2021
DOI: 10.1038/s41467-021-24806-1
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Holistic face recognition is an emergent phenomenon of spatial processing in face-selective regions

Abstract: Spatial processing by receptive fields is a core property of the visual system. However, it is unknown how spatial processing in high-level regions contributes to recognition behavior. As face inversion is thought to disrupt typical holistic processing of information in faces, we mapped population receptive fields (pRFs) with upright and inverted faces in the human visual system. Here we show that in face-selective regions, but not primary visual cortex, pRFs and overall visual field coverage are smaller and s… Show more

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Cited by 36 publications
(44 citation statements)
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“…The notion of receptive fields is still relevant in higher level visual regions responding to complex shapes, as demonstrated by the study of the macaque's inferotemporal cortex (Gross et al, 1972;Ito et al, 1995;Op De Beeck & Vogels, 2000), although these receptive fields are much larger than in V1 (average size of 10° in Op De Beeck & Vogels, 2000). This organisation of the high-level visual cortex is also found in the human visual system in pRF mapping studies (Finzi et al, 2021;Majima et al, 2017;Poltoratski et al, 2021). However, since those studies typically estimate the size and position of these high-level receptive fields, but not their shape, it is unclear whether the radial, "daisy-like" organisation of the retina and early visual cortex is transmitted or even amplified in the high-level visual cortex.…”
Section: Discussionmentioning
confidence: 94%
“…The notion of receptive fields is still relevant in higher level visual regions responding to complex shapes, as demonstrated by the study of the macaque's inferotemporal cortex (Gross et al, 1972;Ito et al, 1995;Op De Beeck & Vogels, 2000), although these receptive fields are much larger than in V1 (average size of 10° in Op De Beeck & Vogels, 2000). This organisation of the high-level visual cortex is also found in the human visual system in pRF mapping studies (Finzi et al, 2021;Majima et al, 2017;Poltoratski et al, 2021). However, since those studies typically estimate the size and position of these high-level receptive fields, but not their shape, it is unclear whether the radial, "daisy-like" organisation of the retina and early visual cortex is transmitted or even amplified in the high-level visual cortex.…”
Section: Discussionmentioning
confidence: 94%
“…Interestingly, a Bayesian foveated ideal observer model predicts a location just below the eyes as optimal for sampling identity information from the face ( Peterson & Eckstein, 2012 ), but such face-specific sampling biases nevertheless are not generally predictive of observers’ behavioral proficiency. Although most observers fixate close to this optimal location ( Peterson & Eckstein, 2012 ), deviations from this appear to reflect individually optimal behavior ( Peterson & Eckstein, 2013 ), either reflecting retinotopic tuning biases ( de Haas, Schwarzkopf, Alvarez, Lawson, Henriksson, Kriegeskorte, & Rees, 2016 ; de Haas, Sereno, & Schwarzkopf, 2021 ; Poltoratski, Kay, Finzi, & Grill-Spector, 2021 ) or prioritized processing of the facial information that is most diagnostic for a given observer ( Stacchi et al, 2019 ).…”
Section: Introductionmentioning
confidence: 99%
“…It is worth noting that the asymmetric facilitation and interference do not necessarily stem from distinctive neural mechanisms. For instance, they may reflect two dissimilar behavioral effects stemming from common spatial integration in face-selective cortical regions (Poltoratski et al, 2021). The specific divergent mechanisms leading to the dissimilar behavioral effects should be explored further.…”
Section: Discussionmentioning
confidence: 99%
“…The ability to make judgments about the human face is integral to human social interaction. Through the study of face perception and its underlying neural correlates, multiple face-related processing indicators have been uncovered, which have, in turn, deepened our understanding of face processing (e.g., Poltoratski et al, 2021). One of the most well-described theoretical constructs for face perception is holistic face processing; that is, the integrated processing of multiple facial parts (Farah et al, 1998;Hayward et al, 2013;Maurer et al, 2002;Rossion, 2013).…”
Section: Introductionmentioning
confidence: 99%