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7056388 
Journal Article 
Dietary docosahexaenoic acid to eicosapentaenoic acid (DHA/EPA) ratio influenced growth performance, immune response, stress resistance and tissue fatty acid composition of juvenile Japanese seabass, Lateolabrax japonicus (Cuvier) 
Xu, H; Wang, Jun; Mai, K; Xu, Wei; Zhang, W; Zhang, Y; Ai, Q; , 
2016 
Yes 
Aquaculture Research
ISSN: 1355-557X
EISSN: 1365-2109 
WILEY 
HOBOKEN 
741-757 
WOS:000369162300007 
A 10-week feeding experiment was conducted to investigate the effects of dietary DHA/EPA ratio on juvenile Japanese seabass reared in sea floating cages. Six practical diets were formulated differing only in DHA/EPA ratio: 0.55 (Diet D/E0.55), 1.04 (D/E1.04), 1.53 (D/E1.53), 2.08 (D/E2.08), 2.44 (D/E2.44) and 2.93 (D/E2.93). All diets had the same contents of total n-3 long-chain polyunsaturated fatty acid (LC-PUFA) and arachidonic acid (ARA). The results showed that the final weight and specific growth rate significantly increased with increasing dietary DHA/EPA ratio from 0.55 to 2.08 and thereafter declined. Activities of lysozyme and superoxide dismutase in serum in groups with DHA/EPA of 1.53-2.93 was significantly higher compared to group D/E0.55 while the activity of serum alternative complement pathway in group D/E2.93 was significantly lower compared with group D/E1.53. However, no difference was observed in activities of both respiratory burst of head kidney macrophage and serum catalase among dietary treatments. The per cent survival after air exposure in group D/E1.53, D/E2.08 and D/E2.93 was significantly higher compared with group D/E0.55. The fatty acid composition of whole body and tissues reflected closely those of diets, while fish accumulated more DHA than EPA in fish tissues, especially in muscle. These results suggested that at the same dietary contents of n-3 LC-PUFA (appr. 18% of TFA) and ARA (appr. 0.7% of TFA), moderate dietary DHA/EPA ratios of 1.53-2.08 significantly enhanced growth performances, certain innate immune responses, and the stress tolerance of Japanese seabass, in accordance with the preferential incorporation of DHA into fish tissues.