Cross-category adaptation: exposure to faces produces gender aftereffects in body perception (original) (raw)

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Cross-category adaptation: objects produce gender adaptation in the perception of faces

PloS one, 2012

Adaptation aftereffects have been found for low-level visual features such as colour, motion and shape perception, as well as higher-level features such as gender, race and identity in domains such as faces and biological motion. It is not yet clear if adaptation effects in humans extend beyond this set of higher order features. The aim of this study was to investigate whether objects highly associated with one gender, e.g. high heels for females or electric shavers for males can modulate gender perception of a face. In two separate experiments, we adapted subjects to a series of objects highly associated with one gender and subsequently asked participants to judge the gender of an ambiguous face. Results showed that participants are more likely to perceive an ambiguous face as male after being exposed to objects highly associated to females and vice versa. A gender adaptation aftereffect was obtained despite the adaptor and test stimuli being from different global categories (objects and faces respectively). These findings show that our perception of gender from faces is highly affected by our environment and recent experience. This suggests two possible mechanisms: (a) that perception of the gender associated with an object shares at least some brain areas with those responsible for gender perception of faces and (b) adaptation to gender, which is a high-level concept, can modulate brain areas that are involved in facial gender perception through top-down processes.

Sex-contingent face aftereffects depend on perceptual category rather than structural encoding

Cognition, 2008

Many studies have used visual adaptation to investigate how recent experience with faces influences perception. While faces similar to those seen during adaptation phases are typically perceived as more 'normal' after adaptation, it is possible to induce aftereffects in one direction for one category (e.g. female) and simultaneously induce aftereffects in the opposite direction for another category (e.g. male). Such aftereffects could reflect 'category-contingent' adaptation of neurons selective for perceptual category (e.g. male or female) or 'structure-contingent' adaptation of lower-level neurons coding the physical characteristics of different face patterns. We compared these explanations by testing for simultaneous opposite after effects following adaptation to (a) two groups of faces from distinct sex categories (male and female) or (b) two groups of faces from the same sex category (female and hyper-female) where the structural differences between the female and hyper-female groups were mathematically identical to those between male and female groups. We were able to induce opposite aftereffects following adaptation between sex categories but not after adaptation within a sex category. These findings 0010-0277/$ -see front matter Ó Cognition 107 (2008) 353-365 indicate the involvement of neurons coding perceptual category in sex-contingent face aftereffects and cannot be explained by neurons coding only the physical aspects of face patterns.

Transfer of gender aftereffects in face silhouettes reveals face-specific mechanisms

Profile face silhouettes have recently been used to generate a behaviorally validated face space. An important method for studying perceptual spaces is the elicitation of aftereffects, shifts in perceptual judgments that occur after prolonged exposure to stimuli that occupy one locus in the perceptual space. Here we show that face silhouettes elicit gender aftereffects (changes in gender judgments following exposure to gendered faces) in a rapid, implicit adaptation paradigm. Further, we observe that these aftereffects persist across image transformations that preserve the perception of a silhouette as a face but not across transformations that disrupt it. Moreover, the aftereffects transfer between two-tone, profile-view silhouettes and gray-scale, front-view face photographs. Together these results suggest that gender processing occurs at a high level of visual representation and can be parametrically investigated within the silhouette face space methodology.

Aftereffects support opponent coding of face gender

Journal of Vision, 2013

Many aspects of faces derived from structural information appear to be neurally represented using norm-based opponent coding. Recently, however, Zhao, Seriès, Hancock, and Bednar (2011) have argued that another aspect with a strong structural component, namely face gender, is instead multichannel coded. Their conclusion was based on finding that face gender aftereffects initially increased but then decreased for adaptors with increasing levels of gender caricaturing. Critically, this interpretation rests on the untested assumption that caricaturing the differences between male and female composite faces increases perceived sexual dimorphism (masculinity/femininity) of faces. We tested this assumption in Study 1 and found that it held for male, but not female faces. A multichannel account cannot, therefore, be ruled out, although a decrease in realism of adaptors was observed that could have contributed to the decrease in aftereffects. However, their aftereffects likely reflect low-level retinotopic adaptation, which was not minimized for most of their participants. In Study 2 we minimized low-level adaptation and found that face gender aftereffects were strongly positively related to the perceived sexual dimorphism of adaptors. We found no decrease for extreme adaptors, despite testing adaptors with higher perceived sexual dimorphism levels than those used by Zhao et al. These results are consistent with opponent coding of higher-level dimensions related to the perception of face gender.

Gender aftereffects in face silhouettes reveal face-specific mechanisms

2008

Profile face silhouettes have recently been used to generate a behaviorally validated face space. An important method for studying perceptual spaces is the elicitation of aftereffects, shifts in perceptual judgments that occur after prolonged exposure to stimuli that occupy one locus in the perceptual space. Here we show that face silhouettes elicit gender aftereffects (changes in gender judgments following exposure to gendered faces) in a rapid, implicit adaptation paradigm. Further, we observe that these aftereffects persist across image transformations that preserve the perception of a silhouette as a face but not across transformations that disrupt it. Moreover, the aftereffects transfer between two-tone, profile-view silhouettes and gray-scale, front-view face photographs. Together these results suggest that gender processing occurs at a high level of visual representation and can be parametrically investigated within the silhouette face space methodology.

Sex-contingent face after-effects suggest distinct neural populations code male and female faces

Proceedings of the Royal Society B: Biological Sciences, 2005

Exposure to faces biases perceptions of subsequently viewed faces. Faces similar to those seen previously are judged more normal and attractive than they were prior to exposure. Here we show sex-contingent after-effects following adaptation to eye-spacing (experiment 1), facial identity (experiment 2) and masculinity (experiment 3). Viewing faces of one sex with increased eye-spacing and faces of the other sex with decreased eye-spacing simultaneously induced opposite after-effects for male and female faces (assessed by normality judgments). Viewing faces transformed in identity or masculinity increased preferences for novel faces with characteristics similar to those viewed only when the sex of the faces presented in the adaptation phase and in post-adaptation preference tests were congruent. Because aftereffects reflect changes in responses of neural populations that code faces, our findings indicate that distinct neural populations code male and female faces.

Experience-dependent reshaping of body gender perception

Psychological Research

Protracted exposure to specific stimuli causes biased visual aftereffects at both low- and high-level dimensions of a stimulus. Recently, it has been proposed that alterations of these aftereffects could play a role in body misperceptions. However, since previous studies have mainly addressed manipulations of body size, the relative contribution of low-level retinotopic and/or high-level object-based mechanisms is yet to be understood. In three experiments, we investigated visual aftereffects for body-gender perception, testing for the tuning of visual aftereffects across different characters and orientation. We found that exposure to a distinctively female (or male) body makes androgynous bodies appear as more masculine (or feminine) and that these aftereffects were not specific for the individual characteristics of the adapting body (Exp.1). Furthermore, exposure to only upright bodies (Exp.2) biased the perception of upright, but not of inverted bodies, while exposure to both upr...

Adaptation aftereffects in the perception of gender from biological motion

Journal of vision, 2006

Human visual perception is highly adaptive. While this has been known and studied for a long time in domains such as color vision, motion perception, or the processing of spatial frequency, a number of more recent studies have shown that adaptation and adaptation aftereffects also occur in high-level visual domains like shape perception and face recognition. Here, we present data that demonstrate a pronounced aftereffect in response to adaptation to the perceived gender of biological motion point-light walkers. A walker that is perceived to be ambiguous in gender under neutral adaptation appears to be male after adaptation with an exaggerated female walker and female after adaptation with an exaggerated male walker. We discuss this adaptation aftereffect as a tool to characterize and probe the mechanisms underlying biological motion perception.