Abstract
Euryhaline tilapia (Oreochromis mossambicus) can breed either in fresh water (FW) or in seawater, and the developing embryos and larvae withstand direct transfer from FW to SW or vice versa, before the development of osmoregulatory organs. In the study, developmental changes in drinking rate and ion and water permeability were examined after transfer of the embryos from FW to SW. Drinking was measured by accumulation of fluorescent beads in the intestine and also by 14C-dextran accumulation he whole body. The drinking rate increased steadily from 2 to 10 days after hatching, and the larvae in SW consistently imbibed more water than those in FW. The diffusional water permeability remained low during embryonic stages but increased markedly after hatching in both FW and SW; the water permeability was consistently less in SW-adapted embryos and larvae than those in FW. In contrast, the turnover rates of chloride ion in SW were 50 to 100 times greater than those in FW, and increased markedly after hatching. The drinking rate as well as ion and water permeability of the tilapia embryos and larvae in FW and SW were comparable with those reported for stenohaline species. These results clearly indicate that different water and ion regulatory mechanisms are operating in the tilapia embryos and larvae in FW and those in SW to convey their strong euryhalinity.
Published Version
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