The research was conducted by Ellen Bialystok, Distinguished Research Professor of psychology; Walter Gordon, research Chair of lifespan cognitive development at York University; Scott Adler, associate professor in York’s Department of Psychology and the Centre for Vision Research; and lead author Kyle J. Comishen, a former master’s student in their lab. It was published Jan. 30 in Developmental Science.
The researchers conducted two separate studies in which infants’ eye movements were measured to assess attention and learning. Half of the infants who were studied were being raised in monolingual environments, while others were being raised in environments in which they heard two languages spoken approximately half of the time each. The infants were shown images as they lay in a crib equipped with a camera and screen, and their eye movements were tracked and recorded as they watched pictures appear above them, in different areas of the screen. The tracking was conducted 60 times for each infant.
“By studying infants – a population that does not yet speak any language – we discovered that the real difference between monolingual and bilingual individuals later in life is not in the language itself, but rather in the attention system used to focus on language,” said Bialystok, co-senior author of the study. “This study tells us that from the very earliest stage of development, the networks that are the basis for developing attention are forming differently in infants who are being raised in a bilingual environment. Why is that important? It’s because attention is the basis for all cognition.”
In the first study, the infants saw one of two images in the centre of the screen, followed by another image appearing on either the left or right side of the screen. The babies learned to expect that if, for example, a pink and white image appears in the centre of the screen, it would be followed by an attractive target image on the left; if a blue and yellow image appeared in the centre, then the target would appear on the right. All the infants could learn these rules.
In the second study, which began in the same way, researchers switched the rule halfway through the experiment. When they tracked the babies’ eye movements, they found that infants who were exposed to a bilingual environment were better at learning the new rule and at anticipating where the target image would appear. This is difficult because they needed to learn a new association and replace a successful response with a new, contrasting one.
“Infants only know which way to look if they can discriminate between the two pictures that appear in the centre,” said Adler, co-senior author of the study. “They will eventually anticipate the picture appearing on the right, for example, by making an eye movement even before that picture appears on the right. What we found was that the infants who were raised in bilingual environments were able to do this better after the rule is switched than those raised in a monolingual environment.”
Anything that comes through the brain’s processing system interacts with this attentional mechanism, said Adler. Therefore, language as well as visual information can influence the development of the attentional system.
Researchers say the experience of attending to a complex environment in which infants simultaneously process and contrast two languages may account for why infants raised in bilingual environments have greater attentional control than those raised in monolingual environments.
In previous research, bilingual children and adults outperformed monolinguals on some cognitive tasks that require them to switch responses or deal with conflict. The reason for those differences were thought to follow from the ongoing need for bilinguals to select which language to speak. This new study pushes back the explanation to a time before individuals are actively using languages and switching between them.
“What is so groundbreaking about these results is that they look at infants who are not bilingual yet and who are only hearing the bilingual environment. This is what’s having the impact on cognitive performance,” said Adler.
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