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Abstract
When scrutinizing the visual world, complex and unexpected stimuli often lead to prolonged eye fixations to enhance cognitive processing, likely by temporarily suppressing a planned saccade. The present study examined whether the suppression signal is tightly linked to a specific planned saccade and if it conforms to the viewer's intention. A novel Go/No-go task was devised where participants made consecutive saccades to fixate a stimulus appearing across the screen horizontal meridian in 4° steps. At times, the features of the stimulus (colour and/or shape) were altered when it reappeared at a new location. Participants had to suppress the saccade that would otherwise leave the stimulus if its features matched instructed criteria. Saccade suppression was determined by the reduced probability for saccades towards and away from a target stimulus. Results show both correct suppression to saccades leaving the target and erroneous suppression to saccades towards it. The erroneous suppression was initially observed for any change in features but later lifted. The suppression shortened the length of saccades leaving a target but not those towards it. The initial suppression during previewing the target appears to be based on expedited but incomplete evaluation of visual stimulus, and is not linked to any specific saccade. These properties might reflect the stage of ocular decision based on which the suppression signal is generated. They also account for the phenomenon of “peripheral-to-foveal” effect on eye movements in reading.