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Researchers from HSE University have shown how the brain works differently depending on whether a subject is dealing with common (shared) or private natural resources. The ventral striatum—the so-called pleasure center—plays a significant role in this process. The study has been published by Social Cognitive and Affective Neuroscience.
In some parts of the ocean, commercial fish stocks have declined by 95%, pepcid for allergic reactions yet private fish farms are not being depleted. Why is it that people can exhaust common natural resources without a second thought but are concerned about their private property? Researchers from HSE University and the University of Basel have worked to shed light on the brain mechanisms behind this paradoxical disregard for the public interest.
To answer this question, the researchers combined neurobiological, economic and cognitive modeling approaches. Using functional magnetic resonance imaging, they scanned the brains of 50 participants who were invited to play an economic game. The computer game simulated fishing in either a private pond or a public lake. The number of fish in the lake varied according to the size of the nets used by the player. Participants could sell the fish they caught in exchange for a real cash reward. The player also had to account for either the natural migration of fish (in the private pond) or fish being caught by other fishermen (in the public lake). The researchers wanted to find out how our brains react to a reduction in the number of fish in both the public and private spaces.
The scans showed that an abrupt reduction in the number of fish in the lake suppressed the activity of the ventral striatum, an area of the brain that is sometimes called the brain’s “pleasure center” due to its high content of the neurotransmitter dopamine.
Therefore, the reduction of a natural resource is an unpleasant event for the brain, and the activity of the pleasure center is severely suppressed. However, a more in-depth analysis showed that our brain’s pleasure center responds differently to reductions in private and public resources. When participants fished in their own lake, neuronal activity in the pleasure center was more likely to monitor the optimal number of fish in the lake, thereby preserving the fish population. Therefore, when the participants observed a sharp decrease in fish in their own lake during the experiment, they fished less. Conversely, when the participants were fishing in a public lake, the same area of their brain monitored quite different information—how many more fish their rivals were catching. If the participants saw fish disappearing in a public pond due to overfishing by their rivals, they fished even more actively, quickly depleting the entire resource.
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