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J.C. Armington & W.R. Biersdorf (1958). Long-term light adaptation of the human electroretinogram. Journal of Comparative and Physiological Psychology 51, 1–5.
W.R. Biersdorf & J.C. Armington (1960). Level of light adaptation and the human electroretinogram. Journal of the Optical Society of America 50, 78–82.
H.M. Burian (1954). Electric responses of the human visual system. Archives of Ophthalmology 51, 509–524.
S.J. Daly & R.A. Normann (1985). Temporal information processing in cones: Effects of light adaptation on temporal summation and modulation. Vision Research 25, 1197–1206.
A. Eisner (1989). Losses of foveal flicker sensitivity during dark adaptation following extended bleaches. Vision Research 29, 1401–1423.
R. Granit (1938). Processes of adaptation in the vertebrate retina in the light of recent photochemical and electrophysiological research. Documenta Ophthalmologica 1, 7–77.
R. Granit & L.A. Riddell (1934). The electrical responses of light and dark-adapted frogs' eyes to rhythmic and continuous stimuli. Journal of Physiology 81, 1–28.
D.C. Hood (1972 a). Adaptational changes in the cone system of the isolated frog retina. Vision Research 12, 875–888.
D.C. Hood (1972 b). Suppression of the frog's cone system in the dark. Vision Research 12, 889–907.
R.P. Malchow & S. Yazulla (1986). Separation and light adaptation of rod and cone signals in the retina of the goldfish. Vision Research 26, 1655–1666.
R.P. Malchow & S. Yazulla (1988). Light adaptation of rod and cone luminosity horizontal cells of the retina of the goldfish. Brain Research 443, 222–230.
M.F. Marmor , G.B. Arden , S.E.G. Nilsson & E. Zrenner (1989). Standard for clinical electroretinography. Archives of Ophthalmology 107, 816–819.
R.A. Normann & I. Perlman (1979 a). The effects of background illumination on the photoresponses of red and green cones. Journal of Physiology 286, 491–507.
R.A. Normann & I. Perlman (1979 b). Signal transmission from red cones to horizontal cells in the turtle retina. Journal of Physiology 286, 509–524.
R.A. Normann & I. Perlman (1990). Background and bleaching adaptation in luminosity type horizontal cells in the isolated turtle retina. Journal of Physiology 421, 321–341.
R.A. Normann & F.S. Werblin (1974). Control of retinal sensitivity. I. Light and dark adaptation of vertebrate rods and cone. Journal of General Physiology 63, 37–61.
N.S. Peachey , K.R. Alexander , D.J. Derlacki , P. Bobak & G.A. Fishman (1991 a). Effects of light adaptation on the response characteristics of human oscillatory potentials. Electroencephalography and Clinical Neurophysiology 78, 27–34.
N.S. Peachey , K.R. Alexander , G.A. Fishman & D.J. Derlacki (1989). Properties of the human cone system electroretinogram during light adaptation. Applied Optics 28, 1145–1150.
R. Shapley & C. Enroth-Cugell (1984). Visual adaptation and retinal gain controls. Progress in Retinal Research 3, 263–346.
P.O. Therman (1939). Rod and cone electroretinograms in relation to pigment migration in normal and adrenalized frogs. Journal of Cellular and Comparative Physiology 14, 253–259.
F.S. Werblin (1974). Control of retinal sensitivity. II. Lateral interactions at the outer plexiform layer. Journal of General Physiology 63, 62–87.