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Motor learning alters vision, but vision does not alter motor learning.

Alexander CatesKeith E Gordon
Published in: Journal of neurophysiology (2024)
During visuomotor learning, improvements in motor performance accompany changes in how people use vision. However, the dependencies between altered visual reliance and improvements in motor skill is unclear. The present studies used an online sequence learning task to quantify how changing the availability of visual information affected motor skill learning ( study 1 ) and how changing motor skill affected visual reliance ( study 2 ). Participants used their keyboard to respond to targets falling vertically down a game screen. In study 1 ( n = 49), the availability of visual information was altered by manipulating where the targets were visible on the screen. Three experimental groups practiced the task during full or limited vision conditions (when the targets were only visible in specific areas). We hypothesized that limiting visual information would reduce motor learning (i.e., the rate of improvement during training trial blocks). Instead, although participants performed worse during limited vision trials ( P < 0.001), there was no difference in learning rate ( P = 0.87). In study 2 ( n = 119), all participants practiced the task with full vision and their visual reliance (i.e., their performance change between full and limited vision conditions) was quantified before and after training. We hypothesized that with motor learning, visual reliance on future targets would increase, whereas visual reliance on the current targets would decrease. The results of study 2 partially support our hypotheses with visual reliance decreasing for all visual areas ( P < 0.001). Together, the results suggest changing motor skill alters how people use vision, but changing visual availability does not affect motor learning. NEW & NOTEWORTHY Previous research has established how people use visual information changes with motor learning. However, the dependencies of these two processes on each other are unclear. We find that limiting the availability of visual information degrades motor performance but not motor learning. We also find that motor learning reduces the impact of limiting the availability of visual information on motor performance. Together, these results suggest that how people use visual information depends on their motor skill.
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