Nutritional studies in crustaceans and the problems of applying research findings to practical farming systems

Abstract

Methodological approaches for undertaking research on the dietary nutrient requirements of farmed crustaceans should ensure that the studies are designed and conducted in such a manner that the ensuing results can be applied under practical farming conditions. Sadly, the majority of studies to date have had little practical applicability, the bulk of nutrient-requirement studies having been conducted under controlled, artificial, laboratory conditions. Despite the fact that the giant tiger prawn (Penaeus monodon Fabricius), the whiteleg shrimp (Penaeus vannamei Boone) and the fleshy prawn (Penaeus chinensis Osbeck) are the three most-cultivated crustacean species in the world (total aqua-culture production of these crustacean species in 1993 totalled 625487 metric tonnes or 66.9% of the total world farmed crustacean production), little or no information exists concerning their dietary nutrient requirements under practical semi-intensive pond-farming conditions (where the bulk of the production is currently realized). To a large extent this has been due to the apparent reluctance of the conventional laboratory-based crustacean nutritionist to also work under field conditions and the difficulty of quantifying the contribution of natural food organ-isms in the overall nutritional budget of pond-raised crustaceans. If meaningful conclusions are to be drawn from nutrient requirement studies and dietary feeding trials, it is essential that the experimental animals be reared under conditions mimicking as far as possible those of the intended farm production unit and environment, including holding facility (indoor or outdoor tank, cage or pond), feed preparation technique (grinding, pelleting, drying; diet texture, form, shape, size, buoyancy and water stability), feeding method (hand, demand or automatic feeding; feeding frequency and feeding rate–fixed or satiation feeding; day or night-time feeding), water quality (temperature, turbidity, salinity, oxygen and mineral concentration; water exchange rate, water circulation pattern and artificial aeration), photoperiod (artificial or natural) and crustacean stocking density. Finally, but not least, it is essential that the growth performance of the experimental animals be at least equal to or greater than that of the target crustacean species under practical farming conditions if realistic conclusions are to be drawn, and it is necessary that dietary nutrient requirements can be ascertained under conditions of maximum attainable growth.