Face processing is enhanced in the left and upper visual hemi-fields

We tested whether two known hemi-field asymmetries would affect visual search with face stimuli. Holistic processing of spatial configurations is better in the left hemi-field, reflecting a right hemisphere specialization, and object recognition is better in the upper visual field, reflecting strong...

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Bibliographic Details
Published inVisual cognition Vol. 25; no. 7-8; pp. 749 - 761
Main Authors Carlei, Christophe, Framorando, David, Burra, Nicolas, Kerzel, Dirk
Format Journal Article
LanguageEnglish
Published Hove Routledge 14.09.2017
Taylor & Francis Ltd
Subjects
Face
face processing
gaze direction
Hemi-field asymmetries
Hemispheric laterality
Information processing
Pattern recognition
Specialization
Visual field
visual hemi-field
Visual pathways
Visual perception
visual search
Visual stimuli
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Summary:We tested whether two known hemi-field asymmetries would affect visual search with face stimuli. Holistic processing of spatial configurations is better in the left hemi-field, reflecting a right hemisphere specialization, and object recognition is better in the upper visual field, reflecting stronger projections into the ventral stream. Faces tap into holistic processing and object recognition at the same time, which predicts better performance in the left and upper hemi-field, respectively. In the first experiment, participants had to detect a face with a gaze direction different from the remaining faces. Participants were faster to respond when targets were presented in the left and upper hemi-field. The same pattern of results was observed when only the eye region was presented. In the second experiment, we turned the faces upside-down, which eliminated the typical spatial configuration of faces. The left hemi-field advantage disappeared, showing that it is related to holistic processing of faces, whereas the upper hemi-field advantage related to object recognition persisted. Finally, we made the search task easier by asking observers to search for a face with open among closed eyes or vice versa. The easy search task eliminated the need for complex object recognition and, accordingly, the advantage of the upper visual field disappeared. Similarly, the left hemi-field advantage was attenuated. In sum, our findings show that both horizontal and vertical asymmetries affect the search for faces and can be selectively suppressed by changing characteristics of the stimuli.
ISSN:1350-6285
1464-0716
DOI:10.1080/13506285.2017.1327466