논문 상세보기
Morphogenesis and abnormal pigmentation on blind side of cultured flounder, Paralichthys olivaceus during early development
- 언어ENG
- URLhttps://db.koreascholar.com/Article/Detail/354504
In the present study, to understand the process of abnormal pigmentation (hypermelanosis) on the blind side of olive flounder P. olivaceus during early development, we investigated an time that staining on the blind side is initially observed with the naked eyes, counted the number of stained spot on the blind, and calculated the ratio of area stained on the blind side, and the ratio of fish pigmented on the blind side with growth. The present experiment was initiated at 24-day after hatching (dah), just after the starting of metamorphosis, in which fish mean size is total length (TL) 12.4±0.2 ㎜ and body weight (BW) 19.9±0.7 ㎎, and was finalized at 94-dah (TL 72.0±0.6 ㎜, BW 3,912.3±119.4 ㎎). The experimental animals were reared in FRP tank at 20±0.5℃ in water temperature and 30.9±0.1 psu. The experimental animals were feed with rotifer, Artemia nauplii and commercial food according growth stage. As results, the pigmented spots are composed with adult-type melanophores. The first spot was found in microscopy level at 38-dah (TL 18.3±0.4 ㎜, BW 57.6±4.1 ㎎), but the first staining spot observed with the naked eye was found 52-dah (TL 37.6±0.5 ㎜, BW 534.2±30.9 ㎎) around the pectoral fin and the caudal peduncle. The pigmented spots became more distinctive and expanded around the edge of rear on the blind side. The number of spots and the ratio of area stained on the blind side sharply increased between 31-dah and 80-dah, and between 66-dah and 94-dah, respectively. The ratio of fishes stained on the blind side increased between 45-dah and 73-dah, and then was stagnated to 94-dah. Therefore, these results concluded that the pigmentation on the blind side of olive flounder is not an temporary and reversible color change but an irreversible abnormal phenomenon that pigment cells is continuously differentiated on the blind side with growth for early development just after metamorphosis in artificial culture conditions.
