Abstract
The present study utilized digestives tracts from adult largemouth bass (LMB) to hydrolyze Bighead carp muscle and obtain an optimal profile of muscle protein hydrolysates that would be easily assimilated within the primitive digestive tract of larval LMB. Specifically, muscle protein source was digested for the larva using the fully developed digestive system of the same species. The objectives of this study were: 1) to develop an optimal in vitro methodology for carp muscle hydrolysis using LMB endogenous digestive enzymes, and 2) to evaluate the effect of dietary inclusion of the carp muscle protein hydrolysate on LMB growth, survival, occurrence of skeletal deformities, and whole-body free amino acid composition. The study found that the in vitro hydrolysis method using carp intact muscle and LMB digestive tracts incubated at both acid and alkaline pH (to mimic digestive process of LMB) yielded a wide range of low molecular weight fractions (peptides), as opposed to the non-hydrolyzed muscle protein or muscle treated only with acid pH or alkaline pH without enzymes from LMB digestive tracts, which were comprised of large molecular weight fractions (polypeptides above 150 kDa). Overall, the dietary inclusion of the carp muscle hydrolysate improved growth performance of larval LMB in terms of final average weight, weight gain, DGC, SGR, and body length after 21 days of feeding compared to fish that received the diet based on non-hydrolyzed carp muscle. The study also found that hydrolysate-based feed significantly reduced skeletal deformities. The positive growth performance presented by fish in the hydrolysate-fed group possibly resulted from matching the specific requirements of the larvae with respect to their digestive organ development, levels of digestive enzymes present in the gut, and nutritional requirements.
Highlights
The successful growth and survival of many fish species, at their young stage, strongly depends on environmental conditions, namely food availability and water quality, making fish production in outdoor systems often unpredictable
The objectives of this study were as follows: 1) To develop the optimal in vitro methodology for Asian carp muscle hydrolysis using largemouth bass (LMB) endogenous digestive enzymes obtained from adult LMB; and 2) To evaluate the effect of Asian carp muscle protein hydrolysate obtained using the methodology in Objective 1 as a replacement for non-hydrolyzed protein in larval LMB diets on growth, survival, occurrence of skeletal deformities, and muscle postprandial free AA (FAA) composition used as an indicator of dietary amino acids (AA) availability
The results indicate that muscle samples treated with digestive enzymes and incubated in both acid and alkaline conditions (to mimic the digestive process of LMB; Intestinal Digest (ID)) were composed of a range of peptides predominantly migrating at molecular weights lower than 30 kDa, as opposed to the non-hydrolyzed muscle protein (Lane 2), or muscle treated only in acid (Lane 4) or alkaline (Lane 8) conditions without enzymes from LMB digestive tracts
Summary
The successful growth and survival of many fish species, at their young stage, strongly depends on environmental conditions, namely food availability and water quality, making fish production in outdoor systems (i.e. ponds) often unpredictable. Aquaculture has been moving towards sustainable farming intensification, which utilizes indoor recirculation systems. Such technology, poses a challenge related to the lack of naturally occurring live food that larval fish generally prey on. The substitution of live food with formulated diets for the early stages of fish has become a major focus in aquaculture during the last decades in order to reduce costs and increase predictability of juvenile production. Different types of formulated feeds have been examined from dry or frozen live food organisms, feeds supplemented with digestive enzymes, to formulated food particles made using different processing technology and methods [1,2,3]. Weaning first feeding larval fish completely onto formulated dry feeds has not been fully possible yet
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