterone treatment, aggression
    increases again.

10
Changing levels of testosterone in mice
pre-castration and post-castration
  • Blue pre-castration
  • Pink post-castration
  • Green 150 microgm testosterone per day.
  • BEEMAN (1974)

11
Commentary
  • Aggression did not disappear after castration
  • It cannot be stated that testosterone causes
    aggression.
  • Subsequent studies found that aggressiveness in
    mice is only reduced if castration occurs before
    puberty.
  • Therefore, testosterone contributes to the
    development of aggression and once it has
    accomplished this, its effects become relatively
    permanent and largely unaffected by the
    subsequent loss of testosterone.

12
Testosterone in humans
  • The role of testosterone is clear in lower
    animals, but androgens cant be given to humans
    to see if changes in aggression occur.
  • Dabbs et al (1995) investigated the relationship
    between testosterone, crime and prison behaviour.
  • They measured testosterone in saliva of 692 adult
    male prisoners.

13
Findings
  • Those who had committed crimes involving sex and
    violence had higher testosterone levels and
    violated more prison rules than those who had
    committed burglary and theft.

14
Fraternity behaviour
  • Dabbs et al (1996)
  • Relationship between testosterone and fraternity
    behaviour.

15
Fraternity testosterone
  • They measured testosterone of 240 members of 12
    fraternities in 2 universities.
  • Compared to descriptions of behaviour.
  • Found less smiling and generosity and lower
    academic achievement in high testosterone
    fraternities.

16
Further findings
  • High testosterone - boisterous and macho
  • Low testosterone attentive and helpful

17
Problems with research
  • Correlations
  • Unreliable measurements
  • Do not establish cause.
  • There may be other factors causing aggression
    apart from testosterone.
  • Behaviour is open to interpretation e.g. Lack of
    smiling may not be related to testosterone at
    all.

18
Women and testosterone
  • Dabbs et al 1988
  • Testosterone high
  • 84 female prison inmates
  • Testosterone highest in cases of unprovoked
    violence
  • Lowest in defensive aggression (abused wives who
    retaliated)

19
Problem!
  • Contradictory to Olweus 1983
  • Operationalisation of aggression
  • Testosterone was highest in defensive aggression
  • Olweus referred to provoked aggression when
    participants were frustrated or restricted in
    some way.

20
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21
Pillay 2006
  • Testosterone levels varied according to which
    sport different athletes played.
  • Males and females in aggressive sports had the
    highest levels of testosterone.

22
Kimura 1999
  • Female spatial ability tends to improve with high
    levels of testosterone.

ttp//www.youtube.com/watch?vrn0e6xA5G
23
Two models of testosterone
  • Reciprocal model
  • Aggression causes raised testosterone
  • Basal model
  • Testosterone is the cause of aggression

24
The reciprocal model of testosterone
  • The reverse of the basal model. It suggests that
    testosterone levels are influenced by changes in
    the level of dominance.

25
The basal model of testosterone
  • The level of testosterone influences dominance.
    The more testosterone, the more competitive and
    hence more dominant they become. Dominance is the
    effect of testosterone.
  • The more testosterone a person has, the more
    competitive and dominant they become.
  • It follows that..

26
The more testosterone
  • The greater the likelihood of anti-social
    behaviour, fighting, expressions of dominance
    etc.

27
Mazur and Booth 1998
  • Men with higher levels of testosterone were
  • More likely to
  • Divorce,
  • Remain single,
  • Be arrested for offences other than traffic
    violations
  • Buy and sell stolen property
  • Incur bad debts
  • Use weapons in fights.

28
Mazur and Booth 1998 cont.
  • The reciprocal model of testosterone
  • Levels vary with the persons dominance
  • 2,100 air force veterans studied
  • Over 10 years given 4 medical examinations
  • Testosterone levels varied
  • Reduced when married
  • Increased when divorced.

29
The role of serotonin
  • Serotonin is a neurotransmitter
  • Davidson, Putnam and Larson (2000)
  • Serotonin may have inhibitory function
  • i.e. Helps individuals to fight their aggressive
    urges.

30
Research evidence
  • Serotonin levels lower in violent criminals.
  • Reducing serotonin levels in Vervet monkeys
    resulted in increased aggressive behaviour.

31
Effects of low serotonin
  • Also known as 5-hydroxytryptamine -5HT
  • Affects whole body
  • Impulsive behaviour
  • aggression
  • Overeating
  • Depression
  • Alcohol abuse
  • Violent suicide

32
Studies of domestic pets
  • Bred for reduced aggression
  • They seem to have higher levels of serotonin.

33
Russian silver foxes
  • Tamed for more than 30 years
  • Higher levels of serotonin and lower levels of
    monoamine oxidase.

34
Research evidence
  • Various research suggests that low levels of
    serotonin are linked with aggression.
  • While high levels of serotonin are linked with
    more peace-loving behaviours.

35
Evidence for link with serotonin
  • Tryptophan a precursor of serotonin (found in
    starchy foods)
  • Tryptophan and other serotonergic drugs have been
    given to patients with unpredictable behaviour.
  • The effectiveness of this treatment indicates a
    link with aggression and levels of serotonin.

36
But
  • While serotonergic drugs modify aggressive
    behaviour, this cannot be the only cause of
    activity in these regions of the brain.
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