Dietary fish oil replacement with lard and soybean oil affects triacylglycerol and phospholipid muscle and liver docosahexaenoic acid content but not in the brain and eyes of surubim juveniles Pseudoplatystoma sp.

Noffs, Maximiliano D´Addio; Martino, Ricardo C.; Trugo, L.C.; Urbinati, Elisabeth Criscuolo; Fernandes, João Batista Kochenborger; Takahashi, Leonardo Susumu

doi:10.1007/s10695-008-9264-8

Cited by 21 publications

(12 citation statements)

References 44 publications

(42 reference statements)

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“…Other studies have reported that fillet and liver tissues are more directly influenced by fatty acid intake than brain, eye, and similar tissues in which the conservation of fatty acid profile is essential for maintaining structural or physiological competence (Noffs et al 2009;Gause and Trushenski 2013;Trushenski et al 2013a;Woitel et al 2014). Fatty acid deficiencies have been linked to impaired vision in fish (Bell et al 1995).…”

Section: Discussionmentioning

confidence: 99%

More Judicious Use of Fish Oil in Cobia Feeds: II. Effects of Graded Fish Oil Sparing and Finishing

et al. 2014

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Replacement of long‐chain (LC) polyunsaturated fatty acid (PUFA)‐rich fish oil with alternative lipids in aquafeeds typically reduces the LC‐PUFA content and associated nutritional value of farmed fish even if production performance is unaffected. Finishing can be used to augment tissue LC‐PUFA levels prior to harvest; however, the effectiveness of this strategy for use with the Cobia Rachycentron canadum is relatively unknown. For 8 weeks, Cobias (initial weight [mean ± SE] = 59.8 ± 0.2 g) were fed diets in which the supplemental lipid consisted of 100% fish oil; 100% beef tallow; a blend of 33% beef tallow and 67% fish oil; or a blend of 67% beef tallow and 33% fish oil. After the 8‐week grow‐out period, all treatment groups received the 100% fish oil feed for 6 weeks to simulate finishing. Differences in production performance were observed, but growth and growth efficiency were not reduced by inclusion of beef tallow in the grow‐out feeds. Prior to the finishing period, fatty acid profiles of fillet, liver, eye, and brain tissues varied considerably among treatments. As finishing progressed, tissue profiles converged on the profiles of fish that were fed the 100% fish oil diet exclusively. Specifically, saturated fatty acids (SFAs) and monounsaturated fatty acids (MUFAs) declined, whereas LC‐PUFA levels varied relatively little during the trial. Results indicate that SFA‐ and MUFA‐rich alternative lipids like beef tallow minimize LC‐PUFA loss during grow‐out and that finishing feeds can be used to modify Cobia tissue profiles prior to harvest.

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Section: Discussionmentioning

confidence: 99%

More Judicious Use of Fish Oil in Cobia Feeds: II. Effects of Graded Fish Oil Sparing and Finishing

et al. 2014

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“…The limited amount of work performed to date has suggested that dietary DHA and EPA had different efficiency in influencing bio‐functions of fish such as vision (Navarro, McEvoy, Bell, Amat, Hontoria & Sargent ; Noffs et al . ), pigmentation (Villalta et al . ; Vizcaíno‐Ochoa et al .…”

Section: Introductionmentioning

confidence: 99%

“…However, its importance was relatively neglected compared to the total amount of n-3 LC-PUFAs (Sargent, Bell, Mcevoy, Tocher & Estevez 1999;Kim, Lee, Park, Bai & Lee 2002;Lee, Lee & Kim 2003;Skalli & Robin 2004;Hamre & Harboe 2008;Wilson 2009;Lund & Steenfeldt 2011;ØStbye, Kjaer, Rør a, Torstensen & Ruyter 2011;Zuo, Ai, Mai, Xu, Wang, Xu, Liufu & Zhang 2012b). The limited amount of work performed to date has suggested that dietary DHA and EPA had different efficiency in influencing bio-functions of fish such as vision (Navarro, McEvoy, Bell, Amat, Hontoria & Sargent 1997;Noffs et al 2009), pigmentation (Villalta et al 2008;Vizca ıno-Ochoa et al 2010) and reproduction (Mazorra, Bruce, Bell, Davie, Alorend, Jordan, Rees, Papanikos, Porter & Bromage 2003), whereas little information was available regarding the difference between DHA and EPA in modulation of fish health such as immunity and stress resistance (Wu, Ting & Chen 2003;Zuo, Ai, Mai, Xu, Wang, Xu, Liufu & Zhang 2012a). Most comparison studies on immunomodulatory activities of fatty acids focused on the n-3/n-6 ratio (Chow, Sisfontes, Bj€ orkhem & Jondal 1989;Bell, Ashton, Secombes, Weitzel, Dick & Sargent 1996;Thompson, Tatner & Henderson 1996;Farndale, Bell, Bruce, Bromage, Oyen, Zanuy & Sargent 1999;Lauridsen, Stagsted & Jensen 2007;Berge, Witten, Baeverfjord, Vegusdal, Wadsworth & Ruyter 2009), and the previous studies on fatty acids were primarily conducted in larvae, which were not appropriate targets for immunity study.…”

Section: Introductionmentioning

confidence: 99%

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)

Wang

Mai

et al. 2014

Aquac Res

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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.

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“…Also in a Pseudoplatystoma sp. , growth performance was unaffected in fish fed with fish oil, lard, soya bean or a blend of these three lipid sources (Noffs et al, ). In P. fasciatum, growth performance was also unaffected by using cod liver oil, esters of linoleic and linolenic acids, or a blend of olive oil and linseed oil; however, the performance was improved by using soy–lecithin as lipid source (Arslan et al, ).…”

Section: Discussionmentioning

confidence: 99%

“…For instance, no difference in growth performance was observed in P. coruscans fed diets including lard, corn oil, soya bean oil or linseed oil as the unique lipid sources (Martino et al, 2002b). Also in a Pseudoplatystoma sp., growth performance was unaffected in fish fed with fish oil, lard, soya bean or a blend of these three lipid sources (Noffs et al, 2009). In P. fasciatum, growth performance was also unaffected by using cod liver oil, esters of linoleic and linolenic acids, or a blend of olive oil and linseed oil; however, the performance was improved by using soylecithin as lipid source (Arslan et al, 2008).…”

Section: Discussionmentioning

confidence: 99%

Dietary lipid level and source affect metabolic responses in hybrid catfish (Pseudoplatystoma reticulatum × Leiarius marmoratus)

et al. 2020

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This study was undertaken to evaluate the effect of dietary lipid source [linseed oil (LO, rich in 18:3 n−3); corn oil (CO, rich in 18:2 n−6); olive oil (OO, rich in 18:1n−9); and fish oil (FO, rich in LC‐PUFA)] and level (9% L and 18% L) on growth, body composition and selected plasma biochemistry parameters in hybrid catfish (Pseudoplatystoma reticulatum × Leiarius marmoratus) juveniles. Moreover, liver histology (lipids, glycogen, cell vacuolization) and key metabolic enzyme activities were also evaluated. After 8 weeks of feeding, there were no differences in growth performance and whole‐body composition between groups. Plasma lipoprotein, muscle and liver composition, and G6PD and ME activity were affected by lipid level and source. No differences were observed between groups in hepatic ALT activity; however, AST activity was lower in fish fed the 9% L diets. Overall, liver and muscle fatty acid composition reflected that of diet FA composition, with increased n3/n6 ratio, high HUFA and low MUFA in fish fed FO compared with the VO diets. Higher liver glycogen content was observed in fish fed the 18% L than the 9% L diets, except for fish fed FO diet. Considering the experimental diets used, these results indicate that hybrid catfish can efficiently utilize VO supplementation as an energy source, without affecting growth performance and fillet composition.

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Dietary fish oil replacement with lard and soybean oil affects triacylglycerol and phospholipid muscle and liver docosahexaenoic acid content but not in the brain and eyes of surubim juveniles Pseudoplatystoma sp.

Cited by 21 publications

References 44 publications

More Judicious Use of Fish Oil in Cobia Feeds: II. Effects of Graded Fish Oil Sparing and Finishing

More Judicious Use of Fish Oil in Cobia Feeds: II. Effects of Graded Fish Oil Sparing and Finishing

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)

Dietary lipid level and source affect metabolic responses in hybrid catfish (Pseudoplatystoma reticulatum × Leiarius marmoratus)

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