Abstract
Synaesthesia is an excellent model for understanding perceptual binding in the human brain. Current evidence suggests that if synaesthetic colour is bound, it is through the same attention-dependent integration of feature maps that occurs in other forms of binding. synaesthetic colour arises after the point that separate wavelengths blend in normal colour vision, which creates a perceptual paradox where synaesthetic and print colour can appear bound to a single location without blending. If a letter is printed in a colour that is different from the synaesthetic colour it induces, the two hues will activate different hue-selective maps allowing for dual representation of colour, but if synaesthetic and print colours are the same/similar they will co-activate the same hue-selective map and create an amplified colour signal. Studies suggest that the parietal cortex plays a key role in this binding of synaesthetic and/or print colour to shape.