Hybrid seabream (Pagrus majorfxAcanthopagrus schlegeliio) grow quickly, with retarded gonadal growth and enhanced muscle nutritional composition. This F-1 hybrid seabream is a new marine aquaculture fish in China. However, the response of hybrid seabream to transport is severe, which seriously restricts its promotion and development. Water quality and the physiological response of hybrid sea bream were studied at three fish transport densities (5, 10 and 20g/L) during 8hr of transport in a light van (60kmhr(-1) and 25 degrees C water temperature). We found that total ammonia-nitrogen and nitrite-nitrogen levels in the water of the highest density group increased sharply after 4 and 8hr of transport. Cumulative survival of the fish in the 10 and 20g/L groups (86.7% and 75% respectively) was significantly lower than in the 5g/L group (100%) after 8hr of transport (p<.05). Serum cortisol and lactate levels were significantly higher after transport than pre-stress levels, whereas the glucose level decreased significantly (p < .05). Hepatic triglyceride and glycogen levels and superoxide dismutase and catalase activities were significantly lower in the 20g/L group than in the 5g/L group (p < .05). The results show that high-density transport increased ammonia-nitrogen and nitrite-nitrogen levels in the water as well as cortisol secretion and anaerobic metabolism in the F-1 hybrid seabream, suggesting that total cholesterol and glycogen may be used to supply the energy demand and increased oxidative stress. These results will help to optimize the transport conditions for cultured hybrid seabream.

• 出版日期2018-2
• 单位中国水产科学研究院; 中国水产科学研究院淡水渔业研究中心