Detection of chromatic deviations from white across the human visual field.

We studied how much blue, green, or red light had to be added to or subtracted from white to obtain veridical hue perception (blue, green, red, or their complementary colours) at various locations in the temporal visual field. The CIE 1931 (x, y) chromaticity coordinates corresponding to a veridical hue perception were subtracted from the chromaticity coordinates of the white (0.35, 0.35) in order to obtain the threshold differences (dx, dy) in chromaticity coordinates. When stimulus size was constant at all visual field locations, dx and dy changed with eccentricity. However, when the stimulus was M-scaled by magnifying its size with increasing eccentricity in inverse proportion to the lowest local sampling density across the human retina (cones and ganglion cells at eccentricities 0-10 and above 10 deg, respectively), dx and dy remained constant at all eccentricities.