Abstract
The latency to initiate a saccade (saccadic reaction time) to an eccentric target is reduced by extinguishing the fixation stimulus prior to the target onset. Various accounts have attributed this latency reduction (referred to as thegap effect) to facilitated sensory processing, oculomotor readiness, or attentional processes. Two experiments were performed to explore the relative contributions of these factors to the gap effect. Experiment 1 demonstrates that the reduction in saccadic reaction time (RT) produced by fixation point offset is additive with the effect of target luminance. Experiment 2 indicates that the gap effect is specific for saccades directed toward a peripheral target and does not influence saccades directed away from the target (i.e., antisaccades) or choice-manual RT. The results are consistent with an interpretation of the gap effect in terms of facilitated premotor processing in the superior colliculus.
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This research was supported by Grants AFOSR-89-0437and NINCDS 5 POI-NS-17778 and by a faculty research award from Dartmouth College to H. C. Hughes.
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Reuter-Lorenz, P.A., Hughes, H.C. & Fendrich, R. The reduction of saccadic latency by prior offset of the fixation point: An analysis of the gap effect. Perception & Psychophysics 49, 167–175 (1991). https://doi.org/10.3758/BF03205036
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DOI: https://doi.org/10.3758/BF03205036