Abstract
Visual transients can interrupt overt orienting by abolishing the execution of a planned eye movement due about 90 ms later, a phenomenon known as saccadic inhibition (SI). It is not known if the same inhibitory process might influence covert orienting in the absence of saccades, and consequently alter visual perception. In Experiment 1 (n = 14), we measured orientation discrimination during a covert orienting task in which an uninformative exogenous visual cue preceded the onset of an oriented probe by 140–290 ms. In half of the trials, the onset of the probe was accompanied by a brief irrelevant flash, a visual transient that would normally induce SI. We report a time-dependent inhibition of covert orienting in which the irrelevant flash impaired orientation discrimination accuracy when the probe followed the cue by 190 and 240 ms. The interference was more pronounced when the cue was incongruent with the probe location, suggesting an impact on the reorienting component of the attentional shift. In Experiment 2 (n = 12), we tested whether the inhibitory effect of the flash could occur within an earlier time range, or only within the later, reorienting range. We presented probes at congruent cue locations in a time window between 50 and 200 ms. Similar to Experiment 1, discrimination performance was altered at 200 ms after the cue. We suggest that covert attention may be susceptible to similar inhibitory mechanisms that generate SI, especially in later stages of attentional shifting (> 200 ms after a cue), typically associated with reorienting.
Highlights
The primary function of visual processing is to guide efficient interactions with the surrounding world
There were no significant effects for the congruent cue condition at any of the cue–target onset asynchronies (CTOAs), while there was an interaction in the incongruent cue condition with a strong effect of the flash at 190 ms [β = − 0.331, 95% CI = (− 0.632, − 0.03), t = − 2.155, p = 0.031] and 240 ms [β = − 0.401, 95% CI = (− 0.728, − 0.074), t = − 2.404, p = 0.016]
We uncovered a new phenomenon within a classic cueing paradigm (Cameron et al 2002; Posner 1980) in which the visual discrimination of a probe stimulus was deteriorated by the simultaneous presentation of a brief flash event, but only when the flash was preceded by the exogenous cue between 190 and 240 ms
Summary
The primary function of visual processing is to guide efficient interactions with the surrounding world. This requires us to rapidly integrate new sensory information with ongoing. Experimental Brain Research (2021) 239:2635–2648 omnipause neurons (OPN) in the nucleus raphe interpositus (Büttner-Ennever et al 1988). OPNs are a small group of neurons that fire tonically during fixation and pause their activity abruptly just before and during saccades (Cohen and Henn 1972; Keller 1974; Luschei and Fuchs 1972). Sudden reactivation of OPNs following the onset of a visual transient might send an inhibitory signal interfering with the buildup activity in upstream oculomotor areas (Buonocore et al 2020). Despite being one of the most reliable phenomena in oculomotor behaviour, the ecological function of SI is not fully understood
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