Abstract
In the most general sense, dark and light adaptation simply mean getting accustomed to lesser or greater levels of environmental illumination. The importance and efficiency of the mechanisms involved are not obvious subjectively because they function so well. Changes of average luminance by factors of 10, 100, or 1000 occur frequently and pass largely unnoticed; it is only when luminance changes by a much larger factor that we are seriously inconvenienced, either by the temporary blindness resulting from the slowness of regeneration of rhodopsin, or by the unpleasant glare resulting from our inability to reduce our pupil area to the same extent as the domestic cat. Psychophysical measurements show that, though we may not be vividly aware of them, great changes of visual performance nonetheless occur, and the main purpose of this chapter is to describe them.
Keywords
- Test Stimulus
- Dark Adaptation
- Light Adaptation
- Dark Light
- Increment Threshold
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References
Aguilar, M., Stiles, W. S.: Saturation of the rod mechanism at high levels of stimulation. Optica Acta 1, 59–65 (1954).
Alpekn, M., Campbell, F. W.: The behaviour of the pupil during dark-adaptation. J. Physiol. (Lond.) 165, 5P–6P (1962).
Alpekn, M., Fulton, A., Rushton, W. A. H., Torii, S.: Effect of adaptation on the retinal nerve code. Nature (Lond.) 224, 712–713 (1969).
Alpekn, M., Rttshton, W. A. H., Torii, S.: The attenuation of rod signals by backgrounds. J. Physiol. (Lond.) 206, 209–228 (1970).
Baker, H. D.: Initial stages of dark and light adaptation. J. opt. Soc. Amer. 53, 98–103 (1963).
Barlow, H. B.: Increment thresholds at low intensities considered as signal noise discriminations. J. Physiol. (Lond.) 136, 469–488 (1957).
Barlow, H. B.: Temporal and spatial summation in human vision at different background intensities. J. Physiol. (Lond.) 141, 337–350 (1958a).
Barlow, H. B.: Intrinsic noise of cones. In: Visual Problems of Colour, Vol. 2, pp. 617–630. London: H. M. Stationery Office 1958b.
Barlow, H. B.: A method of determining the overall quantum efficiency of visual discriminations. J. Physiol. (Lond.) 160, 155–168 (1962a).
Barlow, H. B.: Measurements of the quantum efficiency of discrimination in human scotopic vision. J. Physiol. (Lond.) 160, 169–188 (1962b).
Barlow, H. B.: Slippage of contact lenses and other artifacts in relation to fading and regeneration of supposedly stable retinal images. Quart. J. exp. Psychol. 15, 36–51 (1963).
Barlow, H. B.: Dark adaptation: a new hypothesis. Vision Res. 4, 47–58 (1964a).
Barlow, H. B.: The physical limits of visual discrimination. In: Photophysiology, Vol. 2, pp. 163–202. Giese, A. C. (Ed.) New York: Academic Press 1964b.
Barlow, H. B., Fitzhugh, R., Kuffler, S. W.: Change of organization in the receptive fields of the cat’s retina during dark adaptation. J. Physiol. (Lond.) 137, 338–354 (1957).
Barlow, H. B., Sparrock, J. M. B.: The role of after-images in dark adaptation. Science 144, 1309–1314 (1964).
Blakemore, C. B., Rushton, W. A. H.: Dark adaptation and increment threshold in a rod monochromat, J. Physiol. (Lond.) 181, 612–628 (1965a).
Blakemore, C. B., Rushton, W. A. H.: The rod increment threshold during dark adaptation in normal and rod monochromat. J. Physiol. (Lond.) 181, 629–640 (1965b).
Bornschein, H.: Spontan- und Belichtungsaktivität in Einzelfasern des N. Opticus der Katze. I. Der Einfluß kurzdauernder retinaler Ischämie. Z. Biol. 110, 210–222 (1958).
Bouman, M. A.: History and present status of quantum theory in vision. In: Sensory Communication, Ch. 21, pp. 377–401. Rosenblith, W. (Ed.) Boston: M.I.T. Press 1961.
Brindley, G. S.: The summation areas of human colour-receptive mechanisms at increment threshold. J. Physiol. (Lond.) 124, 400–408 (1954).
Brindley, G. S.: The discrimination of after-images. J. Physiol. (Lond.) 147, 194–203 (1959).
Brindley, G. S., Du Croz, J. J., Rushton, W. A. H.: The flicker fusion frequency of the blue-sensitive mechanism of colour vision. J. Physiol. (Lond.) 183, 497–500 (1966).
Campbell, F. W., Gregory, A. H.: Effect of pupil size on acuity. Nature (Lond.) 187, 1121–1123 (1960).
Campbell, F. W., Gubisch, R. W.: Optical quality of the human eye. J. Physiol. (Lond.) 186, 558–578 (1966).
Campbell, F. W., Rushton, W. A. H.: Measurement of the scotopic pigment in the living human eye. J. Physiol. (Lond.) 130, 131–147 (1955).
Carr, R. E., Ripps, H.: Rhodopsin kinetics and rod adaptation in Oguchi’s disease. Invest. Ophthal. 6, 426–436 (1967).
Carr, R. E., Ripps, H., Siegel, I. M., Weale, R. A.: Rhodopsin and the electrical activity of the retina in congenital night blindness. Invest. Ophthal. 5, 497–507 (1966a).
Carr, R. E., Ripps, H., Siegel, I. M., Weale, R. A.: Visual functions in congenital night-blindness. Invest. Ophthal. 5, 508–514 (1966b).
Clark Jones, R.: Quantum efficiency of human vision. J. opt. Soc. Amer. 49, 645–653 (1959).
Cohen, A. I.: New evidence supporting the linkage to extracellular space of the outer segment saccules of frog cones but not rods. J. cell Biol. 37, 424–444 (1968).
Cone, R. A.: The rat electroretinogram I: contrasting effects of adaptation on the amplitude and latency of the b-wave. J. gen. Physiol. 47, 1089–1105 (1964).
Craik, K. J. W.: The effect of adaptation on differential brightness discrimination. J. Physiol. (Lond.) 92, 406–421 (1938).
Craik, K. J. W., Vernon, M. D.: The nature of dark adaptation. Brit. J. Psychol. 32, 64–81 (1941).
Crawford, B. H.: The change of visual sensitivity with time. Proc. roy. Soc. (Lond.) B 123, 69–89 (1937).
Crawford, B. H.: The effect of field size and pattern on the change of visual sensitivity with time. Proc. roy. Soc. (Lond.) B 129, 94–106 (1940).
Crawford, B. H.: Photochemical laws and visual phenomena. Proc. roy. Soc. (Lond.) B 133, 63–75 (1946).
Crawford, B. H.: Visual adaptation in relation to brief conditioning stimuli. Proc. roy. Soc. (Lond.) B 134, 283–302 (1947).
Daitch, J. M., Green, D. G.: Contrast sensitivity of the human peripheral retina. Vision Res. 9, 947–952 (1969).
De Vries, Hl.: The quantum character of light and its bearing upon the threshold of vision, the differential sensitivity and acuity of the eye. Physica 10, 553–564 (1943).
Donner, K. O., Reuter, T.: The dark adaptation of single units in the frog’s retina and its relation to the regeneration of rhodopsin. Vision Res. 5, 615–632 (1965).
Donner, K. O., Reuter, T.: Dark adaptation processes in the rhodopsin rods of the frog’s retina. Vision Res. 7, 17–62 (1967).
Dowling, J. E.: Chemistry of visual adaptation in the rat. Nature (Lond.) 188, 114–118 (1960).
Dowling, J. E.: Neural and photochemical mechanisms of visual adaptation in the rat. J. gen. Physiol. 46, 1287–1301 (1963).
Dowling, J. E.: The site of visual adaptation. Science 155, 273–279 (1967).
Dowling, J. E., Hubbard, R.: Effects of brilliant flashes on light and dark adaptation. Nature (Lond.) 199, 972–975 (1963).
DuCroz, J. J., Rushton, W. A. H.: The separation of cone mechanisms in dark adaptation. J. Physiol. (Lond.) 183, 481–496 (1966).
Ernst, W.: The dependence of critical flicker frequency and the rod threshold on the state of adaptation of the eye. Vision Res. 8, 889–900 (1968).
Frank, R. N., Dowling, J. E.: Rhodopsin photoproducts: Effects on electroretinogram sensitivity in isolated perfused rat retina. Science 161, 487–489 (1968).
Fuortes, M. G. F., Gunkel, R. D., Rushton, W. A. H.: Increment thresholds in a subject deficient in cone vision. J. Physiol. (Lond.) 156, 179–192 (1961).
Green, D. G.: Sinusoidal flicker characteristics of the colour sensitive mechanisms of the eye. Vision Res. 9, 591–601 (1969).
Hagins, W. A.: The quantum efficiency of bleaching of rhodopsin in situ. J. Physiol. (Lond.) 129, 22P–23P (1955).
Haig, C.: The course of rod dark adaptation as influenced by the intensity and duration of preadaptation to light. J. gen. Physiol. 24, 735–751 (1941).
Hecht, S.: The nature of the sensitivity of animals to light. J. opt. Soc. Amer. 18, 264–286 (1929).
Hecht, S.: Rods, cones, and the chemical basis of vision. Physiol. Rev. 17, 239–290 (1937).
Hecht, S., Haig, C., Chase, A. M.: The influence of light-adaptation on subsequent dark adaptation of the eye. J. gen. Physiol. 20, 831–850 (1937).
Hough, E. A., Ruddock, K. H.: The Purkinje Shift. Vision Res. 9, 313–315 (1969).
Kelly, D. H.: Diffusion model of linear flicker repsonses. J. opt. Soc. Amer. 59, 1665–1670 (1969).
Lythgoe, R. J.: The mechanism of dark adaptation. Brit. J. Ophthal. 24, 21–43 (1940).
Maffei, L., Poppele, R. E.: Transient and steady state electroretinal responses. Vision Res. 8, 229–246 (1968).
Mckee, S. P., Westheimer, G.: Specificity of cone mechanisms in lateral interaction. J. Physiol. (Lond.) 206, 117–128 (1970).
Naka, K. I., Rushton, W. A. H.: S-potential and dark-adaptation in fish. J. Physiol. (Lond.) 194, 259–269 (1968).
Parinaud, H.: La Vision. Paris: Octave Doin 1898.
Penn, R. D., Hagins, W. A.: Signal transmission along retinal rods and the origin of the electroretinographic a-wave. Nature (Lond.) 223, 201–205 (1969).
Pirenne, M. H.: Visual functions in man. In: The Eye, Vol. 2, Ch. 1–11, pp. 3–218. Davson, H. (Ed.) New York-London: Academic Press 1962.
Rose, A.: The relative sensitivities of television pick-up tubes, photographic film, and the human eye. Proc. Inst. Rad. Eng. 30, 293–300 (1942).
Rose, A.: The sensitivity performance of the human eye on an absolute scale. J. opt. Soc. Amer. 38, 196–208 (1948).
Rushton, W. A. H.: The difference spectrum and the photosensitivity of rhodopsin in the living human eye. J. Physiol. (Lond.) 134, 11–29 (1956).
Rushton, W. A. H.: Physical measurement of cone pigments in the living human eye. Nature (Lond.) 179, 571–573 (1957).
Rushton, W. A. H.: Dark-adaptation and the regeneration of rhodopsin. J. Physiol. (Lond.) 156, 166–178 (1961a).
Rushton, W. A. H.: Rhodopsin measurement and dark-adaptation in a subject deficient in cone vision. J. Physiol. (Lond.) 156, 193–205 (1961b).
Rushton, W. A. H.: Cone pigment kinetics in the protanope. J. Physiol. (Lond.) 168, 374–388 (1963).
Rushton, W. A. H.: Flash photolysis in human cones. Photochem. and Photobiol. 3, 561–577 (1964).
Rushton, W. A. H.: Cone pigment kinetics in the deuteranope. J. Physiol. (Lond.) 176, 38–45 (1965a).
Rushton, W. A. H.: Bleached rhodopsin and visual adaptation. J. Physiol. (Lond.) 181, 645–655 (1965b).
Rushton, W. A. H.: The Ferrier Lecture, 1962. Visual Adaptation. Proc. roy. Soc. (Lond.) B 162, 20–46 (1965c).
Rushton, W. A. H.: Rod/cone rivalry in pigment regeneration. J. Physiol. (Lond.) 198, 219–236 (1968).
Rushton, W. A. H., Baker, H. D.: Effect of a very bright flash on cone vision and cone pigments in man. Nature (Lond.) 200, 421–423 (1963).
Rushton, W. A. H., Campbell, F. W., Hagins, W. A., Brindley, G. S.: The bleaching and regeneration of rhodopsin in the living eye of the albino rabbit and of man. Optica Acta 1, 183–190 (1955).
Rushton, W. A. H., Fulton, A. B., Baker, H. D.: Dark adaptation and the rate of pigment regeneration. Vision Res. 9, 1473–1480 (1969).
Rushton, W. A. H., Henry, G. H.: Bleaching and regeneration of cone pigments in man. Vision Res. 8, 617–632 (1968).
Rushton, W. A. H., Westheimer, G.: The effect upon the rod threshold of bleaching neighbouring rods. J. Physiol. (Lond.) 164, 318–329 (1962).
Schultze, M.: Zur Anatomie und Physiologie der Retina. Arch. mikr. Anat. 2, 175–286 (1866).
Stark, L.: Neurological Control Systems. New York: Plenum Press 1968.
Steinberg, R. H.: The rod after-effect in S-potentials from the cat retina. Vision Res. 9, 1345–1356 (1969).
Stiles, W. A.: Color vision: The approach through increment-threshold sensitivity. Proc. nat. Acad. Sci. (Wash.) 45, 100–114 (1954).
Stiles, W. S.: The directional sensitivity of the retina and the spectral sensitivities of the rods and cones. Proc. roy. Soc. (Lond.) B 127, 64–105 (1939).
Stiles, W. S., Crawford, B. H.: Equivalent adaptation levels in localized retinal areas. In: Report of a Joint Discussion on Vision, pp. 194–211. Physical Society of London: Cambridge: University Press 1932.
Stiles, W. S., Crawford, B. H.: The luminous efficiency of rays entering the eye pupil at different points. Proc. roy. Soc. (Lond.) B 112, 428–450 (1933).
Tansley, K., Johnson, B. K.: The cones of the grass snake’s eye. Nature (Lond.) 178, 1285–1286 (1956).
Teller, D. Y., Andrews, D. P., Barlow, H. B.: Local adaptation in stabilized vision. Vision Res. 6, 701–705 (1966).
Toyoda, J. I., Nosaki, H., Tomita, T.: Light induced resistance changes in single photoreceptors of Necturus and Gekko. Vision Res. 9, 453–463 (1969).
Von Kries, J.: Über die Funktion der Netzhautstäbchen. Z. Psychol. Physiol. Sinnesorg. 9, 81–123 (1896).
Wald, G.: Blue-blindness in the normal fovea. J. opt. Soc. Amer. 57, 1289–1301 (1967).
Walls, G. L.: The Vertebrate Eye and its Adaptive Radiation. Cranbrook Institute of Science, Bloomfield Hills, Michigan 1942. (Republished, Hafner, N. Y. 1963).
Weinstein, G. W., Hobson, R. R., Dowling, J. E.: Light and dark adaptation in the isolated rat retina, Nature (Lond.) 215, 134–138 (1967).
Werblin, F. W., Dowling, J. E.: Organization of the retina of the mud puppy, Necturusmaculosus. II. Intracellular recording. J. Neurophysiol. 32, 339–355 (1969).
Westheimer, G.: Visual acuity. Ann. Rev. Psychol. 16, 359–380 (1965a).
Westheimer, G.: Spatial interaction in the human retina during scotopic vision. J. Physiol. (Lond.) 181, 881–894 (1965b).
Westheimer, G.: Spatial interaction in human cone vision. J. Physiol. (Lond.) 190, 139–154 (1967).
Westheimer, G.: Bleached rhodopsin and retinal interaction. J. Physiol. (Lond.) 195, 97–106 (1968).
Westheimer, G.: Rod-cone independence for sensitizing interaction in the human retina. J. Physiol. (Lond.) 206, 109–116 (1970).
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Barlow, H.B. (1972). Dark and Light Adaptation: Psychophysics. In: Jameson, D., Hurvich, L.M. (eds) Visual Psychophysics. Handbook of Sensory Physiology, vol 7 / 4. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-88658-4_1
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