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W3082722480 endingPage "304" @default.
W3082722480 startingPage "287" @default.
W3082722480 abstract "Black Soldier Fly (BSF) meal is considered an alternative, emerging, and sustainable ingredient for aquafeed formulation. However, results on fish physiological responses are still fragmentary and often controversial, and no data are available on the effect of insect meal-based diets on fish reproduction. On this regard, zebrafish, with its relatively short life cycle, represents an ideal experimental model to explore this topic. In this study, female zebrafish were fed for 12 months on a control diet based on fish meal (FM) and fish oil and two experimental diets with full-fat BSF (Hermetia illucens) prepupae meal inclusion, to replace 25% and 50% of FM (BSF25 and BSF50). All diets were isonitrogenous, isolipidic, and isoenergetic. The effects of these two experimental diets on female's reproduction were investigated through a multidisciplinary approach, including the evaluation of growth, gonadosomatic index, spawned/fertilized eggs and hatching rate, adult female carcass and fertilized egg fatty acid composition, histological analysis of the ovary, spectroscopic macromolecular composition of class IV oocytes, and expression of genes involved in fish lipid metabolism in the liver. Results showed that while fish were perfectly able to cope with a 25% insect meal dietary inclusion, a 50% inclusion level caused the overexpression of genes involved in lipid metabolism, a general reduction in the number of spawned eggs, and differences in the frequency rate of previtellogenic oocytes, class III, IV, oocytes and postovulatory follicles and atretic oocytes, in the macromolecular composition of class IV oocytes, and in the fatty acid composition of the fertilized eggs, respect to control and 25% group." @default.
W3082722480 created "2020-09-08" @default.
W3082722480 creator A5006668167 @default.
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W3082722480 creator A5082489412 @default.
W3082722480 date "2020-10-01" @default.
W3082722480 modified "2023-10-18" @default.
W3082722480 title "Can Insect-Based Diets Affect Zebrafish (<i>Danio rerio</i>) Reproduction? A Multidisciplinary Study" @default.
W3082722480 cites W1033241808 @default.
W3082722480 cites W1477475959 @default.
W3082722480 cites W1510645737 @default.
W3082722480 cites W1638433309 @default.
W3082722480 cites W1964726674 @default.
W3082722480 cites W1966613047 @default.
W3082722480 cites W1968679015 @default.
W3082722480 cites W1976561208 @default.
W3082722480 cites W1979862433 @default.
W3082722480 cites W1980003497 @default.
W3082722480 cites W1981109935 @default.
W3082722480 cites W1985874896 @default.
W3082722480 cites W1988724305 @default.
W3082722480 cites W1997412289 @default.
W3082722480 cites W2003957286 @default.
W3082722480 cites W2004769878 @default.
W3082722480 cites W2016337303 @default.
W3082722480 cites W2021694257 @default.
W3082722480 cites W2021885568 @default.
W3082722480 cites W2042537323 @default.
W3082722480 cites W2049464845 @default.
W3082722480 cites W2053976066 @default.
W3082722480 cites W2055792555 @default.
W3082722480 cites W2056975314 @default.
W3082722480 cites W2062701607 @default.
W3082722480 cites W2070457753 @default.
W3082722480 cites W2070499273 @default.
W3082722480 cites W2077043860 @default.
W3082722480 cites W2077329358 @default.
W3082722480 cites W2079329523 @default.
W3082722480 cites W2080601698 @default.
W3082722480 cites W2090910379 @default.
W3082722480 cites W2093604122 @default.
W3082722480 cites W2106869704 @default.
W3082722480 cites W2109534513 @default.
W3082722480 cites W2112087823 @default.
W3082722480 cites W2113540542 @default.
W3082722480 cites W2114024548 @default.
W3082722480 cites W2116377440 @default.
W3082722480 cites W2117995468 @default.
W3082722480 cites W2133007496 @default.
W3082722480 cites W2148987627 @default.
W3082722480 cites W2150633385 @default.
W3082722480 cites W2154602159 @default.
W3082722480 cites W2156936497 @default.
W3082722480 cites W2157885640 @default.
W3082722480 cites W2164976484 @default.
W3082722480 cites W2212345261 @default.
W3082722480 cites W2281794187 @default.
W3082722480 cites W2312257121 @default.
W3082722480 cites W2467085218 @default.
W3082722480 cites W2470989627 @default.
W3082722480 cites W2502446260 @default.
W3082722480 cites W2530368439 @default.
W3082722480 cites W2537688815 @default.
W3082722480 cites W2566241720 @default.
W3082722480 cites W2606816027 @default.
W3082722480 cites W2726098164 @default.
W3082722480 cites W2754705897 @default.
W3082722480 cites W2759579698 @default.
W3082722480 cites W2772146456 @default.
W3082722480 cites W2773217616 @default.
W3082722480 cites W2793721942 @default.
W3082722480 cites W2795087523 @default.
W3082722480 cites W2795992747 @default.
W3082722480 cites W2808997074 @default.
W3082722480 cites W2886642044 @default.
W3082722480 cites W2893463456 @default.
W3082722480 cites W2909994104 @default.
W3082722480 cites W2912794268 @default.
W3082722480 cites W2925181679 @default.
W3082722480 cites W2944307309 @default.
W3082722480 cites W2946063886 @default.
W3082722480 cites W2951686677 @default.
W3082722480 cites W2952162114 @default.
W3082722480 cites W2982280486 @default.
W3082722480 cites W2982578931 @default.
W3082722480 cites W2985056984 @default.
W3082722480 cites W2989366825 @default.
W3082722480 cites W2995073135 @default.
W3082722480 cites W98873812 @default.
W3082722480 cites W2884059886 @default.
W3082722480 doi "https://doi.org/10.1089/zeb.2020.1891" @default.