Ontogenic changes in tolerance to hypoxia and energy metabolism of larval and juvenile Japanese flounder Paralichthys olivaceus

Changes in tolerances to hypoxia and sodium azide, an indicator of cellular respiration, and activities of various energy metabolism-related chemical components were studied in Japanese flounder Paralichthys olivaceus during its early life stages from 3.5 to 20.5 mm in total length (TL). They showed flexion stage around 10.4 mm TL. Lethal levels of hypoxia increased with growth from 3.5 to 8 mm total TL, and the levels remained high in larvae, until 10.4 mm TL, decreased significantly thereafter. The 50% lethal concentration of sodium azide temporarily increased at 4.5 mm TL, diminished drastically between 4.5 and 10.4 mm TL, and then increased again in post-flexion larvae. Cytochrome c oxidase activity was highest in larvae around flexion, at 10.4 mm TL, and subsequently decreased. In post-flexion larvae at 13.0 mm TL, lactate dehydrogenase (LDH) and creatine kinase activities increased; LDH activity decreased at the juvenile stage. The adenosine triphosphate content and energy charge in fish were consistently higher in the larval stage than in the juvenile stage. These results indicated that, from just before flexion to the post-flexion stage, the energy metabolism of larvae is higher due to activated aerobic and subsequent anaerobic metabolism for metamorphosis; as a consequence, hypoxia tolerance in fish is the lowest during the increase of aerobic metabolism just before and around flexion.