THIS ARTICLE/PRESS RELEASE IS PAID FOR AND PRESENTED BY University of Oslo - read more
Your brain is listening to whispered memories when you daydream
You are in a meeting at work when your mind starts to wander to another place. Suddenly, you realise that the person leading the meeting has asked you a question that you have not heard. Why does this happen?
“You actually daydream for brief moments thousands of times in a day, often just for a few seconds at a time,” says researcher Anna Chambers at the Institute of Basic Medical Sciences.
The explanation behind what happens in our brain when we daydream emerged when she and the research group looked at how long-term memories are stored.
Inside the brain, there is a 3 centimetre long sausage-shaped region called the hippocampus. It receives a lot of information and impressions, and is important for creating memories. However, after a certain amount of time has passed, the memories apparently move on.
Chambers explains that 70 years ago, a patient had his hippocampus removed due to epilepsy. Without this part of his brain, he was unable to form new memories. He forgot what had happened yesterday, but had no problem remembering what had happened before the operation.
The memories from a long time ago were stored in a different place in the brain than the hippocampus.
Your memories are stored in a new place when you daydream
So how do memories get to the areas of the brain that deal with long-term storage?
“We see that during sleep and in a state we call ‘quiet wakefulness’, we are usually less aware of what is happening around us. We can daydream or let our minds wander. When we find ourselves in this state, the hippocampus sends electrical impulses that encode various memories. It is a bit like how different barcodes uniquely identify a product in the store,” Associate Professor Koen Vervaeke at the Department of Molecular Medicine explains. “This happens thousands of times a day without us being aware of it. So even when we think we are not doing anything useful, our brain is very busy storing new memories over time."
The researchers believe this allows you to remember the place where you grew up, or went to school. As a rule, you can picture the place where you got married.
“You probably remember these places so well that you can draw a map of the streets of the city, or of the rooms in the building where you lived,” Chambers says.
The hippocampus sends weak messages about past memories to the rest of the brain
The research team conducted experiments involving mice in order to take a closer look at what happens when your mind wanders. They used special microscopes to simultaneously measure the activity of nerve cells from many areas of the brain.
“We found that during quiet wakefulness, the hippocampus only sends weak messages about past memories to the rest of the brain. So weak that these messages are lost in the clutter of information that the rest of the brain experiences. This finding led to the next question: how can the brain hear this whispering from the hippocampus?” PhD candidate Christoffer Nerland Berge says.
The brain becomes calmer so it can better hear what the hippocampus is trying to say
The researchers also saw something else. 1 to 2 seconds before the hippocampus whispers a memory, large parts of the brain become silent. It is possible that this happens so that other parts of the brain can better hear what the hippocampus is trying to say.
“This helps explain how memories are transferred from the hippocampus to other areas of the brain where they are eventually stored. When we are awake but disengaged – perhaps daydreaming – we are less aware of events that are taking place around us. Our research shows that this happens for a good reason. The brain is busy listening to memories instead,” says Chambers.
Your brain may need you to be bored
Some parents think they have to entertain their children all the time.
“With the new findings, we think you might need to be bored and that this is good for forming memories,” Vervaeke says.
Chambers et al. Cell-type-specific silence in thalamocortical circuits precedes hippocampal sharp-wave ripples, Cell Reports, 2022.
This article/press release is paid for and presented by the University of Oslo
This content is created by the University of Oslo's communication staff, who use this platform to communicate science and share results from research with the public. The University of Oslo is one of more than 80 owners of ScienceNorway.no. Read more here.
See more content from the University of Oslo:
A digital reconstruction of the Gjellestad Viking ship will be complete within the next year
Researchers are testing a new treatment option for Burning Mouth Syndrome using capsaicin from chili peppers
Are elite athletes like zombies who can perform on autopilot?
Cod's immune system leaves researchers puzzled
Humans may face grave consequences if vultures disappear
A sudden, liberating thought pops into your mind – but is it really yours?