The study provides clues about how this information is stored in memory and reveals that you can tell how good somebody is likely to be at judging social rank by looking at the structure of their brain.
Primates (and people) are remarkably good at ranking each other within social hierarchies, a survival technique that helps us to avoid conflict and select advantageous allies. However, we know surprisingly little about how the brain does this.
The team at the UCL Institute for Cognitive Neuroscience used brain imaging techniques to investigate this in 26 healthy volunteers.
Participants were asked to play a simple science fiction computer game in which they acted as future investors. In the first phase, they needed to learn which individuals have most power within a fictitious space mining company (the social hierarchy) and then which galaxies have most precious minerals (non-social information).
While the participants were doing the experiment, the team used functional magnetic resonance imaging (fMRI) to monitor activity in their brains, and another MRI scan was also taken to look at their brain structure. The findings reveal a striking dissociation between the neural circuits used to learn social and non-social hierarchies.
The researchers observed increased neural activity in both the amygdala and the hippocampus when participants were learning about the hierarchy of executives within the fictitious space mining company. By contrast, when they were learning about the non-social hierarchy (i.e. which galaxies had more minerals), only the hippocampus was used.
The researchers also found that participants who were better at learning the social hierarchy had a larger volume of grey matter in the amygdala than those who were less able.
Dr Dharshan Kumaran at the UCL Institute of Cognitive Neuroscience, who led the study, explains: “These findings are telling us that the amygdala is specifically involved in learning information about social rank based on experience and suggest that separate neural circuits are involved than for learning hierarchy information of a non-social nature.”
This is the first time that researchers have looked at how rank within a social hierarchy is judged based on knowledge acquired through experience, rather than perceptual cues (like visual appearance), which are typically unreliable predictors of rank. In a second phase of the experiment, the team also looked at how we recall information about social rank when we meet somebody again, and their study reveals how this information is represented in the brain.
They asked participants to place bids on investment projects based on the knowledge about rank they had acquired during the first phase of the experiment. This was played out in the game as a particular executive leading a mission to harvest minerals from a galaxy.
They found evidence that social rank, but not non-social rank, is translated into neural activity in the amygdala in a linear fashion: the level of activity in the amygdala was observed to increase according to the social rank of the person being encountered. This signal provides a potential mechanism by which individuals select coalition partners in the real world based on their rank.
Being able to interpret social rank is important for us to meet the challenging pressures of living in large social groups. Knowing where we fit into a social group determines how we behave towards different people.
As well as giving new understanding of which brain circuits are involved in learning and storing this information, the findings reported in this study help to explain why some people are better at it than others. The researchers are now keen to look at people with brain and developmental disorders to see how their ability to learn social hierarchies is affected.
The study has been published in the journal ‘Neuron’.
Image: An fMRI scan reveals that brain activity in the amygdala tracks participants’ knowledge about a social, but not a non-social, hierarchy. Credit: D Kumaran et al. (Neuron, 2012).
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Notes for editors
Kumaran D et al. The emergence and representation of knowledge about social and non-social hierarchies. Neuron 2012;76(3):653-66.
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