ABSTRACT
The authors investigated how visual information from the nondominant and dominant eyes are utilized to control ongoing dominant hand movements. Across 2 experiments, participants performed upper-limb pointing movements to a stationary target or an imperceptibly shifted target under monocular-dominant, monocular-nondominant, and binocular viewing conditions. Under monocular-dominant viewing conditions, participants exhibited better endpoint precision and accuracy. On target jump trials, participants spent more time after peak limb velocity and significantly altered their trajectories toward the new target location only when visual information from the dominant eye was available. Overall, the results suggest that the online visuomotor control processes that typically take place under binocular viewing conditions are significantly influenced by input from the dominant eye.
ACKNOWLEDGMENTS
This manuscript was partially written while Damian Manzone attended the University of British Columbia.
FUNDING
This research was supported by the Natural Sciences and Engineering Research Council of Canada as well as the Canada Foundation for Innovation and the Ontario Research Fund.