"Although men have many chances to pursue a friends mate, propositions for adultery are relatively rare on a per opportunity basis, said Mark Flinn, professor of anthropology in the College of Arts and Science. "Mens testosterone levels generally increase when they are interacting with a potential sexual partner or an enemys mate. However, our findings suggest that mens minds have evolved to foster a situation where the stable pair bonds of friends are respected.
Flinn says that these findings might help solve global problems.
"Ultimately, our findings about testosterone levels illuminate how people have evolved to form alliances, said Flinn. "Using that biological understanding of human nature, we can look for ways to solve global problems. The same physiological mechanisms that allow villages of families to coexist and cooperate can also allow groups like NATO and the U.N. to coordinate efforts to solve common problems. The more we view the Earth as a single community of people, the greater our ability to solve mutual threats, such as climate change.
Evolutionarily, men who were constantly betraying their friends trust and endangering the stability of families may have caused a survival disadvantage for their entire communities, according to Flinn. A community of men who didnt trust each other would be brittle and vulnerable to attack and conquest. The costs of an untrustworthy reputation would have outweighed the benefits of having extra offspring with a friends conjugal companion.
For example, a cautionary tale of the dangers of adultery can be found in the myth of Camelot. Sir Lancelot betrayed King Arthur by seducing Guinevere. Soon after, the fellowship of the Knights of the Round Table disintegrated and the kingdom fell. The alliance of powerful males could not hold once trust had been lost.
The study "Hormonal Mechanisms for Regulation of Aggression in Human Coalitions was published in the journal Human Nature. Co-authors were Davide Ponzi of MUs Division of Biological Sciences in the College of Arts and Science and Michael Muehlenbein of Indiana University.