4.3. Low DO stressC-fed prawn exhib

4.3. Low DO stress
C-fed prawn exhibited not only poor resistance to low DO stress but consumed more oxygen under our conditions compared with prawns fed with carotenoid supplemented diets. Similar results were reported by Chien et al. (1999) on juvenile P. monodon fed with diet without astaxanthin supplement compared with those fed with 360 mg kg_1 astaxanthin for 1 week. The possibility that oxygen-containing carotenoids such as astaxanthin and lutein (Soin, 1954; Czeczuga, 1979), in which oxygen is attached at the center of the hydrocarbon chain (Karnaukhov, 1979), may act as an intracellular oxygen reserve for respiration in salmonids eggs subjected to oxygen stress has been postulated (Craik, 1985). Such intracellular oxygen reserves (Ghidalia, 1985; Latscha, 1990; Oshima et al., 1993) or of its electron-acceptor equivalent (Ghidalia, 1985) may also permit the crustacean to survive under hypoxic conditions common in pond culture environments (Chien and Jeng, 1992). High astaxanthin content in kuruma prawn, about 90% of its total pigments (Ishikawa et al., 1966), may contribute to its high tolerance to low DO and lower demand for oxygen. This is evidenced by the fact that kuruma prawn is one of the few penaeids that can be transported alive without water and the fact that during the day, it burrows itself into the sediment (Bailey-Brock and Moss, 1992) which is usually hypoxic. Aside from being active in cross-membrane calcium transfer and serving as oxygen reservoirs in the neuronal respiratory chain, carotenoids also protect sensitive tissues and reactive compounds from damage due to oxidation (Oshima et al., 1993). There have been several reports suggesting that astaxanthin functions as a potent antioxidant for prawn against physical (Darachai et al., 1998; Merchie et al., 1998; Chien et al., 2003), chemical (Pan et al., 2003a), and pathological stresses (Merchie et al., 1998; Pan et al., 2003b).