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Dark adaptation in the frog eye as determined by the electrical response of the retina

1937; Wiley; Volume: 9; Issue: 3 Linguagem: Inglês

10.1002/jcp.1030090315

1553-0809

Lorrin A. Riggs,

Photoreceptor and optogenetics research

Journal of Cellular and Comparative PhysiologyVolume 9, Issue 3 p. 491-510 Article Dark adaptation in the frog eye as determined by the electrical response of the retina† Lorrin A. Riggs, Lorrin A. Riggs Psychological Laboratories, Clark UniversitySearch for more papers by this author Lorrin A. Riggs, Lorrin A. Riggs Psychological Laboratories, Clark UniversitySearch for more papers by this author First published: April 1937 https://doi.org/10.1002/jcp.1030090315Citations: 40 † I wish to express my appreciation to Dr. Clarence H. Graham of Clark University under whose direction this research was conducted, and to Dr. George Wald of Harvard University who suggested the experiments in relation to his hypothesis of a visual cycle. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Literature Cited Adrian, E. D. and R., Matthews 1927 The action of light on the eye. I. Discharge of impulses in the optic nerve and its relation to the electric changes in the retina. J. Physiol., vol. 63, pp. 378– 414. Castle, E. S. 1929 Dark adaptation and the light-growth response of Phycomyces. J. Gen. Physiol., vol. 12, pp. 391– 400. Chase, A. M. 1936 Anomalies in the absorption spectrum and bleaching kinetics of visual purple. J. Gen. Physiol., vol. 19, pp. 577– 600. Crozier, W. J. and E., Wolf 1929 Dark adaptation in Agriolimax. J. Gen. Physiol., vol. 12, pp. 83– 109. Graham, C. H. 1932 The relation of nerve response and retinal potential to number of sense cells illuminated in an eye lacking lateral connections. J. Cell. and Comp. Physiol., vol. 2, pp. 295– 310. Graham, C. H., E. H., Kemp and L. A. Riggs 1935 An analysis of the electrical retinal response of a color-discriminating eye to lights of different wave-lengths. J. Gen. Psychol., vol. 13, pp. 275– 296. Graham, C. H. and L. A., Riggs 1935 The visibility curve of the white rat as determined by the electrical retinal response to lights of different wave-lengths. J. Gen. Psychol., vol. 12, pp. 279– 295. Granit, R. 1933 The components of the retinal action potential in mammals and their relation to the discharge in the optic nerve. J. Physiol., vol. 77, pp. 207– 239. Hartline, H. K. 1925 The electrical response to illumination of the eye in intact animals, including the human subject; and in decerebrate preparations. Am. J. Physiol., vol. 73, pp. 600– 612. Hartline, H. K. 1930 The dark adaptation of the eye of Limulus, as manifested by its electrical response to illumination. J. Gen. Physiol., vol. 13, pp. 379– 389. Hecht, S. 1927 The kinetics of dark adaptation. J. Gen. Physiol., vol. 10, pp. 781– 809. Hecht, S. 1934 Vision. II. The nature of the photoreceptor process. In A Handbook of General Experimental Psychology. Worcester, Mass., Clark University Press, pp. 704– 828. Hecht, S. and A. M., Chase 1934 Anomalies in the absorption spectrum of visual purple. Proc. Nat. Acad. Sci., vol. 20, p. 238. Hecht, S. and C., Haig 1936 The effect of light adaptation on dark adaptation. Proc. Am. Physiol. Soc., p. 72. Hecht, S., C., Haig and G. Wald 1936 The dark adaptation of retinal fields of different size and location. J. Gen. Physiol., vol. 19, pp. 321– 338. Johannsen, D. E. 1934 The duration and intensity of the exposure light as factors in determining the course of dark adaptation. J. Gen. Psychol., vol. 10, pp. 4– 41. Kohlrausch, A. 1922 Untersuchungen mit farbigen Schwellenprüflichtern über den Dunkeladaptationsverlauf des normalen Auges. Arch. f. d. ges. Physiol., Bd. 196, S. 113– 117. Kühne, W. 1878 Zur photochemie der Netzhaut. Untersuch. physiol. Inst., Heidelberg, Bd. 1, S. 1. Nagel, W. 1924 Adaptation, twilight vision, and the duplicity theory. Appendix to von Helmholtz, H., Treatise on Physiological Optics ( J. P. C. Southall, editor) vol. 2. Noble, G. K. 1931 The Biology of the Amphibia. New York and London: McGraw Hill. Pp. xiii + 577. Obreshkove, V. 1921 The photic reactions of tadpoles in relation to the Bunsen-Roscoe law. J. Exp. Zool., vol. 34, pp. 235– 279. Piper, H. 1903 Ueber Dunkeladaptation. Zeit. f. Psychol. u. Physiol. d. Sinnesorg., Bd. 31, S. 161– 214. Wald, G. 1936 Carotenoids and the visual cycle. J. Gen. Physiol., vol. 19, pp. 351– 371. Wald, G. 1936 Pigments of the retina. I. The bullfrog. J. Gen. Physiol., vol. 19, pp. 781– 795. Wald, G. and A., Clark 1936 Sensory adaptation and chemistry of the retinal rods. Proc. Am. Physiol. Soc., pp. 157– 158. Wolf, E. and G. Z., Wolf 1936 The dark adaptation of the eye of the honey bee. J. Gen. Physiol., vol. 19, S. 229– 238. Citing Literature Volume9, Issue3April 1937Pages 491-510 ReferencesRelatedInformation