Abstract
We measured the visual sensitivity of the conger eel retina by means of its electroretinogram (e.r.g.) and whole nerve responses. The spectral sensitivity of the retina closely corresponded to a prediction based on the
density
spectrum of the conger visual pigment, measured
in situ
. The pigment density in the conger eel retina is high, perhaps as high as 1.0. Thus, the predicted spectral sensitivity would be much broader than is observed if the
absorption
spectrum of the pigment governed the visual sensitivity. The reason why the visual spectral sensitivity corresponds to the density spectrum and not to the absorption spectrum is that the photoreceptors in the conger eye are arranged in tiers and only the inner tier contributes to vision.
Reference15 articles.
1. D artn a Il H . J . A. 1962 V isual p igm ents in photoreceptors. In eye (ed. H . D avson) pp. 473-533. N ew Y o rk : A cadem ic P ress.
2. T he co n trib u tio n s of th e o rie n tated photosensitive an d o th er m olecules to th e ab so rp tio n of whole retin a. Proc. R;Soc. Lond. B,1959
3. The visual pigment of the conger eel
4. D enton E . J . & W arren F . J . 1957 The p hotosensitive pigm ents in th e retina© of deep sea fish. J . mar. biol. A ss.U. K. 36 651-662.
5. De Valois R . L. & D e Valois K . K . 1975 N eural coding of color. In Handbook of perception (ed. E . C. C a rte re tte & M. P . F ried m an ) vol. 5 pp. 117-166. New Y ork: Academ ic Press.
Cited by
22 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献