Scientists Chase Mystery of
How Dogs Process Words
By Carol Clark
How Dogs Process Words
By Carol Clark
October 15, 2018 -- When some
dogs hear their owners say “squirrel,” they perk up, become agitated. They may
even run to a window and look out of it. But what does the word mean to the
dog? Does it mean, “Pay attention, something is happening?” Or does the dog
actually picture a small, bushy-tailed rodent in its mind?
Frontiers in Neuroscience published one of the first studies using brain imaging
to probe how our canine companions process words they have been taught to
associate with objects, conducted by scientists at Emory University
“Many dog owners think that
their dogs know what some words mean, but there really isn’t much scientific
evidence to support that,” says Ashley Prichard, a PhD candidate in Emory’s
Department of Psychology and first author of the study. “We wanted to get data
from the dogs themselves — not just owner reports.”
“We know that dogs have the
capacity to process at least some aspects of human language since they can
learn to follow verbal commands,” adds Emory neuroscientist Gregory Berns, senior author of the
study. “Previous research, however, suggests dogs may rely on many other cues
to follow a verbal command, such as gaze, gestures and even emotional
expressions from their owners.”
The Emory researchers focused on
questions surrounding the brain mechanisms dogs use to differentiate between
words, or even what constitutes a word to a dog.
Berns is founder of the Dog
Project, which is researching evolutionary questions surrounding man’s best,
and oldest friend. The project was the first to train dogs to voluntarily enter
a functional magnetic resonance imaging (fMRI) scanner and remain motionless
during scanning, without restraint or sedation. Studies by the Dog Project have
furthered understanding of dogs’
neural response to expected reward, identified specialized
areas in the dog brain for processing faces, demonstrated olfactory
responses to human and dog odors, and linked prefrontal function to
inhibitory control.
For the current study, 12 dogs
of varying breeds were trained for months by their owners to retrieve two
different objects, based on the objects’ names. Each dog’s pair of objects
consisted of one with a soft texture, such as a stuffed animal, and another of
a different texture, such as rubber, to facilitate discrimination. Training
consisted of instructing the dogs to fetch one of the objects and then
rewarding them with food or praise. Training was considered complete when a dog
showed that it could discriminate between the two objects by consistently
fetching the one requested by the owner when presented with both of the
objects.
During one experiment, the
trained dog lay in the fMRI scanner while the dog’s owner stood directly in
front of the dog at the opening of the machine and said the names of the dog’s
toys at set intervals, then showed the dog the corresponding toys.
Eddie, a golden
retriever-Labrador mix, for instance, heard his owner say the words “Piggy” or
“Monkey,” then his owner held up the matching toy. As a control, the owner then
spoke gibberish words, such as “bobbu” and “bodmick,” then held up novel
objects like a hat or a doll.
The results showed greater
activation in auditory regions of the brain to the novel pseudowords relative
to the trained words.
“We expected to see that dogs
neurally discriminate between words that they know and words that they don’t,” Prichard
The researchers hypothesize that
the dogs may show greater neural activation to a novel word because they sense
their owners want them to understand what they are saying, and they are trying
to do so. “Dogs ultimately want to please their owners, and perhaps also
receive praise or food,” Berns says.
Half of the dogs in the
experiment showed the increased activation for the novel words in their
parietotemporal cortex, an area of the brain that the researchers believe may
be analogous to the angular gyrus in humans, where lexical differences are
processed.
The other half of the dogs,
however, showed heightened activity to novel words in other brain regions,
including the other parts of the left temporal cortex and amygdala, caudate
nucleus, and the thalamus.
These differences may be related
to a limitation of the study — the varying range in breeds and sizes of the
dogs, as well as possible variations in their cognitive abilities. A major
challenge in mapping the cognitive processes of the canine brain, the
researchers acknowledge, is the variety of shapes and sizes of dogs’ brains
across breeds.
“Dogs may have varying capacity
and motivation for learning and understanding human words,” Berns says, “but
they appear to have a neural representation for the meaning of words they have
been taught, beyond just a low-level Pavlovian response.”
This conclusion does not mean
that spoken words are the most effective way for an owner to communicate with a
dog. In fact, other research also led by Prichard
“When people want to teach their
dog a trick, they often use a verbal command because that’s what we humans
prefer,” Prichard
Co-authors of the Frontiers in
Neuroscience study include Peter Cook (a neuroscientist at the New College of
Florida), Mark Spivak (owner of Comprehensive Pet Therapy) and Raveena Chhibber
(an information specialist in Emory’s Department of Psychology).
Co-authors of the Science
Reports paper also include Spivak and Chhibber, along with Kate Athanassiades
(from Emory’s School
of Nursing
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