Colour constancy across the life span: evidence for compensatory mechanisms.

Sophie Wuerger,Daniel Osorio

doi:10.1371/journal.pone.0063921

Sophie Wuerger, Daniel Osorio

Open Access

https://doi.org/10.1371/journal.pone.0063921

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Journal: PloS one	Publication Date: May 8, 2013
Citations: 44	License type: CC BY 4.0

Affiliation: University of Liverpool

Abstract

It is well known that the peripheral visual system declines with age: the yellowing of the lens causes a selective reduction of short-wavelength light and sensitivity losses occur in the cone receptor mechanisms. At the same time, our subjective experience of colour does not change with age. The main purpose of this large-scale study (n = 185) covering a wide age range of colour-normal observers (18–75 years of age) was to assess the extent to which the human visual system is able to compensate for the changes in the optical media and at which level of processing this compensation is likely to occur. We report two main results: (1) Supra-threshold parafoveal colour perception remains largely unaffected by the age-related changes in the optical media (yellowing of the lens) whereas our ability to discriminate between small colour differences is compromised with an increase in age. (2) Significant changes in colour appearance are only found for unique green settings under daylight viewing condition which is consistent with the idea that the yellow-blue mechanism is most affected by an increase in age due to selective attenuation of short-wavelength light. The data on the invariance of hue perception, in conjunction with the age-related decline in chromatic sensitivity, provides evidence for compensatory mechanisms that enable colour-normal human observers a large degree of colour constancy across the life span. These compensatory mechanisms are likely to originate at cortical sites.

Highlights

The purpose of this study was to assess in a large sample of adult colour-normal observers whether higher-order colour appearance mechanisms are affected by ageing
Effect of age on colour appearance To evaluate whether hue perception changes with age and whether these changes are predicted by the age-related changes in the optical media, we proceed as follows
By comparing the observed with the predicted cone weightings as a function of age, we can ascertain whether wL Ã LzwM Ã MzwS Ã S~RGY ~0

Summary

Introduction

The purpose of this study was to assess in a large sample of adult colour-normal observers whether higher-order colour appearance mechanisms are affected by ageing. The cone outputs are recombined in post-receptoral cone-opponent retinal channels and their spectral tuning is inherited by the Lateral Geniculate Nucleus (LGN), a sub-cortical visual relay station [2]. These early cone-opponent mechanisms feed into cortical colour mechanisms with different spectral properties that have not been fully characterised [3,4,5]. In our study we use unique hue judgements as a way to gauge higher-order colour appearance mechanisms since unique hue judgments allow us to obtain absolute appearance judgements without the need for a reference

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