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恢复时间对力竭训练后的斑节对虾幼虾的抗氧化功能的影响
引用本文:陈梓聪,陈丕茂,袁华荣,冯雪,佟飞,陈文静,龙鑫玲,张皓铭.恢复时间对力竭训练后的斑节对虾幼虾的抗氧化功能的影响[J].海洋水产研究,2020,41(6):58-65.
作者姓名:陈梓聪  陈丕茂  袁华荣  冯雪  佟飞  陈文静  龙鑫玲  张皓铭
作者单位:中国水产科学研究院南海水产研究所 农业农村部南海渔业资源环境科学观测实验站 中国水产科学研究院海洋牧场技术重点实验室 广东省渔业生态环境重点实验室 广东省海洋休闲渔业工程技术研究中心 广州 510300;上海海洋大学海洋科学学院 上海 201306
摘    要:力竭运动常出现于虾类养殖过程和野生环境中,斑节对虾(Penaeus monodon)是中国沿海重要养殖和增殖放流品种,但尚无关于斑节对虾力竭运动后生理恢复过程报道。该研究以斑节对虾幼虾为实验对象,在室内水槽使用抄网追逐斑节对虾幼虾,模拟迫使其进行力竭运动实验,探究其力竭运动后抗氧化能力恢复过程。结果显示,力竭运动后0 h,幼虾体内的超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、过氧化物酶(POD)和谷胱甘肽过氧化物酶(GSH-Px)的活性,总抗氧化能力(T-AOC)和丙二醛(MDA)含量,均与对照组无显著差异;1~12 h,SOD、CAT、POD活性、MDA含量和T-AOC持续下降,GSH-Px活性无显著变化;24 h,SOD、CAT和POD活性显著降低,GSH-Px活性、MDA含量和T-AOC显著升高;72 h,SOD和CAT活性仍显著低于对照组,GSH-Px、POD活性和MDA含量恢复至对照组,T-AOC显著高于对照组。在力竭运动过程中,幼虾的酶促抗氧化系统未被激活;幼虾的抗氧化能力在力竭运动后的24 h内较低,不宜再次受刺激;幼虾的抗氧化能力在力竭后24 h后显著上升,并保持较长时间。

关 键 词:斑节对虾  抗氧化能力  力竭运动  恢复过程
收稿时间:2019/9/10 0:00:00
修稿时间:2019/10/11 0:00:00

Effect of Recovery Time on Antioxidant Capacity of Juvenile Penaeus monodon After Exhaustive Exercise
CHEN Zicong,CHEN Pimao,YUAN Huarong,FENG Xue,TONG Fei,CHEN Wenjing,LONG Xinling,ZHANG Haoming.Effect of Recovery Time on Antioxidant Capacity of Juvenile Penaeus monodon After Exhaustive Exercise[J].Marine Fisheries Research,2020,41(6):58-65.
Authors:CHEN Zicong  CHEN Pimao  YUAN Huarong  FENG Xue  TONG Fei  CHEN Wenjing  LONG Xinling  ZHANG Haoming
Institution:Scientific Observing and Experimental Station of South China Sea Fishery Resources and Environment, Ministry of Agriculture and Rural Affairs; Key Laboratory of Marine Ranching Technology, Chinese Academy of Fishery Sciences; Guangdong Provincial Key Laboratory of Fishery Ecology and Environment; Guangdong Engineering Technology Research Center of Marine Recreational Fishery; South China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510300; College of Marine Sciences, Shanghai Ocean University, Shanghai 201306
Abstract:Exhaustive exercise often occurs in shrimp farming and in the wild. Giant tiger prawn (Penaeus monodon) is an important species in aquaculture and proliferation in China''s coastal areas. The study used dip nets to chase juvenile P. monodon in the indoor sink, simulated the exhaustive exercise experiment, and explored the recovery process of antioxidant capacity after exhaustive exercise; however, there was no report on the physiological recovery process after the exhaustive exercise of P. monodon. The results showed the activities of superoxide dismutase (SOD), catalase (CAT), peroxidase (POD) and glutathione peroxidase (GSH-Px), total antioxidant capacity (T-AOC), and malondialdehyde (MDA) content in juvenile P. monodon at 0 h after exhaustive exercise. No significant difference from the control group was observed. At 1~12 h, the activities of SOD, CAT, POD, MDA content, and T-AOC continued to decrease, whereas the activity of GSH-Px did not change significantly. At 24 h, the activities of SOD, CAT, and POD were significantly lower than those of the control group, and the activity of GSH-Px, MDA content, and T-AOC were significantly higher than those of the control group. At 72 h, the activities of SOD and CAT were still significantly lower than those in the control group. The activities of GSH-Px, POD, and MDA content were restored in the control group, and T-AOC activity was still significantly higher compared to that in the control group. This indicated that the enzymatic antioxidant system of P. monodon was not activated during exhaustive exercise. At 24 h after exhaustive exercise, the antioxidant capacity at 72 h was still at a high level. It was observed that the enzymatic antioxidant system was not activated in juvenile P. monodon during exhaustive exercise. The antioxidant capacity of juvenile P. monodon is lower within 24 h after exhaustive exercise, then increases significantly after 24 h of exhaustion and remained at that level for a long time. Within 24 h after exercise, further stimulation of juvenile P. monodon should be avoided.
Keywords:Giant tiger prawn (Penaeus monodon)  Oxidation resistance  Exhaustive exercise  Recovery process
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