Abstract
The Simon effect shows that choice reactions are faster if the location of the stimulus and the response correspond, even when stimulus location is task-irrelevant. The Simon effect raises the question of what factors influence spatial coding. Until now, the effects of handedness, responding hand, and visual field were addressed in separate studies that used bimanual and unimanual tasks, providing inconclusive results. Here we aimed to close this empirical gap by looking at the effects of these variables in the same study. We used a unimanual version of a Simon task with four groups of participants: left-handed and right-handed, responding with the dominant or nondominant hand. Our results show that the Simon effect is substantially reduced in the field of the responding hand for all groups of participants, except for left-handed individuals responding with the left-hand. These findings highlight the importance of attention mechanisms in stimulus-response coding. They reflect that stimulus-response interference is influenced by hierarchical activation of response units. At a practical level, these findings call for a number of methodological considerations (e.g., handedness, responding hand, and visual field) when using stimulus-response conflict to address spatial coding and cognitive control functions in neurological populations.
Highlights
In order to efficiently perform spatially directed actions, many organisms need to integrate visual information presented in different spatial locations with an appropriate motor plan
We performed a mixed analysis of variance (ANOVA) on mean accuracy, with compatibility and visual field as within-subject factors, and responding hand and handedness as between-subject factors
Results for the two groups of right-handed individuals showed a significant main effect of compatibility, F (1, 30) = 47.00, p < .001, η2p = .61, and a significant three-way interaction of compatibility x visual field x responding hand, F (1, 30) = 21.11, p < .001, η2p = .41. We further explored this three-way interaction with two separate ANOVAs, with compatibility and visual field as factors, for the right-handed group responding with the right hand and for the righthanded group responding with the left hand
Summary
In order to efficiently perform spatially directed actions, many organisms need to integrate visual information presented in different spatial locations with an appropriate motor plan. The response to different traffic lights or signs is an example of an individual’s need to associate different visual input with different responses. The influences of spatial processing on response have been studied using the Simon task [1]. In a typical Simon task, participants are asked to respond using their left and right hands to two different stimuli features (e.g., red and green colors). A red or a green target appears at the left or right side of a fixation point. The location of the stimulus is task-irrelevant, it PLOS ONE | DOI:10.1371/journal.pone.0151979. The location of the stimulus is task-irrelevant, it PLOS ONE | DOI:10.1371/journal.pone.0151979 March 31, 2016
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