One prominent consequence of this is “sexual conflict”. This is the term evolutionary biologists use when one sex evolves a feature that gives benefits to the sex carrying it, but disadvantages the other sex, which in turn develops its own adaptations to counter this. Sexual conflict seems to explain some of the most bizarre manifestations of reproductive biology that we know of. The enormous, curly penises of some duck species or the tendency of male bed bugs to punch holes in their partners’ abdominal walls to inseminate them are good examples of this.
Now a new study has suggested that, in some species, this conflict between the sexes can have some surprising results. Specifically, avoiding conflict with males can cause females to evolve bigger brains.
To understand the effects of sexual conflict, sometimes it can help to think about evolution in other antagonistic systems. In 2010, Japanese researcher Michio Kondoh showed that brain size evolution can depend on predator-prey conflicts.
Both avoiding predators and catching prey demand brain power. By studying several hundred species of fish, Kondoh showed that prey eaten by large-brained predators tend to have larger brains themselves. It seems that both predator and prey tend to evolve towards higher cognitive functioning to give themselves an edge in their competition.
Recently, a team of Swedish and Australian researchers led by Séverine Buechel from Stockholm University, noticed that predator-prey conflict is, in some ways, like sexual conflict. This is because it features two antagonistic partners constantly evolving to better outwit the other. The researchers wondered if, like predator-prey conflict, sexual conflict might also affect the evolution of brain size.
To test this idea, they carried out a laboratory evolution experiment using a fish called the eastern mosquitofish, a relative of the guppy originally found in the Southern US. Male mosquitofish are particularly unpleasant. Unlike many fish, these animals reproduce by fertilising eggs inside the female’s body. But instead of wooing a female and trying to impress her with his prowess, the male mosquitofish simply sneaks up on her and tries to force her to mate.
The male fertilises the female’s eggs using a tubular structure called a gonopodium, a modified anal fin that the male attempts to insert into the unwilling female. Not to put too fine a point on it, it’s basically rape. Unsurprisingly, this is not good for the females, who are continually being harassed and have little control over the parenthood of their own offspring.
Beuchel and her colleagues bred lines of fish where the males either had especially long gonopodia or especially short ones, as well as control lines where they didn’t select for gonopodia size. Those with longer gonopodia would have an advantage in their attempts at coercive mating and so experience greater levels of sexual conflict.
After nine generations of evolution in the laboratory, the researchers measured the sizes of the brains of the male and female fish from all their selection lines and from unselected control lines. They found that in the lines where males were selected to have longer gonopodia, the females had evolved larger brains that were around 6% heavier than the brains of females from the other lines.
Bigger brains, better reproduction
What seems to be happening is that, when sexual conflict is most intense, females who can use their brains to avoid coercive mating are actually the most successful at reproducing. This could be because these clever females are harassed less and can get on with things like feeding, or because they are better able to select the best quality males to father their offspring.
These results suggest that conflict between the sexes can, at least in this case, cause the evolution of larger brains. But how general might this process be? Species where the males are this boorish and aggressive towards females are, thankfully, infrequent, and there are plenty other important evolutionary factors which can also lead to the evolution of bigger brains. For example, living in large, complicated social groups seems to require bigger brains (the so-called “social brain hypothesis”).
In particular, trying to understand human intelligence in terms of sexual conflict would be premature and could lead to some very unwelcome misunderstandings. Having said that, low-level sexual conflict is not rare in the animal kingdom. So we might well have to look more closely at the battle of the sexes if we want a full understanding of the evolution of big brains.
This article originally appeared on The Conversation UK
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