Evaluation of Functional Marine Protein Hydrolysates as Fish Meal Replacements in Low-Fish-Meal Diets: Effects on Growth Performance, Feed Utilization, and Health Status of Asian Seabass (Lates calcarifer)
Dachawat Poonnual, Siriporn Tola, Bundit Yuangsoi

TL;DR
This study shows that tuna protein hydrolysate can replace fish meal in seabass diets without harming growth or health, offering a sustainable alternative for aquaculture.
Contribution
Tuna hydrolysate in soybean meal diets restores growth and stress tolerance in seabass, offering a sustainable fish meal alternative.
Findings
Tuna hydrolysate improved growth, feed efficiency, and stress tolerance in low-fish-meal diets for Asian seabass.
Intestinal health markers like villus length and goblet cell count improved with tuna hydrolysate supplementation.
Survival rates under ammonia stress were higher in diets supplemented with tuna hydrolysate.
Abstract
This study tested marine protein hydrolysates from seafood by-products as fish meal replacements in Asian seabass diets. Tuna hydrolysate, when added to soybean meal-based diets, restored growth, feed efficiency, and stress tolerance to levels similar to traditional fish meal diets. Intestinal health improved while other health indicators were unchanged. Tuna hydrolysate shows strong potential as a sustainable fish meal alternative for seabass farming. An eight-week study was conducted to evaluate the effects of dietary marine protein hydrolysates as fish meal replacements in low-fish-meal diets on the growth performance, feed utilization, and health status of Asian seabass (Lates calcarifer). The high-fish-meal (HFM) diet contained 25% fish meal, while the low-fish-meal (LFM) diet replaced 60% of the fish meal with soybean meal. Three experimental diets were formulated by…
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Taxonomy
TopicsAquaculture Nutrition and Growth · Aquaculture disease management and microbiota · Protein Hydrolysis and Bioactive Peptides
