Variations in crowding, saccadic precision, and spatial localization reveal the shared topology of spatial vision

Greenwood, John A; Szinte, Martin; Sayim, Bilge; Cavanagh, Patrick (2017). Variations in crowding, saccadic precision, and spatial localization reveal the shared topology of spatial vision. Proceedings of the National Academy of Sciences of the United States of America - PNAS, 114(17), E3573-E3582. National Academy of Sciences NAS 10.1073/pnas.1615504114

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Visual sensitivity varies across the visual field in several characteristic ways. For example, sensitivity declines sharply in peripheral (vs. foveal) vision and is typically worse in the upper (vs. lower) visual field. These variations can affect processes ranging from acuity and crowding (the deleterious effect of clutter on object recognition) to the precision of saccadic eye movements. Here we examine whether these variations can be attributed to a common source within the visual system. We first compared the size of crowding zones with the precision of saccades using an oriented clock target and two adjacent flanker elements. We report that both saccade precision and crowded-target reports vary idiosyncratically across the visual field with a strong correlation across tasks for all participants. Nevertheless, both group-level and trial-by-trial analyses reveal dissociations that exclude a common representation for the two processes. We therefore compared crowding with two measures of spatial localization: Landolt-C gap resolution and three-dot bisection. Here we observe similar idiosyncratic variations with strong interparticipant correlations across tasks despite considerably finer precision. Hierarchical regression analyses further show that variations in spatial precision account for much of the variation in crowding, including the correlation between crowding and saccades. Altogether, we demonstrate that crowding, spatial localization, and saccadic precision show clear dissociations, indicative of independent spatial representations, whilst nonetheless sharing idiosyncratic variations in spatial topology. We propose that these topological idiosyncrasies are established early in the visual system and inherited throughout later stages to affect a range of higher-level representations.

Item Type:	Journal Article (Original Article)
Division/Institute:	07 Faculty of Human Sciences > Institute of Psychology > Cognitive Psychology, Perception and Methodology
UniBE Contributor:	Sayim, Bilge
Subjects:	100 Philosophy > 150 Psychology
ISSN:	0027-8424
Publisher:	National Academy of Sciences NAS
Language:	English
Submitter:	Bilge Sayim
Date Deposited:	25 Jun 2018 12:21
Last Modified:	05 Dec 2022 15:12
Publisher DOI:	10.1073/pnas.1615504114
PubMed ID:	28396415
Uncontrolled Keywords:	crowding; peripheral vision position; saccadic eye movements; spatial vision
BORIS DOI:	10.7892/boris.114093
URI:	https://boris.unibe.ch/id/eprint/114093

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