Abstract
Differentiation of visual cells inBufo melanostictus begins after hatching at gill bud stage. It is indicated by emergence of cytoplasmic buds from the outer nuclear layer of the retina. Each bud contains an apically located vacuole which soon disappears from all cells. Cones and rods start differentiating simultaneously but the majority of early cells are rods. Single cones, red rods and double cones can be identified by the stage when the operculum is formed. Up to the beginning of hindlimb morphogenesis rods remain the most numerous but later single cones attain approximate numerical equality with rods and the tadpole retina becomes a truly duplex retina. Red rods of tadpoles are structurally different from those of adult. As in the accessory members of double cones a paraboloid develops in the myoid region of the inner segment of red rods also and persists throughout larval life. During metamorphosis green rods appear, cone outer segments become sharply pointed, myoid develops in the red rods replacing the paraboloid which disappears along with its glycogen but there is no change in the double cones. After metamorphosis number and size of red rods increase greatly transforming the duplex retina of the tadpole into a predominantly rod retina adapted for scoptopic vision of the nocturnal adult.
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Abbreviations
- A:
-
Accessory cone
- C:
-
single cone
- D:
-
double cone
- P:
-
principal cone
- R:
-
red rod
- V:
-
paraboloid
References
Blair W F 1976 Amphibians, their evolutionary history, taxonomy and ecological adaptations; inAmphibian visual system (ed.) K V Fite (London: Academic Press) pp 1–28
Cameron J 1905 The development of retina in Amphibia: an embryological and cytological study, III; J.Anat. Physiol. 34 471–488
Cohen A I 1972 Rods and cones; inHandbook of sensory physiology (ed.) M G F Fourtes (New York: Springer-Verlag) vol. VII/2, pp 63–110
Crescitelli F 1973 The visual pigment system ofXenopus laevis: tadpoles and adults;Vision Res.13 855–865
Donner K O and Reuter T 1962 The spectral sensitivity and photopigment of the green rods in the frog’s retina;Vision Res. 2 357–372
El-Mekkawy D A, Michael M I and Rizk T A 1984–1985 Development of eyes in the Egyptian toad,Bufo Regularis Reuss;Biol. Soc. Port. Cienc. Nat. 22 55–64
Etkin W 1968 Hormonal control of amphibian metamorphosis; inMetamorphosis, a problem in developmental biology (eds) W B Etkin and L I Gilbert (Iowa: Meredith) pp 313–348
Howard A D 1908 The visual cells in vertebrates chiefly inNecturus maculosus;J. Morphol 19 561–631
Humason G L 1972Animal tissue techniques (San Francisco: W H Freeman) pp 172
Keefe J R 1973 An analysis of urodelian retinal regeneration: II. Ultrastructural features of retinal regeneration inNotophthalmus viridescens;J. Exp. Zool. 184 207–232
Khan M S 1965 Normal Table ofBufo melanostictus (Schneider);Biologica 11 1–39
Muntz W R A 1964 The development of phototaxis and scotopic vision in frog(Rana temporaria);Vision Res.4 241–250
Niazi S 1978 Ontogeny of photomechanical movements of retinal pigment in response to light and darkness in the toadBufo melanostictus (Schneider);Indian J. Exp. Biol 16 425–429
Niazi S 1981Development of the eye with special reference to visual cells and retinomotor responses in the toad Bufo melanostictus’(Schneider), Ph.D. thesis, University of Rajasthan, Jaipur
Nilsson SEG 1964 Receptor cell outer segment development and ultrastructure of the disk members in the retina of the tadpole(Rana pipiens);J. Ultrastruct. Res. 11 581–620
Reuter T, White R H and Wald G 1971 Rhodopsin and porphyropsin fields in the adult bull frog retina;J. Gen. Physiol 58 353–371
Saxen L 1954 The development of visual cells. Embryological and physiological investigations on amphibia;Ann. Acad. Sci. Fenn. Ser. A4,23 1–93
Saxen L 1955 The glycogen inclusion of the visual cells and its hypothetical role in the photomechanical responses;Acta Anat. 25 319–330
Saxen L 1956 The initial formation and subsequent development of the double visual cells in amphibia;J. Embryol Exp. Morphol 4 57–65
Walls G L 1942The vertebrate eye and its adaptive radiation (New York: Hafner) Reprint 1967
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Niazi, S., Niazi, I.A. Development of visual cells in the toadBufo melanostictus (Schneider). Proc Ani Sci 99, 419–429 (1990). https://doi.org/10.1007/BF03186405
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DOI: https://doi.org/10.1007/BF03186405