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Explaining overall outcomes rather than simply early childhood educations:

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'Baby X' line of experiments show that observers identify similar behaviors ... different species: female gerbils and hamsters are as aggressive as males ... – PowerPoint PPT presentation

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Title: Explaining overall outcomes rather than simply early childhood educations:


1
  • Explaining overall outcomes rather than simply
    early childhood educations
  • Why are there more men at the highest levels of
    achievement than women?
  • Two possibilities from biological perspective
  • Different average levels of ability
  • Different variability

2
  • Different averages easy to understand
  • What about different variability?
  • If men are more variable, will be more men
    represented at high and low ends

3
  • Different averages not argued for frequently, but
    different variability still comes up
  • Larry Summers (2005)

4
  • Why greater variability?
  • X-linkage exists for some diseases (hemophilia).
    Males more likely to get these diseases because
    only one gene must have, not two
  • X-linkage of genes for intelligence would create
    greater variability
  • 2 X chromosomes for women, 1 for men
  • Greater variability with 1 result than with 2
  • consider rolling dice

5
  • 1 die 2 dice (mean)
  • 1 16.6 3
  • 2 16.6 13
  • 3 16.6 34
  • 4 16.6 34
  • 5 16.6 13
  • 6 16.6 3

6
  • Problems with the idea of greater variability in
    intelligence
  • Genes can cause diseases which make things go
    wrong (sickle-cell), but we dont know much about
    normal (or above-normal) genes
  • How do genes affect positive development?

7
  • Gender differences summary of Maccoby and
    Jacklin (1974)
  • A number of unfounded beliefs and open questions,
    but also a set of well-established differences
  • - Verbal ability
  • - Visual ability
  • - Math ability
  • - Aggression

8
  • Verbal ability differences
  • Girls may talk earlier
  • Girls may have better abilities

9
  • Problems with differences
  • Statistical significance vs. substantive
    significance
  • Gender variability vs. overall variability

10
  • Statistical significance vs. substantive
    significance
  • Statistical significance is determined by a set
    of tests that determines the likelihood that a
    given observation is observed by chance
  • In the social sciences, results are statistically
    significant when there is less than a 5 chance
    that they are due to random chance
  • In medical science, statistical significance at
    .1 or less

11
  • One of the key contributors to statistical
    significance is sample size
  • With 200,000 subjects, an IQ difference of .02
    points would be highly significant
  • Yet there is no substantive significance for this
    kind of result.
  • Substantive significance whether the result is
    large enough to matter

12
  • Gender variability and overall variability
  • Meta-analysis to evaluate a number of studies
    that seemed to show sex difference
  • Gender differences account for only about 1
    percent of variance in verbal ability suggests
    that other factors are much more important than
    gender.
  • Is 1 percent substantively significant?

13
  • Visual-Spatial Perception
  • Again starting with Maccoby and Jacklins review
  • Visual-spatial perception tests test subjects
    abilities to orient a lighted rod parallel to the
    floor in a dark room
  • Some studies show gender differences, but
    relatively large numbers do not

14
  • Visual-spatial perception
  • Differences most likely to surface at later ages
  • Gender variability is again small compared to
    overall variability
  • 5 percent of variance can be explained by gender

15
  • Variety of theories to explain these differences
  • Brain size (seen as unimportant now)
  • Sex-linkage
  • Sex-linkage with sex-limited expression
    (androgens)
  • Hemisphere specialization

16
  • Sex linkage
  • Basic version suggests that spatial ability is
    x-linked, producing greater variability in boys
    than in girls (and hence more high performers)
  • Contradicted by XO individuals scores in math
    much lower than average

17
  • Left-right brain hemisphere specialization
  • Left hemisphere appears to carry out analysis,
    computation, sequential tasks
  • Right half appears responsible for art, emotion
  • Not originally applied to sex differences

18
  • Specialized brains would be more efficient
  • Thus, the hypothesis is that
  • Men have specialized brains, womens are
    unspecialized
  • No evidence to support these ideas
  • Some difference in recall of right-ear vs.
    left-ear recall, but most show no sex differences
    again
  • Studies show different approaches to nonverbal
    problem solving, but no sex differences in
    performance
  • Finally, specialization results from experience
    (studies of language specialization in children)

19
  • Overall variability
  • Visual skills can be learned
  • Gender differences in drafting which were
    initially evident disappeared over time
  • The extent of independence and a lack of reliance
    on verbal interaction induces strong spatial
    skills
  • Cross-cultural comparisons show
  • No gender difference among Eskimos,
  • Large gender differences among Temne

20
  • Cross-cultural comparisons
  • Show variability which contradicts biological
    determinism
  • Also suggest certain types of characteristics
    (independence vs. discipline, amount of autonomy)
    that are highly suggestive of gender differences

21
  • Non-biological explanations
  • Mothers are more likely to repeat vocalization
    from a girl baby than a boy
  • Mothers more likely to show male infants objects
    to manipulate
  • Girls wear physically restrictive clothing
  • Boys given more freedom and encouraged to explore
    more

22
  • Math ability
  • again, also a number of non-biological general
    explanations
  • Perceived importance of math for future studies
  • Perception of math as a male field
  • Active discouragement by teachers and parents
  • How to fix these problems?

23
  • Adaptability of brain
  • Kittens raised in environments without vertical
    lines will never learn to recognize them and walk
    into chair and table legs
  • Brain structures continue to form after birth
    based on experiences

24
  • Conclusions
  • Are men smarter than women?
  • - Fausto-Sterling no
  • Do men and womens brains work differently?
  • -Fausto-Sterling maybe, but differences are not
    substantively significant.

25
  • Sociology of Science (dont write down)
  • If all of the people involved in this accept
    scientific principles, how do they keep coming to
    different conclusions, and why do ideas which are
    wrong resurface?
  • Fausto-Sterlings answer the level of proof
    needed depends on ones pre-existing beliefs
  • Many of these ideas are easy to fit in with
    existing beliefs

26
  • Fausto-Sterling notes that she is a developmental
    geneticist by training, but that she had
    experience in a variety of equal rights
    movements. (What about your instructor?)
  • Another reason these occur
  • Scientists are rewarded for doing something
    different
  • Pressure to stick with an idea even if later
    evidence seems to contradict

27
  • Standards of evidence to use
  • Scrutiny received
  • Peer-reviewed journals
  • Dealing with alternate positions within work
  • Appropriate citation of evidence
  • Size of effects

28
  • Nature of evidence
  • Representativeness (for samples)
  • Use of appropriate controls
  • Appropriate experimental techniques
  • Random assignment, blinding, sensitivity to
    observer effects
  • Timing appropriate for causality
  • Observational research in medicine and biology
    often is of worse quality than in the social
    sciences (personal opinion)

29
  • Chapters 3, 4, 6
  • Not assigned for the course
  • Interesting
  • 3 development of gender prior to birth,
  • 4 PMS (primarily on the difficulties of
    definition and measurement),
  • 6 rape (evolutionary and sociobiological
    discussions of)
  • Not on exam

30
  • Recap
  • Sex differences
  • real?
  • Biological sources?

31
  • Aggression
  • The last of the major areas typically identified
    as a gender difference
  • This difference typically relies on a hormonal
    explanation to support these ideas

32
  • Types of evidence used to demonstrate biological
    sources of aggression
  • Male overrepresentation in war, aggression
  • Testosterone in humans
  • Testosterone/ progesterone during development
  • Testosterone in primates
  • Testosterone in rats

33
  • Male overrepresentation in war, etc.
  • Men have typically been more involved in war,
    lynching, reckless driving, genocide, social
    dominance
  • 2 problems
  • Activities are socially constructed, involve a
    variety of forces other than pure biology
  • Prevalence does not demonstrate biological source

34
  • Testosterone in humans
  • Fausto-Sterling claims no clear evidence that
    testosterone increases aggression in humans
  • Many observational studies show no effect
  • A 2001 review agrees that there is no firm
    evidence to support

35
  • What about Steroids and Roid rage?
  • Steroids are anabolic androgenic steroids
    (contain substances similar to testosterone)
  • Typical results show that there these do not, in
    fact, produce aggression in users
  • They may exacerbate aggression in those who are
    already hostile and competitive however

36
  • Steroids J Clin Endocrinol Metab. 1996
    Oct81(10)3754-8
  • Anecdotal reports of "roid rage" and violent
    crimes by androgenic steroid users have brought
    attention to the relationship between anabolic
    steroid use and angry outbursts.
  • However, testosterone effects on human aggression
    remain controversial. Previous studies have been
    criticized because of the low androgen doses,
    lack of placebo control or blinding, and
    inclusion of competitive athletes and those with
    preexisting psychopathology.
  • To overcome these pitfalls, we used a
    double-blind, placebo-controlled design, excluded
    competitive athletes and those with psychiatric
    disorders, and used 600 mg testosterone enanthate
    (TE)/week.
  • Forty-three eugonadal men, 19-40 yr, were
    randomized to 1 of 4 groups Group I, placebo, no
    exercise Group II, TE, no exercise Group III,
    placebo, exercise Group IV, TE plus exercise.
    Exercise consisted of thrice weekly strength
    training sessions.

37
  • The Multi-Dimensional Anger Inventory (MAI),
    which includes 5 different dimensions of anger
    (inward anger, outward anger, anger arousal,
    hostile outlook, and anger eliciting situations),
    and a Mood Inventory (MI), which includes items
    related to mood and behavior, were administered
    to subjects before, during, and after the 10 week
    intervention.
  • The subject's significant other (spouse, live-in
    partner, or parent) also answered the same
    questions about the subject's mood and behavior
    (Observer Mood Inventory, OMI).
  • No differences were observed between exercising
    and nonexercising and between placebo and TE
    treated subjects for any of the 5 subdomains of
    MAI. Overall there were no significant changes in
    MI or OMI during the treatment period in any
    group.
  • Conclusion Supraphysiological doses of
    testosterone, when administered to normal men in
    a controlled setting, do not increase angry
    behavior.
  • These data do not exclude the possibility that
    still higher doses of multiple steroids might
    provoke angry behavior in men with preexisting
    psychopathology.

38
  • Testosterone during development
  • AGS (andrenogenital syndrome exposed to high
    levels of male hormones during development) girls
    appear to be more tomboyish and aggressive
  • This may be evidence of some effect, but suffers
    from problems

39
  • Problems with AGS girls as evidence
  • Lack of controls
  • Observer bias
  • Alternate explanations
  • Other work on prenatal hormone exposure

40
  • Lack of controls
  • AGS patients receive cortisone, surgical
    correction
  • Either of these could cause differences in
    behavior (particularly wakefulness, activity, and
    irritability)
  • Controls would include children with cortisone
    or surgical correction without AGS

41
  • Inadequate data collection
  • Observer bias may strongly affect descriptions of
    behavior
  • Baby X line of experiments show that observers
    identify similar behaviors differently based on a
    childs gender

42
  • Alternate explanations
  • Parents treatment of children may differ
    slightly (but enough) because of this difference
  • AGS children also are likely involved in frequent
    hospital visits, and these may affect behavior

43
  • Other work on prenatal hormone exposure
  • June Reinisch found effect of exposure to female
    hormones (which should be converted into
    testosterone) on toy selection, aggresssion
  • Other researchers found opposite effects of
    prenatal progesterone exposure.

44
  • Testosterone in primates
  • Injection of pregnant rhesus monkeys with
    testosterone
  • Babies born with masculine genitalia despite
    being XX and displayed behaviors more similar to
    male monkeys
  • Yet mothers behaviors in monkeys play a role in
    prompting gendered behavior
  • Because the baby monkeys might appear male,
    mothers would treat differently

45
  • Testosterone in primates
  • No correlation between dominance in primates and
    testosterone levels

46
  • Testosterone in other animals
  • Testosterone in rats is clearly associated with
    aggressive behavior
  • Yet there is great variability between different
    species female gerbils and hamsters are as
    aggressive as males
  • Difficult to generalize across such different
    species

47
  • Conclusion
  • Biological literature offers little support for
    the idea that male hormones create differences in
    aggressiveness

48
  • Other differences
  • Brain structure presumably refers to the
    corpus callosum (the large part of the brain that
    connects the two hemispheres)
  • Popular knowledge suggests that women have larger
    corpus callosums based off a 1982 Science
    article.

49
  • More recent replications failed to uncover
    differences.
  • 1997 review article by Bishop and Wahlstein
    (meta-analysis) "(t)he widespread belief that
    women have a larger splenium than men and
    consequently think differently is untenable.

50
  • Make sure to read the sections on the corpus
    callosum and the hypothalamus.
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