Credit: public domain
The
stereotypes we hold can influence our brain's visual system, prompting us to
see others' faces in ways that conform to these stereotypes, neuroscientists at
New York University have found.
"Our
findings provide evidence that the stereotypes
we hold can systematically alter the brain's visual representation of a face,
distorting what we see to be more in line with our biased expectations,"
explains Jonathan Freeman, an assistant professor in NYU's Department of
Psychology and the senior author of the paper, which appears in the journal Nature
Neuroscience.
"For
example, many individuals have ingrained stereotypes that associate men as being
more aggressive, women as being more appeasing, or Black individuals as being
more hostile—though they may not endorse these stereotypes personally,"
Freeman observes. "Our results suggest that these sorts of stereotypical
associations can shape the basic visual processing of other people, predictably
warping how the brain 'sees' a person's face."
Prior
research has shown that stereotypes seep into the ways we think about and
interact with other people, shaping many aspects of our behavior—despite our
better intentions. But the researchers' findings show that stereotypes may also
have a more insidious impact, shaping even our initial visual processing of a
person in a way that conforms to our existing biases.
Previous
studies have shown that how we perceive a face may, in turn, influence our
behavior," notes Ryan Stolier, an NYU doctoral student and lead author of
the research. "Our findings therefore shed light upon an important and
perhaps unanticipated route through which unintended bias may influence
interpersonal behavior."
The
research relies on an innovative mouse-tracking technique that uses an
individual's hand movements to reveal unconscious cognitive
processes—and, specifically, the stereotypes they hold. Unlike surveys, in
which individuals can consciously alter their responses, this technique
requires subjects to make split-second decisions about others, thereby
uncovering a less conscious preference through their hand-motion trajectory.
Using this mouse-tracking software Freeman developed, the millimeters of
movement of a test subject's mouse cursor can be linked with brain-imaging data
to discover otherwise hidden impacts on specific brain processes.
In
the first of two studies, Freeman and Stolier monitored subjects' brain
activity—using functional magnetic resonance imaging (fMRI)—while these
subjects viewed different faces: male and female as well as those of
various races and depicting a range of emotions. Outside the brain scanner, the
subjects were asked to quickly categorize the gender, race, and emotion of the
faces using the mouse-tracking technique. Despite their conscious responses,
the subjects' hand movements revealed the presence of several stereotypical
biases. Notably, men, and particularly Black men, were initially perceived
"angry," even when their faces were not objectively angry; and women
were initially perceived "happy," even when their faces were not
objectively happy. In addition, Asian faces were initially perceived
"female" and Black faces were initially perceived "male,"
regardless of the faces' actual gender. The researchers confirmed, using a
separate group of subjects, that the specific pattern of visual biases observed
matched prevalent stereotypical associations in the U.S. to a significant
degree.
The
researchers' fMRI findings backed these assessments, demonstrating that such
stereotypical biases may be entrenched in the brain's visual system,
specifically in the fusiform cortex, a region involved in the visual processing of faces. For instance, the
neural-activation patterns elicited by Black male faces in this region were
more similar to those elicited by objectively angry faces, even when such faces
did not display any actual angry features (e.g., due to stereotypes of Black
individuals as hostile). Moreover, the extent of this stereotypical similarity
in neural-activation patterns was correlated with the extent of bias observed
in a subject's hand movements. For example, the extent to which a subject's
hand initially veered toward the "angry" response when categorizing a
non-angry Black male face predicted the extent to which neural-activation
patterns for Black male faces and angry faces were more strongly correlated in
the subject's fusiform cortex.
The
numerous other biases described above were also observed in the brain-imaging results.
As another example, the neural-activation patterns elicited by White female
faces were more similar to those elicited by objectively happy faces, even when
such faces did not display any actual happy features (e.g., due to stereotypes
of women as appeasing). In addition, neural-activation patterns elicited by
Asian faces were more similar to those elicited by female faces, regardless of
the actual gender (due to stereotypes associating Asians with more feminine
traits).
In
the second study, the researchers replicated the overall findings in a larger
group of subjects and ruled out alternative explanations, such as whether
inherent physical resemblance or visual similarities in certain faces may
explain the results. They also measured each subject's own stereotypical
associations using an additional task and demonstrated that it was a subject's
own unique associations that specifically predicted the visual biases and
neural-activation patterns observed. These findings cemented the evidence that
one's own learned stereotypes can change the way that an individual sees
another person's face and also demonstrated that this form of visual
stereotyping is not limited to particular associations. Rather, whatever
associations an individual has learned over his or her lifetime are likely to
be expressed in the form of this visual stereotyping, the findings suggest.
"If
stereotypes we have learned can change how we visually process another person,
this kind of visual stereotyping may only serve to reinforce and possibly
exacerbate the biases that exist in the first place," Freeman notes.
"Ultimately,
this research could be used to develop better interventions to reduce or
possibly eliminate unconscious biases," he adds. "The findings
highlight the need to address these biases at the visual level as well, which
may be more entrenched and require specific forms of intervention. This visual
bias occurs the moment we glimpse at another person, well before we have a
chance to correct ourselves or regulate our behavior."
http://medicalxpress.com/news/2016-05-neuroscientists-evidence-visual-stereotyping.html
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