Seven fish oil substitutes over a rainbow trout grow-out cycle: I) Effects on performance and fatty acid metabolism

Turchini, Giovanni M.; Hermon, Karen; Cleveland, Benjamin J.; Emery, James A.; Rankin, Tom; Francis, David S.

doi:10.1111/anu.12046

Cited by 48 publications

(34 citation statements)

References 42 publications

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“…Furthermore, EPA levels were increased in the livers of AV‐fed fish. This is in contrast to the findings of many studies, showing that the substitution of fish oil by vegetable oils decreases the EPA and DHA tissue levels in salmonids (Bell et al, , ; Turchini et al, ).…”

Section: Discussioncontrasting

confidence: 95%

“…AV-diets include a blend of Ahiflower oil (3.8% of DM) and other vegetable oils (7.7% of DM). C, EQ1, EQ2, and EQ3 indicate the supplementation of the AV-diets with 0.0%, 0.1%, 0.2%, and 0.3% of DM of equol Initial FV AV-C AV-EQ1 AV-EQ2 AV-EQ3 substitution of fish oil by vegetable oils decreases the EPA and DHA tissue levels in salmonids (Bell et al, , 2003Turchini et al, 2013). Specifically, the EPA and DHA liver levels were affected by the dietary treatments.…”

Section: Effects On Lc-pufa Tissue Levelsmentioning

confidence: 99%

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Combination of Dietary Ahiflower Oil and Equol Enhances Long‐Chain Polyunsaturated Fatty Acid Levels in Rainbow Trout Tissues

Fickler

Staats

Michl

et al. 2018

Lipids

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Equol and Ahiflower oil have been shown to increase either eicosapentaenoic acid (EPA, 20:5n‐3) or docosahexaenoic acid (DHA, 22:6n‐3) levels in tissues of rainbow trout when applied individually. Thus, we investigated whether the combination of an Ahiflower oil‐based diet and equol might increase both, EPA and DHA levels, in rainbow trout. Rainbow trout (87.1 ± 0.3 g) were fed with five diets for 8 weeks. A diet based on a blend of fish and vegetable oils (FV) served as a reference diet. The four experimental diets contained a blend of Ahiflower oil and vegetable oils (AV). The AV‐diets were supplemented with equol by 0.0%, 0.1%, 0.2%, and 0.3% DM of the diet (AV‐C, AV‐EQ1, AV‐EQ2, and AV‐EQ3). The dietary treatments did not affect growth performance of fish and chemical nutrient composition of the whole body samples. Fish fed with the equol diets showed dose‐dependently increased liver weights and 18:0 liver levels. The content of EPA showed no consistent pattern between tissues but all AV‐groups were characterized by higher liver EPA values than FV. DHA values of AV‐EQ2 and AV‐EQ3 were similar to FV in fillet, tended to be the highest in the whole body and were significantly higher in liver compared to FV. In contrast, mRNA steady state levels of fatty acyl desaturase 2a (delta‐6) [fads2a(d6)] were not affected by the dietary treatments. In conclusion, the combination of dietary Ahiflower oil and equol (0.2% and 0.3%) seems to affect the fatty acid metabolism of rainbow trout positively to increase DHA tissue levels.

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Section: Discussioncontrasting

confidence: 95%

Section: Effects On Lc-pufa Tissue Levelsmentioning

confidence: 99%

Combination of Dietary Ahiflower Oil and Equol Enhances Long‐Chain Polyunsaturated Fatty Acid Levels in Rainbow Trout Tissues

Fickler

Staats

Michl

et al. 2018

Lipids

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“…For example, the LC-PUFA sparing effect of feeding C 18 PUFA-poor lipids was reportedly marginal in Nile Tilapia Oreochromis niloticus Mulligan and Trushenski 2013), and Turchini et al (2013b) reported no difference between C 18 PUFA-rich canola and MUFA-rich "monola" oil (18:1[n-9]-rich canola cultivar) in terms of their effects on fillet fatty acid profile in Rainbow Trout. Similarly, a range of MUFA-rich lipids offered no advantage over C 18 PUFA-rich soybean oil in conserving whole-body LC-PUFA content in Rainbow Trout (Turchini et al 2013a), and Atlantic Salmon Salmo salar fed 18:1(n-9)-rich sunflower oil Downloaded by [University of Nebraska, Lincoln] at 17:52 11 April 2015 retained as much LC-PUFAs in the white muscle as those fed less MUFA-rich palm oil (Torstensen et al 2000). Our cross-study comparison of D jh values in hybrid Striped Bass reveals that at least some attempts to spare fish oil with SFA-and MUFA-rich lipids, such as coconut oil, palm oil, poultry fat, and nonhydrogenated MUFA-enriched soybean oil, have resulted in profiles ranking above the 50th percentile for profile distortion ( Figure 1; Trushenski 2009;Trushenski and Kohler 2011;Crouse et al 2013; the present experiment).…”

Section: Discussionmentioning

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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“…The fillet n-3 PUFA content, however, can be affected (Caballero et al 2002;Turchini et al (2013a), and thus, the fillet quality that is of importance to consumers can be altered (Turchini et al 2013b). For this reason, total replacement of fish oil with vegetable oil for many species, including rainbow trout, is still considered impossible due to the resultant modification of the fatty acid composition of cultured fish.…”

Section: Aquaculture Nutritionmentioning

confidence: 99%

“…Studies in gilthead seabream (Benedito-Palos et al 2008), pikeperch (Kowalska et al 2011) and Atlantic salmon (Bell et al 2003;Torstensen et al 2004) reported similar disorders of lipid metabolism and alterations in fatty acid profiles of the fillets when diets containing fish oil-alternative dietary lipid sources were fed. Studies examining replacement of fish oil in diets of rainbow trout have not always observed reduced growth but have documented altered liver fatty acid metabolism and muscle n-3 PUFA content (Caballero et al 2002;Turchini et al 2013a). Consequently, the fillet was deemed less acceptable by consumers due to inability to supply substantial amounts of long-chain n-3 PUFA (Caballero et al 2002;Turchini et al 2013b).…”

mentioning

confidence: 99%

The effect of total replacement of fish oil with DHA-Gold^®and plant oils on growth and fillet quality of rainbow trout (Oncorhynchus mykiss) fed a plant-based diet

Betiku

Barrows²,

Ross

et al. 2015

Aquacult Nutr

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This study investigated the effect of the replacement of fish oil (FO) with DHA-Gold (DHA-G)-supplemented plant oils (PO) in rainbow trout fed plant-protein-based diets. Five diets (450 mg g À1 digestible protein and 150 mg g À1 crude lipid) were fed to rainbow trout (initial weight 37 AE 0.5 g) for 12 weeks in a 15°C recirculating water system. The lipid inclusion types and levels were FO, PO and PO with DHA-G supplemented at 30 mg g À1 , 60 mg g À1 or 90 mg g À1 of the diet replacement for corn oil. Fish fed 90 mg g À1 DHA-G were significantly larger and consumed more feed than fishfed PO or FO (218 g and 2.6% bwd À1 versus 181 g and 2.4% and 190 g and 2.3%, respectively). Feed conversion ratio was significantly increased in fish fed 90 mg g À1 DHA-G (0.99) as compared to fish-fed FO (0.90) and 30 mg g À1 DHA-G (0.91). Panellists found trout fillets from fish fed the 90 mg g À1 DHA-G diet to have significantly fishier aroma and flavour than fish fed the FO diet. Fatty acid analysis demonstrated that 60 mg g À1 or 90 mg g À1 DHA-G supplementation increased PO fed fish fillet DHA to fatty acid levels equivalent or higher than those fish fed a FO diet.

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Seven fish oil substitutes over a rainbow trout grow-out cycle: I) Effects on performance and fatty acid metabolism

Cited by 48 publications

References 42 publications

Combination of Dietary Ahiflower Oil and Equol Enhances Long‐Chain Polyunsaturated Fatty Acid Levels in Rainbow Trout Tissues

Combination of Dietary Ahiflower Oil and Equol Enhances Long‐Chain Polyunsaturated Fatty Acid Levels in Rainbow Trout Tissues

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

The effect of total replacement of fish oil with DHA-Gold^®and plant oils on growth and fillet quality of rainbow trout (Oncorhynchus mykiss) fed a plant-based diet

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Seven fish oil substitutes over a rainbow trout grow-out cycle: I) Effects on performance and fatty acid metabolism

Cited by 48 publications

References 42 publications

Combination of Dietary Ahiflower Oil and Equol Enhances Long‐Chain Polyunsaturated Fatty Acid Levels in Rainbow Trout Tissues

Combination of Dietary Ahiflower Oil and Equol Enhances Long‐Chain Polyunsaturated Fatty Acid Levels in Rainbow Trout Tissues

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

The effect of total replacement of fish oil with DHA-Gold®and plant oils on growth and fillet quality of rainbow trout (Oncorhynchus mykiss) fed a plant-based diet

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The effect of total replacement of fish oil with DHA-Gold^®and plant oils on growth and fillet quality of rainbow trout (Oncorhynchus mykiss) fed a plant-based diet