Summary
Exposure to a large uniform field modulated in luminance by a sawtooth function, repeating between 1 and 5 times per second, raised the threshold for detection of a test stimulus of similar waveform by a factor of 2 to 4.5. In comparison, the threshold elevation for a test stimulus of the inverse waveform was only half as great. This polarity-sensitive adaptation fits with Jung's hypothesis that separate channels signal ‘brightening’ and ‘darkening’ in the human visual system. Introduction of spatial contrast such as random noise does not affect adaptation to temporal luminance gradients, but does lead to some interocular transfer. The transferred component, however, shows no sensitivity to the polarity of the test stimulus.
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References
Anstis, S.M.: Visual adaptation to gradual change of intensity. Science 155, 710–712 (1967)
Barlow, H.B., Brindley, G.S.: Interocular transfer of movement after-effects during pressure-blinding of the stimulated eye. Nature 200, 1347 (1963)
Baumgartner, G.: Neuronale Mechanismen des Kontrast- und Bewegungssehens. Ber. Dtsch. Ophthalmol. Ges. 66, 111–125 (1964)
Blakemore, C., Campbell, F.W.: On the existence of neurones in the human visual system selectively sensitive to the orientation and size of retinal images. J. Physiol. (Lond.) 203, 237–260 (1969)
Brooks, B.A., Huber, C.: Evidence for the role of the transient neural ‘off-response’ in perception of light decrement. A psychophysical test derived from neuronal data in the cat. Vision Res. 12, 1291–1297 (1972)
De Valois, R.L., Jacobs, G.H., Jones, A.E.: Responses of single cells in primate red-green colour vision system. Optik. 20, 87–98 (1963)
Hartline, H.K., Wagner, H.G., Ratliff, F.: Inhibition in the eye of Limulus. J. Gen. Physiol. 39, 651–673 (1956)
Hoffmann, K.P., Stone, J.: Conduction velocity of afferents to cat visual cortex: a correlation with cortical receptive field properties. Brain Res. 32, 460–466 (1971)
Hubel, D.H., Wiesel, T.N.: Receptive fields, binocular interaction and functional architecture in the cat's visual cortex. J. Physiol. (Lond.) 160, 106–154 (1962)
Hubel, D.H., Wiesel, T.N.: Receptive fields and functional architecture of monkey striate cortex. J. Physiol. (Lond.) 195, 215–243 (1968)
Hughes, G.W., Maffei, L.: Retinal ganglion cell response to sinusoidal light stimulation. J. Neurophysiol. 29, 333–352 (1966)
Ikeda, H., Wright, M.J.: Spatial and temporal properties of ‘sustained’ and ‘transient’ neurones in area 17 of the cat's visual cortex. Exp. Brain Res. 22, 363–383 (1975)
Jacobs, G.H., Yolton, R.L.: Centre-surround balance in receptive fields of cells in the lateral geniculate nucleus. Vision Res. 10, 1127–1144 (1970)
Jung, R.: Korrelationen von Neuronentätigkeit und Sehen. In: Jung, R., Kornhuber, H.H. (Hrsg.): Neurophysiologie und Psychophysik des visuellen Systems, S. 410–435. Berlin, Heidelberg, New York: Springer 1961
Jung, R.: Visual Perception and Neurophysiology. In: Handbook of Sensory Physiology, VII/3A (R. Jung, ed.), pp. 1–152. Berlin, Heidelberg, New York: Springer 1973
Keesey, U.T.: Flicker and pattern detection: a comparison of thresholds. J. Opt. Soc. Amer. 62, 446–448 (1972)
King-Smith, P.E., Kulikowski, J.J.: Pattern and flicker detection analysed by subthreshold summation. J. Physiol. (Lond.) 249, 519–548 (1975)
Krüger, J., Fischer, B.: Symmetry between the visual B- and'D-systems and equivalence of center and surround: studies of light increment and decrement in retinal and geniculate neurons of the cat. Biol. Cybernetics 20, 223–236 (1975)
Kulikowski, J.J.: Some stimulus parameters affecting spatial and temporal resolution of human vision. Vision Res. 11, 83–93 (1971)
Kulikowski, J.J., Tolhurst, D.J.: Psychophysical evidence for sustained and transient detectors in human vision. J. Physiol. (Lond.) 232, 149–162 (1973)
Magnussen, S., Glad, A.: Brightness and darkness enhancement during flicker: perceptual correlates of neuronal B- and D-systems in human vision. Exp. Brain Res. 22, 399–414 (1975)
Mitchell, D.E., Reardon, J., Muir, D.W.: Interocular transfer of motion after-effect in normal and stereoblind observers. Exp. Brain Res. 22, 163–175 (1975)
Smith, R.A.: Studies of temporal frequency adaptation in visual contrast sensitivity. J. Physiol. (Lond.) 216, 531–552 (1971)
Stone, J., Hoffmann, K.P.: Conduction velocity as a parameter in the organization of the afferent relay in the cat's lateral geniculate nucleus. Brain Res. 32, 454–459 (1971)
Wiesel, T.N., Hubel, D.H.: Spatial and chromatic interactions in the lateral geniculate body of the rhesus monkey. J. Neurophysiol. 29, 1115–1156 (1966)
Wurtz, R.H.: Visual receptive fields of striate cortex neurons in awake monkeys. J. Neurophysiol. 32, 727–742 (1969)
Young, M.: Visual channels sensitive to luminance change. M.Sc. Thesis, University of Keele. (Available in microfilm from Keele University Library 1976)
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Hanly, M., MacKay, D.M. Polarity-sensitive perceptual adaptation to temporal sawtooth modulation of luminance. Exp Brain Res 35, 37–46 (1979). https://doi.org/10.1007/BF00236783
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DOI: https://doi.org/10.1007/BF00236783