Abstract
Visual perception is highly variable and can be influenced by the surrounding world. Previous research has revealed that body perception can be biased due to adaptation to thin or fat body shapes. The aim of the present study was to show that adaptation to certain body shapes and the resulting perceptual biases transfer across different identities of adaptation and test stimuli. We designed two similar adaptation experiments in which healthy female participants adapted to pictures of either thin or fat bodies and subsequently compared more or less distorted pictures of their own body to their actual body shape. In the first experiment (n = 16) the same identity was used as adaptation and test stimuli (i.e. pictures of the participant’s own body) while in the second experiment (n = 16) we used pictures of unfamiliar thin or fat bodies as adaptation stimuli. We found comparable adaptation effects in both experiments: After adaptation to a thin body, participants rated a thinner than actual body picture to be the most realistic and vice versa. We therefore assume that adaptation to certain body shapes transfers across different identities. These results raise the questions of whether some type of natural adaptation occurs in everyday life. Natural and predominant exposure to certain bodily features like body shape – especially the thin ideal in Western societies – could bias perception for these features. In this regard, further research might shed light on aspects of body dissatisfaction and the development of body image disturbances in terms of eating disorders.
Highlights
Visual perception is strongly influenced by experience and the stimuli that surround us
This indicates that it is neurons coding for low-level visual properties that change their response pattern due to adaptation and and essentially neurons coding for complex visual stimuli and their specific features
There were no correlations between Body Mass Index (BMI) and the results of the adaptation conditions
Summary
Visual perception is strongly influenced by experience and the stimuli that surround us. After adaptation to female faces, subsequently seen gender-neutral faces appear male to the observer and vice versa These higher order aftereffects transfer across changes in stimulus size [8] or stimulus orientation [9] and are vastly invariant to these low-level stimulus properties. This invariance supports the assumption that face aftereffects cannot be solely explained by lowlevel visual properties but are essentially evoked by complex visual stimuli like faces and their corresponding features like facial expression. This indicates that it is neurons coding for low-level visual properties that change their response pattern due to adaptation and and essentially neurons coding for complex visual stimuli and their specific features
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