Contrary to the general belief that the yellow-blue mechanism has lower spatial resolution than the red-green mechanism, it has been recently claimed that both mechanisms have similar spatial sensitivity (McKeefry et al, 2001 Vision Research41 245–255). Studying high-spatial-frequency tritanopia (a colour illusion based on spatio-chromatic interactions in human vision), we found strong evidence for the existence of two blue mechanisms—with low and high spatial-frequency resolution. If confirmed, this may resolve the apparent paradox concerning spatial resolution of the yellow-blue mechanism.
Get full access to this article
View all access options for this article.
References
1.
BaumlKWandellB A, 1996“Color appearance of mixture gratings”Vision Research362849–2864
2.
BrainardD HWilliamsD R, 1993“Spatial reconstruction of signals from short-wavelength cones”Vision Research33105–116
3.
BurnsS AEisnerA EPokornyJSmithV C, 1984“The Abney effect: Chromaticity coordinates of unique and other constant hues”Vision Research24479–489
4.
CavoniusC REstevezO, 1975“Contrast sensitivity of individual colour mechanisms of human vision”Journal of Physiology248649–662
5.
De ValoisR LDe ValoisK K, 1990Spatial Vision2nd edition (New York: Oxford University Press)
6.
De ValoisR LDe ValoisK K, 1993“A multi-stage color model”Vision Research331053–1065
7.
De ValoisR LDe ValoisK KMahonL E, 2000“Contribution of S opponent cells to colour appearance”Proceedings of the National Academy of Sciences97512–517
8.
GreenD G, 1968“The contrast sensitivity of the colour mechanisms of the human eye”Journal of Physiology196415–429
9.
HessR FMullenK TZrennerE, 1989“Human photopic vision with only short wavelength cones: Post-receptoral properties”Journal of Physiology417151–172
10.
HumanskiR AWilsonH R, 1993“Spatial-frequency adaptation: Evidence for a multiple-channel model of short-wavelength-sensitive-cone spatial vision”Vision Research33665–675
11.
HutchinsonS J, 2004“Colour and shape: Spatio-chromatic interactions in the human visual system”, unpublished doctoral dissertation, The Queen's University of Belfast, Belfast, Northern Ireland
12.
KaiserP KBoyntonR M, 1996Human Color Vision2nd edition (Washington, DC: Optical Society of America)
13.
KellyD H, 1974“Spatio-temporal frequency characteristics of color-vision mechanisms”Journal of the Optical Society of America64983–990
14.
LogvinenkoA D, 2001“High-spatial-frequency tritanopia: S-filling-in or S-filtering-out?”Perception30223–232
15.
LogvinenkoA DHutchinsonS J, in press “An effect of luminance contrast on high-spatial-frequency tritanopia”Perception
16.
LogvinenkoA DHutchinsonS J, submitted “Evidence for the existence of colour mechanisms producing unique hues (blue, yellow, and green) as derived from a colour illusion based on spatio-chromatic interactions”Vision Research
17.
McKeefryD JMurrayI JKulikowskiJ J, 2001“Red-green and blue-yellow mechanisms are matched in sensitivity for temporal and spatial modulation”Vision Research41245–255
18.
MollonJ D, 1982“A taxonomy of tritanopias”Documenta Ophthalmologica Proceedings Series3387–101
19.
PoirsonAWandellB, 1993“Appearance of colored patterns: Pattern-color separability”Journal of the Optical Society of America A102458–2470
20.
SankeralliM JMullenK T, 2001“Bipolar or rectified chromatic detection mechanisms?”Visual Neuroscience18127–135
21.
SekiguchiNWilliamsD RBrainardD H, 1993“Efficiency in detection of isoluminant and isochromatic interference fringes”Journal of the Optical Society of America A102118–2133
22.
WillmerE N, 1944“Colour of small objects”Nature153774–775
23.
WyszeckiGStilesW S, 1982Color Science: Concepts and Methods, Quantitative Data and Formulae2nd edition (New York: John Wiley and Sons)