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

Woitel, Franklin R.; Trushenski, Jesse T.; Schwarz, Michael H.; Jahncke, Michael L.

doi:10.1080/15222055.2014.893470

Cited by 18 publications

(11 citation statements)

References 52 publications

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“…Although an equivalent evaluation was not conducted in cobia, using partially or fully hydrogenated soybean oil instead of traditional soybean oil as the base lipid in DHA-supplemented feeds resulted in substantially greater tissue LC-PUFA levels [35], suggesting that it may have been unnecessary to supplement the hydrogenated soybean oil feeds to satisfy the DHA requirement of cobia. Greater fillet DHA enrichment was also observed among cobia fed blends of fish oil and SFA/MUFA-rich plant and animal-origin lipids instead of blends of fish oil and C 18 PUFA-rich soybean oil [39,40]. Following an identical experimental design to that employed herein (i.e., involving beef tallow-based feeds amended with EPA and/or DHA), it was demonstrated that reported n-3 LC-PUFA requirements of hybrid striped bass appear similarly overestimated in the context of abundant dietary SFA or MUFA [41].…”

Section: Discussionmentioning

confidence: 95%

Uncoupling EPA and DHA in Fish Nutrition: Dietary Demand is Limited in Atlantic Salmon and Effectively Met by DHA Alone

Emery

Norambuena

Trushenski

et al. 2016

Lipids

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Due to the scarcity of marine fish oil resources, the aquaculture industry is developing more efficient strategies for the utilization of dietary omega-3 long-chain polyunsaturated fatty acids (n-3 LC-PUFA). A better understanding of how fish utilize EPA and DHA, typically provided by fish oil, is needed. However, EPA and DHA have different physiological functions, may be metabolized and incorporated into tissues differently, and may vary in terms of their importance in meeting the fatty acid requirements of fish. To address these questions, Atlantic salmon were fed experimental diets containing, as the sole added dietary lipid source, fish oil (positive control), tallow (negative control), or tallow supplemented with EPA, DHA, or both fatty acids to ~50 or 100% of their respective levels in the positive control diet. Following 14 weeks of feeding, the negative control diet yielded optimum growth performance. Though surprising, these results support the notion that Atlantic salmon requirements for n-3 LC-PUFA are quite low. EPA was largely β-oxidized and inefficiently deposited in tissues, and increasing dietary levels were associated with potential negative effects on growth. Conversely, DHA was completely spared from catabolism and very efficiently deposited into flesh. EPA bioconversion to DHA was largely influenced by substrate availability, with the presence of preformed DHA having little inhibitory effect. These results clearly indicate EPA and DHA are metabolized differently by Atlantic salmon, and suggest that the n-3 LC-PUFA dietary requirements of Atlantic salmon may be lower than reported and different, if originating primarily from EPA or DHA.

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Section: Discussionmentioning

confidence: 95%

Uncoupling EPA and DHA in Fish Nutrition: Dietary Demand is Limited in Atlantic Salmon and Effectively Met by DHA Alone

Emery

Norambuena

Trushenski

et al. 2016

Lipids

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“…Rather, it is more likely that the digestibility of the 100 SFA SOY feed was somewhat reduced compared with the other feeds. Although our previous research with SFA-rich lipids has not suggested digestibility is a major limiting factor (Trushenski et al 2011a(Trushenski et al , 2011cLaporte and Trushenski 2011;Crouse et al 2013;Trushenski and Kanczuzewski 2013;Trushenski et al 2013b;Woitel et al 2014aWoitel et al , 2014b, fish may not utilize SFAs as well as other fatty acids (Hua and Bureau 2009) and growth performance may be constrained by long-term feeding with diets containing predominantly SFAs (Trushenski and Bergman 2014). It is possible that blending SFA-rich lipids with ingredients containing some level of unsaturated fatty acids may be a means of addressing digestibility limitations while still mitigating the effects of fish oil sparing on tissue composition.…”

Section: Discussionmentioning

confidence: 97%

“…It is well established that feeds reduced in or free of fish oil are typically well accepted and utilized, so long as essential fatty acid requirements are met; it is equally well established that these dietary manipulations affect the fatty acid composition of the resulting fillets, causing them to contain lower levels of beneficial LCPUFAs (Glencross and Turchini 2011;Trushenski and Bowzer 2012;Pérez-Sánchez et al 2013). Alternative lipids containing reduced levels of C 18 polyunsaturated fatty acids (C 18 PUFAs) may not affect the composition of fish tissues to the extent that C 18 PUFA-rich lipids do (Laporte and Trushenski 2011;Trushenski et al 2011aTrushenski et al , 2011bTrushenski et al , 2011cTrushenski et al , 2011dTrushenski et al , 2013aTrushenski et al , 2013bTurchini et al 2011;Ramezani-Fard et al 2012;Trushenski and Kanczuzewski 2013;Woitel et al 2014aWoitel et al , 2014bTrushenski and Bergman 2014). Of the various lipids with potential "omega-3 sparing effect[s]" , saturated fatty acid (SFA)-rich lipids appear to be the most successful in terms of preserving tissue composition (Trushenski et al 2008(Trushenski et al , 2011aTrushenski and Kanczuzewski 2013;Woitel et al 2014a); however, SFA-rich lipids may not be well digested by all taxa or under all circumstances (Hua and Bureau 2009;Kanczuzewski and Trushenski 2015;Trushenski and Bergman FATTY ACIDS IN HYBRID STRIPED BASS FEEDS 161 2014).…”

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confidence: 99%

Effects of Fish Oil Sparing on Fillet Fatty Acid Composition in Hybrid Striped Bass Are Influenced by Dietary Levels of Saturated and Unsaturated Fatty Acids

2015

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We assessed the growth performance and fillet fatty acid composition of hybrid Striped Bass (White Bass Morone chrysops × Striped Bass M. saxatilis; initial weight = 29.1 ± 0.2 g [mean ± SE]) fed diets containing only menhaden fish oil (100 FISH); fully hydrogenated saturated fatty acid (SFA)‐rich soybean oil (100 SFA SOY); 75:25, 50:50, 25:75, or 0:100 blends of fish oil and standard C18 polyunsaturated fatty acid (C18 PUFA)‐rich soybean oil (25 PUFA SOY, 50 PUFA SOY, 75 PUFA SOY, 100 PUFA SOY); or nonhydrogenated monounsaturated fatty acid (MUFA)‐rich soybean oil (25 MUFA SOY, 50 MUFA SOY, 75 MUFA SOY, 100 MUFA SOY) for 8 weeks. Feed conversion ratio varied, with the 100 SFA SOY feed yielding a significantly greater value (1.3) than the rest of the feeds (0.9–1.0). Although significant treatment effects were not observed for weight gain, specific growth rate, feed intake, or organosomatic indices, some variation was observed, suggesting some minor (albeit not significant) loss of growth performance among fish fed the 100 SFA SOY and, to a lesser extent, 100 MUFA SOY feeds. Fillets of fish fed diets containing soybean‐derived lipids had reduced levels of fish‐oil‐associated, n‐3 long‐chain polyunsaturated fatty acids (LC‐PUFAs, i.e., 20:5[n‐3] and 22:6[n‐3]) compared with those fed the 100 FISH feed. Conversely, fillets of fish fed diets containing C18 PUFA‐rich soybean oil and nonhydrogenated MUFA‐rich soybean oil had higher levels of these fatty acids (i.e., 18:2[n‐6] and 18:1[n‐9], respectively). Although the 100 SFA SOY diet contained substantially more SFAs (i.e., 18:0) than the other diets, these fatty acids were not proportionally elevated in the fillets. It is possible that blending SFA‐rich lipids with ingredients containing some level of unsaturated fatty acids may be a means of addressing digestibility limitations while still mitigating the effects of fish oil sparing on tissue composition.

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“…However, this finding may be most relevant in the context of finishing feeds used to tailor fillet fatty acid profile prior to harvest (Turchini et al., ; Trushenski & Bowzer, ; Woitel et al., ; Woitel et al. ).…”

Section: Discussionmentioning

confidence: 99%

Beef tallow is suitable as a primary lipid source in juvenile Florida pompano feeds

2017

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It is assumed that Florida pompano have dietary EPA (20:5n-3) and DHA (22:6n-3) requirements. However, it is unclear whether both are equally important in meeting demand for n-3 long-chain polyunsaturated fatty acids (LC-PUFAs) or whether the requirement(s) can be influenced by other fatty acids. Accordingly, we assessed production performance and tissue composition of juvenile Florida pompano (41.0 ± 0.5 g) fed diets containing fish oil; beef tallow; or beef tallow partially or fully supplemented with EPA, DHA or both. After 8 weeks, no signs of fatty acid deficiency were observed. Although fish performance did not vary significantly among the dietary treatments, fish fed the DHA-supplemented feeds exhibited numerically superior growth than those fed the other diets. Fillets of fish fed the beef tallow-based diets contained reduced levels of n-3 fatty acids and LC-PUFAs and elevated levels of MUFAs and n-6 fatty acids, although dietary supplementation with EPA and/or DHA attenuated these effects somewhat. Our results suggest that beef tallow is suitable as a primary lipid source in Florida pompano feeds and n-3 LC-PUFA requirements may be met by as little as 4 g/kg EPA and 4 g/kg DHA. However, there may be value in supplementing tallow-based diets with DHA to enhance tissue levels and possibly growth. K E Y W O R D Sbeef tallow, DHA, EPA, fatty acid, fish oil, Trachinotus carolinus

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

Cited by 18 publications

References 52 publications

Uncoupling EPA and DHA in Fish Nutrition: Dietary Demand is Limited in Atlantic Salmon and Effectively Met by DHA Alone

Uncoupling EPA and DHA in Fish Nutrition: Dietary Demand is Limited in Atlantic Salmon and Effectively Met by DHA Alone

Effects of Fish Oil Sparing on Fillet Fatty Acid Composition in Hybrid Striped Bass Are Influenced by Dietary Levels of Saturated and Unsaturated Fatty Acids

Beef tallow is suitable as a primary lipid source in juvenile Florida pompano feeds

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