The surface-mode property of “blackness” is induced by
simultaneous contrast with an adjacent, more luminant surround. As
numerous studies have shown, the degree of blackness induced within an
achromatic test field is a function of the relative luminance of the
adjacent chromatic inducing field, but not of its hue. But in the converse
case of chromatic test fields, susceptibility to blackening has been
reported to vary with wavelength. The present study investigates this
possibility, that some wavelengths are more susceptible. We also
questioned whether “white” and “black” sensory
components function as opposites in blackness appearance. We recorded the
appearance of a central monochromatic test field of constant luminance (10
cd/m2), with wavelength ranging across the visible
spectrum, while a broadband white annulus was set to six luminance levels
ranging across three log steps. Three color-normal observers followed a
color-naming technique. All six opponent-hue names and their combinations
were response options; blackness and whiteness in the test field could
therefore be reported independently. Of primary interest were the
achromatic responses. When represented within a multidimensional space,
these revealed the “white-to-black” dimension but in addition
a quality (dimension) of “desaturation.” Compared against
chromatic properties of the test field, the results provide evidence that
blackness is a function of inducing field brightness (not luminance). This
result is in accord with observations made by Shinomori et al. (1997) using a different procedure. We conclude that
blackness induction occurs at a stage of visual processing subsequent to
the origin of the brightness signal from a combination of opponent-process
channels.