EYE DEVELOPMENT IN ATLANTIC HALIBUT (HIPPOGLOSSUS-HIPPOGLOSSUS) - DIFFERENTIATION AND DEVELOPMENT OF THE RETINA FROM EARLY YOLK-SAC STAGES THROUGH METAMORPHOSIS
Am. Kvenseth et al., EYE DEVELOPMENT IN ATLANTIC HALIBUT (HIPPOGLOSSUS-HIPPOGLOSSUS) - DIFFERENTIATION AND DEVELOPMENT OF THE RETINA FROM EARLY YOLK-SAC STAGES THROUGH METAMORPHOSIS, Canadian journal of fisheries and aquatic sciences, 53(11), 1996, pp. 2524-2532
The eye and retina in Atlantic halibut (Hippoglossus hippoglossus), fr
om early yolk soc stages through metamorphosis, were examined after di
ssection by light microscope, and, for selected stages, by transmissio
n electron microscope. At hatching the eyes were transparent and the r
etina undifferentiated. The retina differentiated slowly in sectors, a
nd appeared functional around 150 degree-days (d degrees) posthatching
(about 50% yolk absorption). This timing coincided with the developme
nt of functionality in other organs and observations of ability to fee
d. At the commercial time of first feeding (about 210 d degrees or 70%
yolk absorption) the eyes were fully pigmented. Eye migration started
at approximately 80 days posthatching, concurrent with the reorganiza
tion of the cones in the outer retina from single rows into a square-t
ype cone mosaic. At 130 days, when metamorphosis was complete, the ret
ina contained groups of rods and appeared to be mature, but until this
stage, cones were the primary photoreceptor. The formation of a cone
mosaic, recruitment of rods, and increasing size of the eye all indica
ted increased visual sensitivity at the time of settling. The results
suggest that in culture, larvae can see to feed after 150 d degrees, a
nd at settling, they can be successfully fed under dim light.