Two lines captured with eye-tracking technology show that twins will follow a similar pattern with their eyes when shown the same image. |
Conducted in collaboration with researchers from the Karolinska Institute in Sweden, the study offers a new angle on the emergence of differences between individuals and the integration of genetic and environmental factors in social, emotional and cognitive development. This is significant because visual exploration is also one of the first ways infants interact with the environment, before they can reach or crawl.
"The majority of work on eye movement has asked 'What are the common features that drive our attention?'" said Daniel P. Kennedy, an assistant professor in the IU Bloomington College of Arts and Sciences' Department of Psychological and Brain Sciences. "This study is different. We wanted to understand differences among individuals and whether they are influenced by genetics."
Kennedy and co-author Brian M. D'Onofrio, a professor in the department, study neurodevelopmental problems from different perspectives. This work brings together their contrasting experimental methods: Kennedy's use of eye tracking for individual behavioral assessment and D'Onofrio's use of genetically informed designs, which draw on data from large population samples to trace the genetic and environmental contributions to various traits. As such, it is one of the largest-ever eye-tracking studies.
In this particular experiment, the researchers compared the eye movements of 466 children -- 233 pairs of twins (119 identical and 114 fraternal) -- between ages 9 and 14 as each child looked at 80 snapshots of scenes people might encounter in daily life, half of which included people. Using an eye tracker, the researchers then measured the sequence of eye movements in both space and time as each child looked at the scene. They also examined general "tendencies of exploration"; for example, if a child looked at only one or two features of a scene or at many different ones.
Published Nov. 9 in the journal Current Biology, the study found a strong similarity in gaze patterns within sets of identical twins, who tended to look at the same features of a scene in the same order. It found a weaker but still pronounced similarity between fraternal twins.
This suggests a strong genetic component to the way individuals visually explore their environments: Insofar as both identical and fraternal twins each share a common environment with their twin, the researchers can infer that the more robust similarity in the eye movements of identical twins is likely due to their shared genetic makeup. The researchers also found that they could reliably identify a twin with their sibling from among a pool of unrelated individuals based on their shared gaze patterns -- a novel method they termed "gaze fingerprinting."
"People recognize that gaze is important," Kennedy said. "Our eyes are moving constantly, roughly three times per second. We are always seeking out information and actively engaged with our environment, and ultimately where you look affects your development."
After early childhood, the study suggests that genes influence at the micro-level -- through the immediate, moment-to-moment selection of visual information -- the environments individuals create for themselves.
"This is not a subtle statistical finding," Kennedy said. "How people look at images is diagnostic of their genetics. Eye movements allow individuals to obtain specific information from a space that is vast and largely unconstrained. It's through this selection process that we end up shaping our visual experiences.
"Less known are the biological underpinnings of this process," he added. "From this work, we now know that our biology affects how we seek out visual information from complex scenes. It gives us a new instance of how biology and environment are integrated in our development."
Read more at Science Daily
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