MENTAL REST REFLECTION BOOST LEARNING
A new study, which may
have implications for approaches to education, finds that brain mechanisms
engaged when people allow their minds to rest and reflect on things they've
learned before, may boost later learning.
Scientists have
already established that resting the mind, as in daydreaming, helps strengthen
memories of events and retention of information. In a new twist, researchers at
The University of Texas at Austin have shown that the right kind of mental rest,
which strengthens and consolidates memories from recent learning tasks, helps
boost future learning.
The results appear
online this week in the journal Proceedings of the National Academy of
Sciences.
Margaret Schlichting,
a graduate student researcher, and Alison Preston, an associate professor of
psychology and neuroscience, gave participants in the study two learning tasks
in which participants were asked to memorize different series of associated
photo pairs. Between the tasks, participants rested and could think about
anything they chose, but brain scans found that the ones who used that time to
reflect on what they had learned earlier in the day fared better on tests
pertaining to what they learned later, especially where small threads of
information between the two tasks overlapped. Participants seemed to be making
connections that helped them absorb information later on, even if it was only
loosely related to something they learned before.
"We've shown for
the first time that how the brain processes information during rest can improve
future learning," says Preston. "We think replaying memories during
rest makes those earlier memories stronger, not just impacting the original
content, but impacting the memories to come.
Until now, many
scientists assumed that prior memories are more likely to interfere with new
learning. This new study shows that at least in some situations, the opposite
is true.
"Nothing happens
in isolation," says Preston. "When you are learning something new,
you bring to mind all of the things you know that are related to that new
information. In doing so, you embed the new information into your existing
knowledge."
Preston described how
this new understanding might help teachers design more effective ways of
teaching. Imagine a college professor is teaching students about how neurons
communicate in the human brain, a process that shares some common features with
an electric power grid. The professor might first cue the students to remember
things they learned in a high school physics class about how electricity is
conducted by wires.
"A professor
might first get them thinking about the properties of electricity," says
Preston. "Not necessarily in lecture form, but by asking questions to get
students to recall what they already know. Then, the professor might begin the
lecture on neuronal communication. By prompting them beforehand, the professor
might help them reactivate relevant knowledge and make the new material more
digestible for them."
This research was
conducted with adult participants. The researchers will next study whether a
similar dynamic is at work with children.
This work was
supported by the National Institute of Mental Health of the National Institutes
of Health, the National Science Foundation (NSF) through the NSF CAREER Award
and the Department of Defense through the National Defense Science and
Engineering Graduate Fellowship Program.
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