When children are unmotivated at school, new research suggests their genes may be part of the equation.
Genetics helps explain children’s motivation to learn
A study of more than 13,000 twins from six countries found that 40 to 50 percent of the differences in children’s motivation to learn could be explained by their genetic inheritance from their parents.
The results surprised study co-author Stephen Petrill, who thought before the study that the twins’ shared environment – such as the family and teachers that they had in common – would be a larger factor than genetics.
Instead, genetics and non-shared environment factors had the largest effect on learning motivation, whereas the shared environment had negligible impact.
“We had pretty consistent findings across these different countries with their different educational systems and different cultures. It was surprising,” says Petrill, a professor of psychology at The Ohio State University.
The results strongly suggest that we should think twice before automatically blaming parents, teachers and the children themselves for students who aren’t motivated in class.
“The knee-jerk reaction is to say someone is not properly motivating the student, or the child himself is responsible,” Petrill says.
“We found that there are personality differences that people inherit that have a major impact on motivation. That doesn’t mean we don’t try to encourage and inspire students, but we have to deal with the reality of why they’re different.”
The “he doesn’t like school” genes
The study involved separate studies of twins aged 9 to 16 in the United Kingdom, Canada, Japan, Germany, Russia and the United States. The study methodology and questions in each country were slightly different, but all measured similar concepts. The findings appeared in the July 2015 issue of the journal Personality and Individual Differences.
In all the countries, students completed a measure of how much they enjoyed various academic activities. For example, in Germany, students rated how much they liked reading, writing and spelling.
All students were also asked to rate their own ability in different subjects in school. For example, in the United States, students were asked to rate how much they agreed with statements like “I know that I will do well in reading next year.”
The researchers compared how close the answers were for fraternal twins – who share half their inherited genes, on average – with identical twins, who share all of their inherited genes. To the extent that identical twins’ answers were more closely matched than those of fraternal twins, that suggests a stronger genetic effect.
The results were strikingly similar across all six countries with children of all ages, Petrill says. On average, 40 to 50 percent of the difference between twins in motivation could be explained by genetics. About the same percentage could be explained by what is called the twins’ non-shared environment — for example, differential parenting or a teacher that one twin has but not the other. Only about 3 percent could be explained by their shared environment, such as their common family experience.
“Most personality variables have a genetic component, but to have nearly no shared environment component is unexpected,” says Petrill. “But it was consistent across all six countries.”
The results don’t mean there is a gene for how much children enjoy learning, he says. But the findings suggest a complex process, involving many genes and gene-environment interactions, that help influence children’s motivation to learn.
“We should absolutely encourage students and motivate them in the classroom. But these findings suggest the mechanisms for how we do that may be more complicated than we had previously thought,” he says.
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