Abstract
The possibility of spatiotemporal interactions in motor action that are comparable with the perceptual kappa effect was tested in the present study. In the kappa effect, the empty duration between two successive stimuli is overestimated when the spatial distance between these stimuli is increased. Indeed, when participants reproduced the standard (empty) duration, delivering two tactile stimuli to different hands resulted in a longer reproduced duration than delivering both stimuli to the same hand, regardless of how long the standard was. However, when a spatial factor during motor action (reproduction) was manipulated by letting participants use an identical hand or different hands for two button pushes reproducing the standard, the different-hand condition yielded a shorter reproduced duration than the identical-hand condition when the standard was 1000 ms or more. More specifically, this decrement in the reproduced duration grew linearly with the standard, suggesting that a given space increases the “rate” of an internal timer during motor action. Because each tick of the timer was accelerated, the total error causing an earlier push of the second button was increased with the standard. A pacemaker-counter model was adopted to explain the differences between the perceptual and the motor spatiotemporal interactions.
Highlights
The possibility of spatiotemporal interactions in motor action that are comparable with the perceptual kappa effect was tested in the present study
The post hoc contrasts according to the Scheffé method for the location effect rejected the null hypothesis positing − = 0, indicating that delivering the two stimuli to different hands caused a significantly longer reproduction than delivering them to an identical hand
The main purpose of the present study was to examine whether the spatiotemporal interactions as in the kappa effect would occur in motor action
Summary
The possibility of spatiotemporal interactions in motor action that are comparable with the perceptual kappa effect was tested in the present study. When a spatial factor during motor action (reproduction) was manipulated by letting participants use an identical hand or different hands for two button pushes reproducing the standard, the different-hand condition yielded a shorter reproduced duration than the identical-hand condition when the standard was 1000 ms or more. If the neural basis of spatiotemporal interactions as found in the perceptual kappa effect is linked with the functions of these brain regions, it is plausible that such interactions occur in motor action. This possibility was tested in the present study. The previous study examined the possibility of spatiotemporal interactions in perception, whereas the present study examined the possibility of spatiotemporal interactions in motor action
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