Effect of palm kernel meal (Elaeis guineensis, Jacq, 1763) in the diet on digestive transit and some serum parameters in Nile tilapia (Oreochromis niloticus, Linnaeus, 1758)

Adjanke, Amakoé; Tona, Kokou; Toko, Ibrahim Imorou; Gbéassor, Messanvi

doi:10.4314/ijbcs.v15i5.2

Cited by 2 publications

(1 citation statement)

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“…When plant-derived meals are used for FM substitution, likely due to the presence of anti-nutritional substances (ANFs), a reduction in nutrient digestibility [13][14][15], alterations at the hepatic/intestinal level, and/or an increase in digestive transit speed [10,16] may occur. Total fishmeal substitutions or up to 75% by a mixture of plant protein in juvenile gilthead seabream reported alterations at the intestinal level, such as a major lamina propria [17] or a smaller absorption surface due to minor villi in alevin barramundi (Lates calcalifer) with a 50% fishmeal replacement by soybean [18].…”

Section: Introductionmentioning

confidence: 99%

Growth, Survival, and Intestinal Health Alterations in Mediterranean Yellowtail (Seriola dumerili) Due to Alternatives to Fishmeal and Fish Oil

Milián-Sorribes,

Martínez-Llorens,

Peñaranda

et al. 2024

CIMB

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Fishmeal and fish oil substitution in aquafeeds might have adverse effects on fish growth and health, mainly in carnivorous species, such as Mediterranean yellowtail (Seriola dumerili). Mediterranean yellowtail shows great potential as an alternative aquaculture species due to its fast growth and high price on the market, but the need for high-quality protein and fatty acid content in its diets is limiting its production. In order to improve the sustainability of its production, this study was conducted with 360 fish of 35 g to evaluate the effects on fish growth and health. Six diets were used: one control diet without replacement, three with FM replacement (FM66, FM33, and FM0) (33%, 66%, and 100% FM replacement), and two with FO replacement (FO50 and FO0) (50% and 100% FO replacement). The substitution of FM was with vegetable (VM) (corn gluten) and animal (AM) (krill and meat meal) meals. The reductions in FM and FO of up to 33 and 0%, respectively, did not affect the growth and survival of S. dumerili at the intestinal morphology level, except for the anterior intestine regarding the lower villi length and width and the posterior intestine regarding the lower width of the lamina propria. On the other hand, the substitution of fish ingredients in the diet affects liver morphology, indicating alterations in the major diameter of hepatocytes or their nuclei. Finally, diet did not affect the gut microbiota with respect to the control, but significant differences were found in alpha and beta diversity when FO and FM microbiota were compared. A 66% FM replacement and total FO replacement would be possible without causing major alterations in the fish.

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