Color perception in twins

The classical twin method was used to examine the genotype - phenotype relationship in color vision. Suprathreshold color differences were assessed by 5 pairs of monozygotic (MZ) and 3 pairs of dizygotic (DZ) twins. The control group included 3 unrelated normal trichromats, a non-twin sibling pair, and a previously diagnosed deuteranomal. Concordance rates were calculated by Spearman's correlation coefficients (r(s)) and Procrustean distances (g(l)) between the reconstructed color spaces for each related pair of observers. For 4 pairs of the MZ twins, the r(s) values were comparable to intraindividual variability in the control normal trichromat; they were significantly higher (0.94-0.97) than those for the DZ twins and siblings (0.72-0.82). The g(l) values for the MZ twins (0.008-0.029) were lower than for the DZ twins (0.073-0.079) and siblings (0.053). The high concordance between each pair of the MZ twins suggests that their shared photopigment genome constrains a contribution of possible individual variations in nongenetic factors to variability of their color spaces. Lower concordance rates in the DZ twins and siblings can be attributed to differences in the inherited arrays of photopigment genes. Contributions to intrapair variation in color spaces of twins from cognitive factors such as perceptual-cognitive color categorization and decision-process variability are discussed.