Why some people resist authority
Neuroimaging research provides new insight into urge to rebel
- Date:
- May 15, 2018
- Source:
- Society for Neuroscience
- Summary:
- Control aversion -- the urge to rebel against control over one's decisions -- can be explained by connectivity between two regions of the brain as well as behavioral measures of distrust and lack of understanding.
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Control aversion -- the urge to rebel against control over one's decisions -- can be explained by connectivity between two regions of the brain as well as behavioral measures of distrust and lack of understanding, according to a study of university students published in JNeurosci.
Individual differences in control aversion are well-documented and can interfere with important decisions, such as whether or not to vaccinate a child. To understand what drives these differences, Sarah Rudorf, Daria Knoch, and colleagues had participants play a game in which they divided money between themselves and another player, who could decide to restrict the participant's choice by asking for a minimum amount. Participants were informed that they would be compensated based on a randomly selected trial.
Connectivity between the parietal lobule and dorsolateral prefrontal cortex predicted the average difference in the chosen allocation level between the free choice and controlled conditions. Control aversion was also predicted by participants' reported feelings about the other player's trust in them and understanding of the other player's request for a minimum amount of money. By combining a social decision-making task with real consequences, this neuroimaging research provides new insight into the influence of choice restriction on personal decisions.
Story Source:
Materials provided by Society for Neuroscience. Note: Content may be edited for style and length.
Journal Reference:
- Sarah Rudorf, Katrin Schmelz, Thomas Baumgartner, Roland Wiest, Urs Fischbacher, Daria Knoch. Neural mechanisms underlying individual differences in control-averse behavior. The Journal of Neuroscience, 2018; 0047-18 DOI: 10.1523/JNEUROSCI.0047-18.2018
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