Effect of dietary encapsulated organic salts (Na‐acetate, Na‐butyrate, Na‐lactate and Na‐propionate) on growth performance, haemolymph, antioxidant and digestive enzyme activities and gut microbiota of juvenile narrow clawed crayfish, <i>Astacus leptodactylus leptodactylus</i> Eschscholtz, 1823
Omid Safari, Marina Paolucci, Hamidreza Ahmadniaye Motlagh
Abstract
A 63-day experiment was done to study the effects of four levels (5, 10, 20 and 50 g/kg) of encapsulated organic salts (Na-acetate, Na-butyrate, Na-lactate and Napropionate) on the growth indices and haemato-immunological responses of crayfish Astacus leptodactylus leptodactylus (4.38 ± 0.08 g).Crayfish were distributed at 51 1,000-L tanks (17 treatments at triplicate).The highest values of final weight (27.86 g), specific growth rate (2.94% body weight per day) and survival rate (96%) were observed in the crayfish fed the 20 g/kg of encapsulated Na-propionate diet (p < .05).The highest activities of phenoloxidase (7.4 U/min), superoxide dismutase (7.80 U/min) and lysozyme (9.40 U/min) were observed in the gut of crayfish fed the 20 g/kg of encapsulated Na-propionate diet (p < .05),as well as the highest activities of alkaline protease (10.70 U/mg), lipase (9.10 U/mg), amylase (9.60 U/mg) and the lactobacillus count (p < .05).Broken line regression model of SGR and phenoloxidase activity suggested that the optimum dietary levels of encapsulated Na-acetate, Na-butyrate, Na-lactate and Na-propionate could be 30.7,31.8,31.4 and 33.5 g/kg, respectively, in crayfish reared in culture conditions.