OPTIMUM DENSITY OF Nannochloropsis sp. FOR MASS SCALE CORAL TROUT, Plectropomus leopardus (Lacepède, 1802)

Q4 Environmental Science Indonesian Aquaculture Journal Pub Date : 2021-01-10 DOI:10.15578/IAJ.15.2.2020.51-58

Y. Asih, S. Sudewi, A. Nasukha, D. Kusumawati, K. Mahardika, A. Muzaki, I. Giri

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Abstract

Coral trout, Plectropomus leopardus (Lacepede, 1802)is a visual feeder. Turbidity caused by phytoplankton or clay particle in the water will affect the visual foraging of coral trout larvae. Addition of Nannochloropsis sp. has been included in standard operational procedure for marine fish larval rearing as green water. However, the density of Nannochlorposis sp. in coral trout larval rearing system has not been evaluated. This study aimed to evaluate the optimal of Nannochloropsis sp. required for rearing of coral trout larvae. Nannochloropsis sp. was given to two days old larvae (D-2), with the densities of 2 x 105, 4 x 105, and 6 x 105cell/mL. After 50 days rearing period (D-50), evaluation on the average size and total harvest were recorded. The results showed that the density of 2 x 105 cell/mL Nannochloropsis sp. was the best in survival rate (2.35 ± 1.05%) than other densities, but they were not significantly different (P>0.05) than those of 4 x 105 cell/mL (1.67 ± 0.70%) and 6 x 105 cell/mL (1.26 ± 1.05%). The lower densities, 2 x 105 and 4 x 105cell/mL, were dominated by more than 50% of > 2.7 cm sized juvenile. Histological analysis of fish eyes supported that the two lower densities produced dominant cone shape as the receptor cells in the retina observed. From an economical aspect, addition of 2 x 105 cells/mL resulted on the higher profit, hence optimum density of Nannochloropsis sp. added in coral trout larval rearing on a mass scale was 2 x 105 cells/mL.

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大规模珊瑚鳟鱼，plectroomus leopardus (lacep， 1802)的最佳纳米绿藻密度

珊瑚鳟鱼，plectroomus leopardus (Lacepede, 1802)是一种视觉捕食者。水中浮游植物或粘土颗粒引起的浑浊会影响到鳟鱼幼虫的视觉觅食。添加纳米绿藻已被列入作为绿水养殖海鱼幼体的标准操作程序。然而，目前还没有对珊瑚鳟鱼幼虫养殖系统中纳米绿虫的密度进行评估。本研究旨在评价纳米绿藻在鳟鱼仔鱼养殖中的最佳用量。2日龄幼虫(D-2)接种纳米绿藻，浓度分别为2 × 105、4 × 105和6 × 105细胞/mL。饲养50 d (D-50)后，记录平均体型和总收获量的评价。结果表明，2 × 105细胞/mL纳米绿藻的存活率最高(2.35±1.05%)，但与4 × 105细胞/mL(1.67±0.70%)和6 × 105细胞/mL(1.26±1.05%)差异不显著(P < 0.05)。2 × 105和4 × 105细胞/mL的较低密度以> - 2.7 cm幼鱼占50%以上。鱼眼的组织学分析证实，两种较低密度的视锥细胞在视网膜中产生优势的锥体形状。从经济角度来看，添加2 × 105个细胞/mL可获得更高的利润，因此在大规模养殖鳟鱼幼虫中添加纳米绿藻的最佳密度为2 × 105个细胞/mL。

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Indonesian Aquaculture Journal Environmental Science-Water Science and Technology

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