Evolution of the Female Orgasm
Researchers at Yale and the Cincinnati Children’s Hospital are studying the evolution of the female orgasm across different species.
The findings were published in the journal JEZ-Molecular and Developmental Evolution.
“Prior studies have tended to focus on evidence from human biology and the modification of a trait rather than its evolutionary origin,” said Gunter Wagner, the Alison Richard Professor of Ecology and Evolutionary biology, and a member of Yale’s Systems Biology Institute.
Instead, Wagner and Mihaela Pavličev of the Center for Prevention of Preterm Birth at Cincinnati Children’s Hospital propose that the trait that evolved into human female orgasm had an ancestral function in inducing ovulation.
Since there is no apparent association between orgasm and number of offspring or successful reproduction in humans, the scientists focused on a specific physiological trait that accompanies human female orgasm — the neuro-endocrine discharge of prolactin and oxytocin — and looked for this activity in other placental mammals. They found that in many mammals this reflex plays a role in ovulation.
In spite of the enormous diversity of mammalian reproductive biology, some core characteristics can be traced throughout mammalian evolution, note the researchers. The female ovarian cycle in humans, for instance, is not dependent upon sexual activity. However, in other mammalian species ovulation is induced by males. The scientists’ analysis shows male-induced ovulation evolved first and that cyclical or spontaneous ovulation is a derived trait that evolved later.
The scientists suggest that female orgasm may have evolved as an adaptation for a direct reproductive role — the reflex that, ancestrally, induced ovulation. This reflex became superfluous for reproduction later in evolution, freeing female orgasm for secondary roles.
A comparative study of female genitalia also revealed that, coincidental with the evolution of spontaneous ovulation, the clitoris was relocated from its ancestral position inside the copulatory canal. This anatomical change made it less likely that the clitoris receives adequate stimulation during intercourse to lead to the neuro-endocrine reflex known in humans as orgasm.
“Homologous traits in different species are often difficult to identify, as they can change substantially in the course of evolution,” said Pavlicev. “We think the hormonal surge characterizes a trait that we know as female orgasm in humans. This insight enabled us to trace the evolution of the trait across species.”