Abstract
There is an increased use of vegetable oils containing n-6 fatty acids (FA) in aquafeeds, and several trials indicate that there might be an increased requirement of EPA and DHA for Atlantic salmon when they are fed higher dietary n-6 FA. With a limited supply of EPA and DHA for production of aquafeeds, it is important to know how to efficiently use these FA to maintain growth and health of the fish. In the present trial, three diets containing equal amounts of n-3 FA (about 7·7 % of total FA) and different n-6:n-3 FA ratios (about 1, 2 and 6), as well as one diet with n-6:n-3 FA ratio at about 1 but twice as much n-3 FA, were fed to Atlantic salmon. Despite constant dietary n-3, increasing dietary n-6 led to significantly reduced n-3 in tissue polar lipids. Interestingly, EPA was significantly reduced while DHA was not. Maintaining a stable n-3 content in the polar lipids when increasing dietary n-6 FA was only obtained by simultaneously increasing the dietary n-3 content and with this maintaining the same n-6:n-3 FA ratio. Polar lipid n-6 FA in tissues thus primarily reflected the dietary n-6:n-3 FA ratio and not the absolute dietary n-6 FA content. Neutral lipids, on the other hand, reflected the dietary absolute levels of both n-3 and n-6 FA. This study indicates that a better use of dietary EPA is achieved by keeping the dietary n-6:n-3 FA ratio low.
Highlights
Increasing replacement of fish oil (FO) with vegetable oils (VO) in aquafeeds is common due to limited availability of FO worldwide
Proximate and fatty acids (FA) composition of the 4 mm pellet is given in Table 2, while the results from the same analyses for the 3 mm pellet are given in online Supplementary Table S2
The requirement of EPA and DHA has been extensively studied in fish; it has been sparsely studied in relation to the dietary content of n-6 FA
Summary
Increasing replacement of fish oil (FO) with vegetable oils (VO) in aquafeeds is common due to limited availability of FO worldwide. Atlantic salmon fed increased 18 : 2n-6 levels had higher levels of ARA-derived eicosanoids[21,22] and feeding high 18 : 3n-3 compared with high 18 : 2n-6 caused increased membrane bound EPA with reduced production of ARA-derived eicosanoids[23]. These studies suggest that manipulation of dietary n-6 and n-3 FA can affect the stress and immune responses of Atlantic salmon by regulating the eicosanoid production
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