The researchers discovered neurons in the
anterior cingulate cortex appear to store information on whether a course of action demands competition, what the intensity of that competition will be, and critically, whether or not the competition is ‘worth it’ to achieve an end reward.
While most of us have been wrapped up in the competitive spirit of the Olympic Games, two University of Otago researchers have been busy teasing out what exactly in the brain drives competitive behaviour.
Dr Kristin Hillman and Professor David Bilkey, both from the Department of Psychology, have found that neurons in a specific region of the frontal cortex, called the anterior cingulate cortex, become active during decisions involving competitive effort.
The researchers have discovered that neurons in this region appear to store information on whether a course of action demands competition, what the intensity of that competition will be, and critically, whether or not the competition is ‘worth it’ to achieve an end reward.
Their study, which appears online in the journal Nature Neuroscience, is the first to examine how competitive behaviour is encoded by neurons in the brain.
The researchers used a novel experimental set-up for rats which mimics cost-benefit decisions that we humans face every day: do I choose option A which has a small but easily achievable reward, or do I choose option B which, although it provides the prospect of a larger reward, requires me to compete against a peer?
They found that in foraging rats, certain cortical neurons became more active when competitive scenarios like option B were considered and pursued.
Dr Hillman says the activity of these neurons appeared to encode when it was worth competing and when it was too risky.
For example, when up against a highly motivated or physically dominant competitor, a rat’s neural activity patterns changed markedly, she says.
“The resulting signal could be important for both driving competitive behaviour and also steering us away from risky situations where, although the reward might be large, the potential cost is too high.”
The study highlights a critical role for the frontal cortex in making choices that require investing competitive effort, and represents a pioneering move into understanding the brain mechanisms that produce competitive, ambitious behaviour.
“In theory, it also gives us a glimpse into what might be going on in our own brains, whether we are highly competitive Olympic athletes or just vying for the last treadmill at the gym,” says Dr Hillman.
The research was funded by the Marsden Fund of New Zealand.
Editor's Note: Original news release can be found here.