Abstract
Previous studies have shown that face stimuli influence the programming of eye movements by eliciting involuntary and extremely fast saccades toward them. The present study examined whether holistic processing of faces mediates these effects. We used a saccadic choice task in which participants were presented simultaneously with two images and had to perform a saccade toward the one containing a target stimulus (e.g., a face). Across three experiments, stimuli were altered via upside-down inversion (Experiment 1) or scrambling of thumbnails within the images (Experiments 2 and 3) in order to disrupt holistic processing. We found that disruption of holistic processing only had a limited impact on the latency of saccades toward face targets, which remained extremely short (minimum saccadic reaction times of only ∼120–130 ms), and did not affect the proportion of error saccades toward face distractors that captured attention more than other distractor categories. It, however, resulted in increasing error rate of saccades toward face targets. These results suggest that the processing of isolated face features is sufficient to elicit extremely fast and involuntary saccadic responses toward them. Holistic representations of faces may, however, be used as a search template to accurately detect faces.
Highlights
The human visual system has evolved to rapidly detect and preferentially process socially relevant stimuli such as faces
The minimum saccadic reaction time observed for face targets was similar to what was reported by previous studies (i.e., ∼130 ms; Crouzet et al, 2010; Guyader et al, 2017)
The discrepancy between results in terms of accuracy and saccadic reaction times may be explained by the fact that while the accuracy measure is based on the proportion of errors, saccadic reaction times only took into account correct saccades
Summary
The human visual system has evolved to rapidly detect and preferentially process socially relevant stimuli such as faces. Recent studies have used eye-tracking to investigate the speed of face processing using a saccadic choice task (Boucart et al, 2016; Crouzet, Kirchner, & Thorpe, 2010; Crouzet & Thorpe, 2011; Guyader, Chauvin, Boucart, & Peyrin, 2017; Kauffmann et al, 2019). In this task, two images are simultaneously presented to the observer on the left and right side of the screen.
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