1. Bantseev V., Moran K.L., Dixon D.G., Trevithick J.R. and Sivak J.G. 2004. Optical properties, mitochondria, and sutures of lenses of fishes: A comparative study of nine species. Canadian Journal of Zoology, 82(1): 86-93. 2. Carton A.G. and Vaughan M.R. 2010. Behavioural and anatomical measures of visual acuity in first-feeding Yellowtail Kingfish (Seriola lalandi) larvae. Environmental Biology of Fishes, 89(1): 3–10. 3. Cucchi P., Sucre E., Santos R., Leclere J., Charmantier G., Castille R. 2012. Embryonic development of the sea bass Dicentrarchus labrax. Helgoland Marine Research, 66(2): 199–209. 4. Dahm R., Schonthaler H.B., Soehn A.S., van Marle J. and Vrensen G.F.J.M. 2007. Development and adult morphology of the eye lens in the zebrafish. Experimental Eye Research, 85: 74-89. 5. Darwish S.T., Mohalal M.E., Helal M.M. and El-Sayyad H.I.H. 2015. Structural and functional analysis of ocular regions of five marine teleost fishes (Hippocampus hippocampus, Sardina pilchardus, Gobius niger, Mullus barbatus & Solea solea). egyptian journal of basic and applied sciences, 2: 159-166. 6. Hunt D.E., Rawlinson N.J.F., Thomas G.A., Cobcroft J.M.. 2015. Investigating photoreceptor densities, potential visual acuity, and cone mosaics of shallow water, temperate fish species. Vision Research, 111: 13–21. 7. Hussianzadeh Z., Shabanipoor N., Jorjani E., Golzarianpoor K., Bouzarpoor S. 2015. Structure and arrangement of photoreceptors in the retina of
Clupeidae (Alosa braschnikowi). Physiology and Aquatic Biotechnology, 2(4): 83-99. (In Persian). 8. Iwamatsu T. 2004. Stages of normal development in the medaka Oryzias latipes, Review. Mechanisms of Development, 121(7-8): 605–618. 9. Kawamura G. and Washiyama N. 1989. Ontogenetic changes in behavior and sense organ morphogenesis in largemouth bass and Tilapia nilotica. Transactions of the American Fisheries Society, 118(2):203–213. 10. Kawamura G., Bagarinao T., Justin J., Chen C.Y. and Lim L.S. 2016. Early appearance of the retinal tapetum, cones, and rods in the larvae of the African catfish Clarias gariepinus. Ichthyological Research, 63(4): 536–539. 11. Khalili H., Shabanipour N. and Pournajafizadeh F. 2014. Structure and arrangement of photoreceptors in the retina of big eye kilka, Clupeonella grimmi (Kessler 1877). Caspian Journal of Environmental Sciences, 12(1): 53-62. 12. Khorshidsedehi S., Shabanipoor N. 2019. The survey of cellular sequence of the retina structure of the Acipenser stellatus. Journal of Animal Research, in Press. (In Persian). 13. Kimmel C.B., Ballard W.W., Kimmel S.R., Ullmann B. and Schilling T.F. 1995. Stages of Embryonic Development of the Zebrafish. Developmental Dynamics, 203:253–310. 14. Kitambi S.S. and Malicki J.J. 2008. Spatiotemporal Features of Neurogenesis in the Retina of Medaka, Oryzias latipes. Developmental Dynamics, 237: 3870–3881. 15. Kunz Y.W. 2004. Development of the eye. In: Developmental Biology of Teleost Fishes. Fish and Fisheries Series, vol 28. Springer, 16. Miller T.J., Crowder L.B. and Rice J.A. 1993. Ontogenetic changes in behavioural and histological measures of visual acuity in three species of fish. Environmental Biology of Fishes, 37: 1–8. 17. Patimar R., Ezzati M. and Sarli J. 2010. Life-history aspects of caspian shemaya Alburnus chalcoides in two South Caspian rivers (Siahroud and Gorganroud). Turkish Journal of Fisheries and Aquatic Sciences, 10: 277–285. 18. Schmitt E.A. and Dbwling J.E. 1994. Early Eye Morphogenesis in the Zebrafish, Brachydanio rerio. The Journal of Comparative Neurology, 344: 532–542. 19. Shabanipoor N., Khorshidsedehi S. 2017. The survey of cellular sequence of the retina structure of the Beluga Sturgeon eye (Huso huso). Journal of Animal Research, 29(4): 435-441. (In Persian). 20. Shadrina A.M. and Pavlov D.S. 2015. Embryonic and Larval Development of the Asian Seabass Lates calcarifer (Pisces: Perciformes: Latidae) under Thermostatically Controlled Conditions. Biology Bulletin, 42(4): 334–346. 21. Shand J., Doving K.B., Collin S.P. 1999. Optics of the developing fish eye: comparisons of Matthiessen’s ratio and the focal length of the lens in the black bream Acanthopagrus butcheri (Sparidae, Teleostei). Vision Research, 39: 1071–1078. 22. Thepot V. and Jerry D.R. 2015. The effect of temperature on the embryonic development of barramundi, the Australian strain of Lates calcarifer (Bloch) using current hatchery practices Aquaculture Reports, 2: 132–138. 23. Wanga F.Y., Tang M.Y., Yan H.Y.2011. A comparative study on the visual adaptations of four species of moray eel. Vision Research, 51(9): 1099-1108. 24. Yahaya S., Lim L.S., Shaleh S.R.M., Mukai Y., Anraku K. and Kawamura G. 2011. Ontogenetic eye development and related behavioural changes in larvae and juveniles of barramundi Lates calcarifer (Bloch). Marine and Freshwater Behaviour and Physiology, 44(6): 339-348. 25. Zaunreiter M., Junger H. and Koixschal K. 1991. Retinal Morphology of Cyprinid Fishes: A Quantitative Histological Study of Ontogenetic Changes and Interspecific Variation. Vision Research, 31(3): 383–394.
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