UCLA psychologist Matthew Lieberman explains why people might see things differently.
By UNIVERSITY OF CALIFORNIA - LOS ANGELES
 |
| MDHA (Cartoon courtesy of G. Renee Guzlas) |
According
to a recent study by the University of California, Los Angeles psychology
professor Matthew Lieberman, the answer resides in a part of the brain he calls
the “gestalt cortex,” which helps humans make sense of ambiguous or incomplete
information — and dismiss alternative interpretations.
The
study, which was based on an analysis of over 400 prior studies, was published
in the journal Psychological Review.
People
often mistake their own perceptions of other individuals and events for an
objective fact as opposed to only being their own interpretation. People who
experience this “naive realism” phenomenon think they should have the final
word on the world around them.
“We tend to have irrational confidence in our own experiences of the world, and to see others as misinformed, lazy, unreasonable or biased when they fail to see the world the way we do,” Lieberman said. “The evidence from neural data is clear that the gestalt cortex is central to how we construct our version of reality.”
The
gestalt cortex is located behind the ear, between the parts of the brain
responsible for processing vision, sound and touch. Credit: Matthew
Lieberman/UCLA Psychology
He
believes that the most overlooked cause of conflict and mistrust between
people and organizations is naive realism.
“When
others see the world differently than we do, it can serve as an existential
threat to our own contact with reality and often leads to anger and suspicion
about the others,” Lieberman said. “If we know how a person is seeing the
world, their subsequent reactions are much more predictable.”
While
the question of how people make sense of the world has been an enduring topic
in social psychology, the underlying brain mechanisms have never been fully
explained, Lieberman said.
Mental
acts that are coherent, effortless, and based on our experiences tend to occur
in the gestalt cortex. For example, a person might see someone else smiling and
without giving it any apparent thought, perceive that the other person is
happy. Because those inferences are immediate and effortless, they typically
feel more like “seeing reality” — even though happiness is an internal
psychological state — than they do like “thinking,” Lieberman said.
“We
believe we have merely witnessed things as they are, which makes it more
difficult to appreciate, or even consider, other perspectives,” he said. “The
mind accentuates its best answer and discards the rival solutions. The mind may
initially process the world like a democracy where every alternative interpretation
gets a vote, but it quickly ends up like an authoritarian regime where one
interpretation rules with an iron fist and dissent is crushed. In selecting one
interpretation, the gestalt cortex literally inhibits others.”
Previous
research by Lieberman has shown that when people disagree face to face — for
example on a political issue — activity in their gestalt cortices is less
similar than it is for people who agree with one another. (That conclusion was
supported by a 2018 study in the journal Nature Communications.
UCLA psychologist Carolyn Parkinson and others found that similar neural
patterns in the gestalt cortex were strong predictors of who was friends with
whom.)
Gestalt
was a German school of perceptual psychology whose motto was, “The whole is
greater than the sum of the parts.” The approach focused on how the human mind
integrates elements of the world into meaningful groupings.
The
gestalt cortex is located behind the ear, and it is situated between the parts
of the brain responsible for processing vision, sound and touch; those parts
are connected by a structure called the temporoparietal junction, which is part
of the gestalt cortex. In the new study, Lieberman proposes that the
temporoparietal junction is central to conscious experience and that it helps
organize and integrate psychological features of situations that people see so
they can make sense of them effortlessly.
The
gestalt cortex isn’t the only area of the brain that enables people to quickly
process and interpret what they see, he said, but it is an especially important
one.
Using
neurosurgical recordings to understand the “social brain”
In
a separate study, published in April in the journal Nature Communications, Lieberman and colleagues
addressed how, given our complex social worlds, we are able to socialize with
relative ease.
Using
the first mass-scale neurosurgical recordings of the “social brain,” Lieberman,
UCLA psychology graduate student Kevin Tan and colleagues at Stanford
University showed that humans have a specialized neural pathway for social
thinking.
Lieberman,
author of the bestselling book “Social: Why Our Brains Are Wired to Connect,”
said humans are social by nature and have an exceptional capacity for assessing
the mental states of others. That ability requires the brain to process a large
number of inferences from a vast array of idiosyncratic cues. So why does that
process often feel so effortless compared to simple tasks like basic
arithmetic?
Clear
answers have been elusive for those who study social neuroscience. One culprit
could be scientists’ reliance on functional magnetic resonance imaging, which
is effective at scanning where brain activity occurs, but less effective at
capturing the timing of that activity.
Researchers
employed a technique called electrocorticography to record brain activity at
millisecond and millimeter scales using thousands of neurosurgical electrodes.
They found that a neurocognitive pathway that extends from the back to the
front of the brain is especially active in areas closer to the front when
people think about the mental states of others.
Their
findings suggest that the temporoparietal junction may create a fast,
effortless understanding of other people’s mental states, and that another
region, the dorsomedial prefrontal cortex, may be more involved in thinking
things through more slowly and carefully.
References:
“Seeing minds, matter, and meaning: The CEEing model of pre-reflective
subjective construal” by Matthew D. Lieberman, July 2022, Psychological Review.
DOI:
10.1037/rev0000362
“Similar neural
responses predict friendship” by Carolyn Parkinson, Adam M. Kleinbaum and
Thalia Wheatley, 30 January 2018, Nature
Communications.
DOI: 10.1038/s41467-017-02722-7
“Electrocorticographic
evidence of a common neurocognitive sequence for mentalizing about the self and
others” by Kevin M. Tan, Amy L. Daitch, Pedro Pinheiro-Chagas, Kieran C. R.
Fox, Josef Parvizi and Matthew D. Lieberman, 8 April 2022, Nature Communications.
DOI: 10.1038/s41467-022-29510-2
