Abstract
Presaccadic attention enhances visual perception at the upcoming saccade target location. While this enhancement is often described as obligatory and temporally stereotyped, recent studies indicate that its strength varies depending on saccade direction. Here, we investigated whether the time course of presaccadic attention also differs across saccade directions. Participants performed a two-alternative forced-choice orientation discrimination task during saccade preparation. Tilt angles were individually titrated in a fixation baseline condition to equate task difficulty across the upper and lower vertical meridians. Sensitivity was then assessed at different time points relative to saccade onset and cue onset, allowing us to characterize the temporal dynamics of attentional enhancement. We found that presaccadic attention built up faster and reached higher levels preceding downward than upward saccades. Linear model fits revealed significant slope differences but no differences in intercepts, suggesting that the observed asymmetries reflect differences in attentional deployment during saccade preparation rather than preexisting differences in sensitivity. Saccade parameters did not account for these asymmetries. Our findings demonstrate that the temporal dynamics of presaccadic attention vary with saccade direction, which may be a potential mechanism underlying previously observed differences in presaccadic benefit at the upper and lower vertical meridians. This temporal flexibility challenges the view of a uniform presaccadic attention mechanism and suggests that presaccadic attentional deployment is shaped by movement goals. Our results provide new insights into how the visual and oculomotor systems coordinate under direction-specific demands.