Abstract
The endemic cottoid fish of Lake Baikal in Eastern Siberia offer a singular opportunity for examining within a number of closely related species, the relationships of visual pigments, photoreceptor complements and depth within a deep freshwater environment. The lake, the deepest (1600 m) and one of the largest and most ancient in the world, is unique in that the oxygen levels at the bottom are only reduced to about 80% of the surface levels. We have studied, by light microscopy, microspectrophotometry and visual pigment extraction, the retinas from 17 species of Baikal cottoids that live at different depths within the lake. Generally the retinas contain, in addition to rods, large green-sensitive double cones and small blue-sensitive single cones: surprisingly for freshwater fish, the visual pigments are based on Vitamin A 1 The λ max of both rods and cones are displaced to shorter wavelengths with increasing depth. Surface species have cones with λ max at about 546,525 and 450 nm and rods at 523 nm, deeper living species retain cones, but with λ max shifting towards 500 and 425 nm and with rods at 480 nm, whereas the deepest living fish possess only rods (λ max, 480–500 nm). These data clearly show a correlation between photoreceptor complement, visual pigment λ max, and depth, but question the hypothesis that there is a correlation of pigment (λ max with water colour since, in contrast to oceanic waters, the maximum transmission of Baikal water is between 550 and 600 nm.
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