Fish Meal Replacement with a Combination of Meat Meal and Chicken Byproduct Meal on Growth Performance, Feed Utilization, Biochemical Parameters and Muscle Composition of Juvenile Red Seabream (<i>Pagrus major</i>)

Fish Meal Replacement with a Combination of Meat Meal and Chicken Byproduct Meal on Growth Performance, Feed Utilization, Biochemical Parameters and Muscle Composition of Juvenile Red Seabream (<i>Pagrus major</i>)

A combination of meat meal (MM) and chicken byproduct meal (CBM) were evaluated as fish meal (FM) replacers in the diets of juvenile red seabream (<i>Pagrus major</i>). The control diet was formulated with 60% FM (CON). Four other diets were designed by reducing the FM levels to 45, 30,...

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Bibliographic Details
Main Authors: Buddhi E. Gunathilaka, Seong-Mok Jeong, Byung-Hwa Min, Jinho Bae, Sang-Woo Hur, Sang-Guan You, Sang-Min Lee
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Animals
Subjects:
meat meal
chicken byproduct meal
alternative protein sources
fish meal replacement
red seabream
Online Access:https://www.mdpi.com/2076-2615/15/11/1581
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Summary:A combination of meat meal (MM) and chicken byproduct meal (CBM) were evaluated as fish meal (FM) replacers in the diets of juvenile red seabream (<i>Pagrus major</i>). The control diet was formulated with 60% FM (CON). Four other diets were designed by reducing the FM levels to 45, 30, 15, and 0% by adding 14, 28, 42, and 56% MM and CBM in a 1:1 ratio to compensate for the reduced protein level (designated as MC14, MC28, MC42, and MC56, respectively). Red seabream (averaging 4.57 g) were distributed among 15 fiberglass tanks (40 fish/tank) and assigned to one of three replicates of the diet. After an eight-week long feeding trial, the growth performance of the fish fed the CON, MC14, and MC28 diets were comparable with the control group, and were significantly higher than the MC42 and MC56 groups. Feed utilization was significantly higher in the MC28 group compared to the other groups. The lowest growth and feed utilization were observed in the MC56 group. Serum lysozyme and SOD activities were significantly reduced when the dietary FM level decreased. Plasma total cholesterol levels were significantly reduced when the FM level was decreased in the diets, exhibiting a significant linear trend. The CON group exhibited a significantly higher cholesterol level compared to the MC42 and MC56 groups. The muscle amino acid profile was not significantly affected. The muscle myristic acid (14:0) was significantly decreased, while the palmitic acid (16:0) level increased with the increase of MM and CBM in the diets. Therefore, the results indicate that the combination of MM and CBM can be used to replace 50% of the FM from the red seabream diets without negative influences compared to a diet containing 60% FM.
ISSN:2076-2615

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