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Brain Changes Accompany Development of Metamemory from Childhood to Adolescence

Ability to Reflect on Memories Improves Memory Quality

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Thinking child
The ability to reflect on memories and assess their quality is important for learning. This "metamemory" ability appears in elementary school-age children and develops into adolescence, ϲϿ Davis researchers have found. (Credit: Monkeybusinessimages via Getty Images).

Quick Summary

  • Ability to assess memory quality appears in children
  • New study shows metamemory continues to develop to early adolescence
  • May give insight into effective teaching and learning

Being able to assess our own memories helps us to avoid errors and prompts us to collect more information to fill the gaps. Psychologists know that this ability is present in elementary school-age children. Now a new study shows how this “metamemory” improves from childhood through adolescence, with accompanying changes in brain structure. The work is published this week in the .

 “We did not know that this capacity continues to improve into adolescence, and virtually all previous evidence came from cross-sectional studies comparing children at different ages instead of testing the same children over time,” said co-author Simona Ghetti, professor of psychology at the at the University of California, Davis.

Ghetti, postdoctoral researcher Yana Fandakova and colleagues studied 145 children aged between the ages of seven and 15 three times, with each time point a bit over a year apart. The children carried out some memory tasks assessing the actual accuracy of their memories and their ability to reflect on the accuracy of memories, and measurements of brain structures were made with magnetic resonance imaging (MRI). They also looked at a control group of 31 adults.

They found that the ability to introspect on memories continuously improves into adolescence. By analyzing changes in individual children over time, they could show that decreases in thickness in the insular cortex and increases in thickness in the ventromedial cortex predicted improvements in metamemory over time.

“These regions are important for our capacity to detect errors, reflect, and regulate our behaviors, and their thickness changes at different rates. We showed that their unique pattern of change is important for introspection and memory improvements during a period of tremendous learning opportunities,” Ghetti said.

The team also measured the children’s IQ at the first and last time point. Better metamemory predicted increases in IQ over time and vice versa.

A better understanding of how metamemory develops may be useful in education and fostering new skills, Ghetti said.

Fandakova is now an independent researcher at the Max Planck Institute for Human Development, Berlin. Additional co-authors are: Diana Selmeczy and Sarah Leckey, ϲϿ Davis; Kevin Grimm, Arizona State University; Carter Wendelken and Silvia Bunge, ϲϿ Berkeley. The work was supported by the National Institutes of Health.  

Media Resources

Simona Ghetti, Center for Mind and Brain, 530-752-3370, sghetti@ucdavis.edu

Andy Fell, News and Media Relations, 530-752-4533, ahfell@ucdavis.edu

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