What makes the study by Deary and colleagues (2007) particularly interesting is that its participants were opposite-sex siblings. This helped control for the influence of environmental factors. The downside is that the effect sizes might have been decreased, because of the high gene correlation among siblings, so we could expect larger differences between unrelated groups of men women. The differences, as you will see, are not in overall scores, but in score dispersion.
Let us get straight to the point made by the study. On average, men and women seem to score equally well on intelligence tests. The main difference is that there is more variation in the scores achieved by men than by women, which leads to an interesting effect: there are more geniuses and more idiots among men than among women.
This does NOT mean that a man’s genius is of a higher order; just that there is a tendency for more men to be geniuses (and idiots) than women in any random population sample. The women who are geniuses can be super geniuses, like two-time Nobel Prize winner Marie Curie, the first PERSON to receive such an honor. Albert Einstein is said that have greatly admired her intelligence.
As an illustration of this score dispersion effect, Deary and colleagues (2007) note that: “… for example, in terms of indices of scientific achievement, men were awarded 545 out of the 557 Nobel prizes awarded for science.” On the “idiot” end of the scale: there are a lot more men than women in prison, and one common denominator of prison inmates is that they tend to score very low on intelligence tests. (This is not to say that all criminals have low intelligence; perhaps mostly the ones that get caught do.)
Having said that, it is important to acknowledge that there are multiple types of intelligence, and even multi-indicator intelligence coefficients are usually poor approximations of an overall measure of intelligence (if there is one). This does not invalidate the main point of this post, which is related to score variability.
The table below (from: Deary and colleagues, 2007; click on it to enlarge; full reference at the end of this post) shows scores obtained by men and women (1,292 pairs of opposite-sex siblings) in various subtests of the Armed Services Vocational Aptitude Battery (ASVAB) test.
Note that nearly all of the differences between means (i.e., averages) are significant, but the direction of the differences (captured by the signs of the Cohen’s d coefficients, which are measures of effect size) varies a lot. That is, on several subtests (e.g., “Arithmetic”) men score higher, but in others (e.g., “Numerical operations”) women score higher. It all comes down to men and women scoring equally well overall.
Now look at the columns showing the standard deviations (“SD”) for men and women. In all subtests but two (“Coding speed” and “Numerical operations”) the standard deviation is higher for men; in many cases significantly higher (e.g., 44 percent higher for “Mechanical comprehension”). The standard deviations are about the same for “Coding speed” and “Numerical operations”. What this means is that variability in scores is nearly always higher, often significantly higher, among men than among women. I prepared the schematic figure below to illustrate the effect that this has on the numbers of individuals at the extremes.
The figure above shows two (badly drawn) quasi-normal distributions of scores. (This post shows a better illustration of a normal distribution.) The red curve refers to a distribution with a lower standard deviation than the blue curve; the latter is flatter. Each point on a curve reflects the number of individuals obtaining a particular score, which would be indicated on the horizontal axis. The number of individuals with that score is on the vertical axis. As you can see, the numbers of individuals scoring very high and low (geniuses and idiots, if the scores reflected intelligence) are greater for the blue curve, which is the curve with the higher standard deviation (higher dispersion of scores). The farther one goes to the left or right (the extremes), the bigger this difference becomes.
What does this have to do with evolution?
Well, there are a few possibilities, two of which appear to be particularly compelling. Maybe this effect is due to a combination of these two.
One is that ancestral women, like women today, selected mating partners based on a wide range of traits. Ancestral men on the other hand, like modern men, focused on a much smaller set of traits (Buss, 1995). The end result is more variation in traits, generally speaking, among men than among women. This refers to traits in general, not only intelligence. For example, there seems to be more variation in height among men than among women.
The other possible explanation is that, in our ancestral past, staying out of the extremes of intelligence was associated with higher survival success in both sexes. It seems that the incidence of certain types of mental disease (e.g., schizophrenia) is quite high among geniuses. This leads to more deaths due to related issues – suicide, depression leading to the metabolic syndrome, etc. And this is today, where geniuses can find many opportunities to “shine” in our complex urban societies. In our ancestral past the cognitive demands would have been much lower, and so would the practical value of being a genius.
If staying out of the extremes has indeed enhanced survival success in our evolutionary past, then it is reasonable to expect more women to fit that pattern than men. As with almost any “thing” that enhances survival success, women (especially pre-menopausal) naturally have more of that “thing” than men (e.g., HDL cholesterol).
The reason is that women are more important for the survival of any population than men; today and 1 million years ago. A population of 99 women and 1 man can potentially generate 99 children every few years. Here inbreeding in subsequent generations will be a problem, but that is better than extinction. A population with 99 women and 99 men (or even 1,000 men) will not generate significantly more children.
Reference:
Buss, D.M. (2003). The evolution of desire: Strategies of human mating. New York, NY: Basic Books.
Deary, I.J., Irwing, P., Der, G., & Bates, T.C. (2007). Brother–sister differences in the g factor in intelligence: Analysis of full, opposite-sex siblings from the NLSY1979. Intelligence, 35(5), 451-456.
12 comments:
Sorry, but the definition of intelligence used here were skewed in ways that provide advantages to males for reasons that have nothing to do with how the brains of the people involved functioned.
During most of the century when Nobel prizes were awarded, the science establishment marginalized women no matter what their skills, and often males appropriated their work, as in the case of Rosalind Franklin.
And the armed services define intelligence in ways that promote military success.
Men and women tend to think in different ways, though studies of women in math and computers have found the women who build careers in these fields have much better math skills than the men--probably because they have to, to break in.
Let's not look to evolution to explain this kind of result but to social pressures that explain why, though females always outperform males in school through adolescence, they are steered away from achievement or kept from receiving its rewards as they get older.
Typical IQ tests involve pattern matching and pattern recognition of shapes. So IQ tests are skewed towards spatial intelligence. In fact, men have much better spatial intelligence than women. So it does explain why there are male "geniuses" than women.
I have some theories why there are more male idiots than women idiots:
- Men have only one X chromosome. So a mutation in that chromosome results in a permanent defect. (Women have two X chromosomes, so each one protects the other).
- Men are more risk-taking. So they are more prone to do activities which result in physical trauma (such as brain damage).
- Men don't really care about scoring high on IQ tests as women do.
And, also, intelligence doesn't equal success. Even though the bell curves of between the sexes overlap, why are there much more successful men than women? Why are almost all inventors and composers men? I think it is because men are more hardwired to be status-seeking than women. Geniuses invent stuff to raise their status.
Although intelligence testes may be flawed in various ways they definitely measure something and I must say data showing sex differences are really interesting. Nature vs nurture is an ever going discussion but I really would have liked to see the intelligence scores correlated with sex hormone levels.
Woops! An extra e to the word tests and what do we get? A new and recently discovered form of gonads. Sexual humor not intended.
I have replied to your article here.
Jenny:
The dispersion effect is real, and so are the consequences. That does not say anything about possible discrimination, which I do not doubt happens. It's rather sad. Having said that, Marie Curie (born "Maria" in Poland, and raised there, by the way) received two Nobels in the early 1900s.
anarcho:
Good points about the XX and XY chromosomes, and the protective effect of XX from deleterious heterozygous mutations.
Risk-taking behavior among men is one of the my favorite examples of Zahavian (or costly) traits in humans (see post below).
http://healthcorrelator.blogspot.com/2010/01/evolution-of-costly-traits-challenge-to.html
Pål:
Yes, sex hormones may mediate the score dispersion effect. This is a very understudied area; maybe too politically charged to attract funding.
Jenny,
It's interesting that Richard Feynman has an IQ of only 126, and than James Watson has an IQ of only 115. I guess that their ambition is a better indicator of success rather than intelligence.
There's a study that testosterone increases status-seeking behavior. This study may suggest that males succeed not because of their intelligence, but because of their ambition.
There may be many women who are geniuses, but these women don't have the motivation to use their intelligence to become successful. Genius may be a product of ambition, rather than intelligence.
It's said to realize that the testosterone levels of both sexes are falling, and society in general are becoming less and less ambitious.
I received an interesting comment by email on this post, and invited the commenter to post it here.
The dispersion phenomenon discussed in the post causes another interesting outcome: there are more women than men with "non-extreme" above-average intelligence. Say, within 1 standard deviation above the mean.
anarcho:
The testosterone-related drive hypothesis makes some sense, but it is contradicted by the widely reported stats. showing that female students usually have higher university GPAs than male students.
Perhaps these stats. have something to do with what I said in my comment above.
It has to do with grey cells(thought proccesing). Men have more. Real novelty involves original ideas that can come only from multiple(unsafe) logical conclusions, a task that men are better at..
Women are good at dealing with data, but they are as not as good as men when it comes to theorizing on an abstruct level..
Idiots are everywhere you look around, there are more idiots than geniuses for sure.
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