Sex on the Brain: The Biological Differences Between Men and Women
By Deborah Blum
Viking Press; 352 pages; $24.95
As it happens, this is not a thought experiment. In a few Dominican villages, some families carry a gene that leaves newborn boys with undescended testicles and a stunted penis resembling a clitoris. They are raised as girls until puberty, when the new rush of androgens gives them normal male genitals and a masculine body, complete with facial hair. The villagers call them guevedoces: "eggs [or balls]-at-12." The child switches genders, wears male clothing, begins to date, and turns into a normal man, without fuss or trauma. So much for bending the twig. Gender identity comes either from the effects of hormones on the brain or from the way people are treated as adults, or both; childhood nurture makes little difference.
Balls-at-12 is just one of the fascinating discoveries brought to light in Deborah Blum's excellent book Sex on the Brain: The Biological Differences Between Men and Women. This is the real Everything You Always Wanted to Know About Sex (or The Sexes). Why are there sexes? To change our biochemical locks every generation and keep a step ahead of the rapidly evolving pathogens that try to pick them. How different are men's and women's brain structures? Not very. Do raging hormones turn men into testosterone-poisoned rapists and women into weepy premenstrual husband-stabbers? No both times. Are men and women biologically different in ways other than the obvious anatomical ones? Yes--men are shorter-lived, more cerebrally lopsided, more violent, better at some spatial abilities, worse at verbal abilities, more competitive but more forgiving of their competitors, more sexually jealous, more socially obtuse, and more promiscuous (at least, they'd like to be).
Not only are we learning more about sex differences, but we also have an elegant theory to explain them. In the 1970s the biologist Robert Trivers showed how all the major differences between the sexes in the animal kingdom flow from a difference in the size of their investment in offspring. The female begins with the bigger ante--an egg that is far bigger than a sperm--and usually commits herself to even more, such as yolk; or, in mammals, blood and milk. The male contributes a few seconds of copulation and a teaspoon of semen. The number of offspring in each generation is limited by the female's contribution: one for each egg she produces and nurtures.
That has two momentous consequences. First, a single male can fertilize several females, forcing other males to go mateless. Males must compete for access to females by beating each other up, cornering the resources necessary to mate, or persuading a female to choose them. Second, a male's reproductive success depends on how many females he mates with, but not vice versa; for a female, one mating per pregnancy is enough. That makes females more discriminating in their choice of sexual partners.
Humans have added some twists to the mammalian pattern. Men generally invest in their children by providing food, protection, and care. So females also compete for mates, though they look for the ones most willing and able to invest, not the ones most willing to copulate (those are never in short supply). Females, like males, may be tempted by infidelity, though their genetic motive is quality rather than quantity. A discreet adulteress can get the genes of the fittest male and the investment of the most generous male. An easily cuckolded male would devote his efforts to the genes of a competitor, which is Darwinian suicide; hence men's intense sexual jealousy.
Blum is a superb science reporter who presents just the right amount of complexity, tries to explain findings rather than just report them, and writes in a consistently clear and pleasant style. Sex on the Brain is such a good window on the state of the art that its only flaws are the flaws of the researchers themselves.
Unlike Robert Wright and Matt Ridley, who have also written excellent recent books on the biology of sex, Blum does not ground her own story in rigorous evolutionary biology, but rather lets the laboratory scientists speak for themselves. Unfortunately, many good bench scientists are mediocre theorists, often by choice. "Why" questions are thought to be an indulgence, appropriate only for musings over beer at the end of the day. Blum reports (and occasionally echoes) some sloppy evolutionary "explanations," including casual analogies between arbitrary species and Homo sapiens, the equation of evolution with progress, the idea that contemporary changes in Western society are the vanguard of future evolution, and repeatedly, the error that our adaptations are for the good of the species.
Blum not only fails to share these explanations, but also sometimes repeats ones that are downright wrong--such as that men die young because the species needs them less. A better explanation is that males' reproductive fate depends more strongly than females' on competing when they are young. So any gene that builds a man with a strong young body at the cost of a weak old body will prosper.
Blum's informants also mislead her in their appeal to chemistry as an ultimate explanation of sex differences. Blum masterfully explains why the effects of hormones are more complicated than pop science would have us think. They are produced by several organs in both sexes, may be converted into one another, and can have varying effects in different species, sexes, and individuals. The moral is that it is not hormones themselves but the neural circuitry, shaped by natural selection and modulated by the hormones, that explains our thoughts and feelings. The role of particular hormones may be like the role of green wires in an electronic device. The answer to the question "How does the device work?" depends on which wires connect which chips, not on the fact that a given wire is green.
This undermines explanations that assume ironclad effects of hormones. Take the idea that men became less competitive because women insisted on monogamy, which lowers testosterone. Natural selection is a resourceful tinkerer and could have rewired men's brains to respond to lowered testosterone in any number of ways, not necessarily by becoming less competitive. A better answer would appeal to the tradeoffs males face between investing in their current offspring vs. competing with other males to sire new offspring with other females.
In many circles, "The Biological Differences Between Men and Women" are fighting words. It seems a short step from saying that men and women are biologically different to saying that women are inferior. Moreover, if obnoxious behavior like aggression, rape, and philandering are biological, that would make them "natural" and hence good--or at least in the genes, where they cannot be changed by social reform. The result has been an angry rejection of the research Blum reports and an attempt to disseminate a feel-good alternative in which boys and girls are identical and infinitely malleable.
Blum rejects these non sequiturs. She does recount the sexist pre-1950s research, which is occasionally hilarious (as when scientists were obsessed with testosterone, which they treated as the essence of masculinity) and sometimes tragic (as when hare-brained theories led to horrifying surgical procedures on women). Blum dismisses bad research with the right touch of scorn, but does not feel a need to neutralize it with politically palatable agitprop. She believes that science can approach the truth, and that we are best off if we know it and deal with it thoughtfully--which she does. Sex differences, she points out, offer no support to invidious stereotypes, are not a guideline for what is right, do not apply to every individual, and never justify the restriction of opportunity. The ignoble impulses of both sexes are part of a complex mind that can often override them; and social arrangements, from individual marriages to entire legal systems, can change for the better.