Abstract
When making a saccadic eye movement to a peripheral target, a simultaneous stimulus onset at central fixation generally increases saccadic latency, while offsets reduce latency (‘gap effect’). Visual onsets remote from fixation also increase latency (‘remote distractor effect’); however, the influence of remote visual offsets is less clear. Previous studies, which used a search task, found that remote offsets either facilitated, inhibited, or did nothing to saccade latencies towards a peripheral target. It cannot be excluded, however, that the target selection process in such search tasks influenced the results. We therefore simplified the task and asked participants to make eye movements to a predictable target. Simultaneously with target onset, either one or multiple remote stimulus onsets and offsets were presented. It was found that peripheral onsets increased saccade latencies, but offsets did not influence the initiation of a saccade to the target. Moreover, the number of onsets and offsets did not affect the results. These results suggest that earlier effects of remote stimulus offsets and of the number of remote distractor onsets reside in the target identification process of the visual search task rather than the competition between possible saccade goals. The results are discussed in the context of models of saccade target selection.
Highlights
Studies of oculomotor control have consistently found that the latencies of saccades initiated towards a peripheral target are reduced if the stimulus at fixation is extinguished around the time that the target appears (Saslow 1967; Rolfs and Vitu 2007)
Saccade latency is increased when a visual onset appears remote from the target location, with the greatest increase observed for onsets occurring around the time the target is presented [Walker et al (1995); see Bompas and Sumner (2009)]
This so-called ‘remote distractor effect’ (RDE) appears to be an automatic process, as it occurs in situations where the target location is known in advance and, as a consequence, the
Summary
Studies of oculomotor control have consistently found that the latencies of saccades initiated towards a peripheral target are reduced if the stimulus at fixation is extinguished around the time that the target appears (Saslow 1967; Rolfs and Vitu 2007). Saccade latency is increased when a visual onset appears remote from the target location, with the greatest increase observed for onsets occurring around the time the target is presented [Walker et al (1995); see Bompas and Sumner (2009)]. This so-called ‘remote distractor effect’ (RDE) appears to be an automatic process, as it occurs in situations where the target location is known in advance and, as a consequence, the
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