Effect of vitamin C and astaxanthin on stress and disease resistance of postlarval tiger shrimp,Penaeus monodon(Fabricius)

Abstract

Postlarvae of tiger shrimp, Penaeus monodon (Fabricius), were fed semipurified diets supplemented with various levels of astaxanthin (AX) and ascorbic acid-polyphosphate (ApP): three groups were fed 230 mg AX kg ‐1 diet combined with 100, 1700 and 3400 mg ascorbic acid (AA) kg ‐1 diet, respectively; two diets contained 810 mg AX kg ‐1 mixed with 200 and 1700 mg AA kg ‐1 , respectively. Each treatment was run in four replicates. Incorporated levels of AA and AX, production output, and physiological condition were recorded after 4 weeks of feeding. Whole-body AA (21‐47 μ gg ‐1 ) and AX concentrations (19‐35 μ gg ‐1 ) were linked to dietary ApP and AX supply, respectively, although not significantly for the latter. The biomass of the group receiving the lower dietary ApP‐AX combination was significantly lower than for all other treatments, i.e. 3.1 versus 3.9 g, respectively. In the groups fed 230 mg AX kg ‐1 diet, significant differences in stress resistance were observed according to the dietary ApP level, i.e. raising the vitamin C content in the feed from 100 to 3400 mg AA kg ‐1 resulted in a concomitant drop in mortality after an osmotic shock. For the treatments receiving 810 mg AX kg ‐1 diet, the beneficial effect of extra dietary vitamin C was not significant. An increase in the dietary AX for shrimp fed comparable ApP levels resulted in a significant drop of the stress index from 56 to 33 (cumulative