李谣，等                                                                  水产学报, 2023, 47(1): 019611

                   军曹鱼幼鱼肝脏氧化应激、能量利用及糖代谢的影                           40(1): 73-82.
                   响[J]. 广东海洋大学学报, 2020, 40(3): 134-140.            Xiong X Y, Huang G Q, Peng Y H, et al. Effect of hyp-
                   Guo Z X, Zeng Z Q, Huang J S, et al. Effects of acute  oxia  on  growth  performance,  energy  metabolism  and
                   hypoxia on oxidative stress, energy utilization and carbo-  oxidative stress of Mugil cephalus[J]. Journal of Fisher-
                   hydrate metabolism in liver of large-sized juvenile cobia  ies of China, 2016, 40(1): 73-82 (in Chinese).
                   (Rachycentron  canadum)[J].  Journal  of  Guangdong  [31]  Castro J S, Braz-Mota S, Campos D F, et al. High tem-
                   Ocean University, 2020, 40(3): 134-140 (in Chinese).  perature,  pH,  and  hypoxia  cause  oxidative  stress  and
              [23]  Kumar A, Gopesh A. Effect of hypoxia and energy con-  impair  the  spermatic  performance  of  the  Amazon  fish
                   servation  strategies  in  the  air-breathing  indian  catfish,  Colossoma  macropomum[J].  Frontiers  in  Physiology,
                   Clarias batrachus[J]. National Academy Science Letters,  2020, 11: 772.
                   2015, 38(2): 135-137.                      [32]  张倩, 黄进强, 权金强, 等. 急性低氧胁迫和复氧对鲫
              [24]  Li M X, Wang X D, Qi C L, et al. Metabolic response of  鱼氧化应激的影响[J]. 水产科学, 2020, 39(5): 649-656.
                   Nile tilapia (Oreochromis niloticus) to acute and chronic  Zhang Q, Huang J Q, Quan J Q, et al. Effects of acute
                   hypoxia stress[J]. Aquaculture, 2018, 495: 187-195.  hypoxia and  reoxygenation  on  oxidative  stress  in   cru-
              [25]  Treberg J R, MacCormack T J, Lewis J M, et al. Intra-  cian carp Carassius auratus[J]. Fisheries Science, 2020,
                   cellular glucose and binding of hexokinase and phospho-  39(5): 649-656 (in Chinese).
                   fructokinase to particulate fractions increase under hyp-  [33]  刘韬,齐明,高阳,等. 青田田鱼幼鱼脑组织在急性低氧
                   oxia in heart of the Amazonian armored catfish (Liposar-  胁迫、复氧恢复的转录组分析[J]. 上海海洋大学学报,
                   cus  pardalis)[J].  Physiological  and  Biochemical  2023, 32(1): 79-88.
                   Zoology, 2007, 80(5): 542-550.                   Liu  T,  Qi  M,  Gao  Y,  et  al.  Transcriptome  analysis  of
              [26]  Li X R, Wang T, Yin S W, et al. The improved energy  brain  tissue  of  Qingtian  Paddy  Field  carp（ Cyprinus
                   metabolism  and  blood  oxygen-carrying  capacity  for  carpio var. qingtianensis）during acute changes in dis-
                   pufferfish,  Takifugu  fasciatus,  against  acute  hypoxia  solved oxygen[J]. Journal of Shanghai Ocean University,
                   under  the  regulation  of  oxygen  sensors[J].  Fish  2023, 32(1): 79-88 (in Chinese).
                   Physiology and Biochemistry, 2019, 45(1): 323-340.  [34]  陈世喜, 王鹏飞, 区又君, 等. 急性和慢性低氧胁迫对
              [27]  Zhou  B  S,  Wu  R  S  S,  Randall  D  J,  et  al.  Metabolic  卵形鲳鲹幼鱼肝组织损伤和抗氧化的影响[J]. 动物学
                   adjustments in the common carp during prolonged hyp-  杂志, 2016, 51(6): 1049-1058.
                   oxia[J].  Journal  of  Fish  Biology,  2000,  57(5):  1160-  Chen S X, Wang P F, Ou Y J, et al. The effect of acute
                   1171.                                            and chronic hypoxia stress on liver tissue structure and
              [28]  薛红强, 康汇. 红景天提取物提高高强度跑台运动小                       oxidation  in  juvenile  golden  pompano  (Trachinotus
                   鼠的抗氧化能力[J]. 基因组学与应用生物学, 2020,                    ovatus)[J].  Chinese  Journal  of  Zoology,  2016,  51(6):
                   39(2): 955-960.                                  1049-1058 (in Chinese).
                   Xue H Q, Kang H. Rhodiola rosea extract improves the  [35]  Lushchak V I, Bagnyukova T V, Lushchak O V, et al.
                   antioxidant capacity of high-intensity treadmill mice[J].  Hypoxia and recovery perturb free radical processes and
                   Genomics  and  Applied  Biology,  2020,  39(2):  955-960  antioxidant potential in common carp (Cyprinus carpio)
                   (in Chinese).                                    tissues[J].  The  International  Journal  of  Biochemistry  &
              [29]  李 洪 娟 ,  陈 刚 ,  郭 志 雄 ,  等 .  军 曹 鱼 (Rachycentron  Cell Biology, 2005, 37(6): 1319-1330.
                   canadum)幼鱼对环境低氧胁迫氧化应激与能量利用                 [36]  吴鑫杰, 陈楠, 黄春筱, 等. 低氧对团头鲂心肌细胞凋
                   指标的响应[J]. 海洋学报, 2020, 42(4): 12-19.              亡及抗氧化酶活性的影响[J]. 华中农业大学学报,
                   Li  H  J,  Chen  G,  Guo  Z  X,  et  al.  Oxidative  stress  and  2016, 35(3): 108-113.
                   energy  utilization  responses  of  juvenile  cobia  (Rachy-  Wu X J, Chen N, Huang C X, et al. Effects of hypoxia
                   centron  canadum)  to  environmental  hypoxia  stress[J].  on  cardiomyocyte  apoptosis  and  activity  of  antioxidant
                   Haiyang Xuebao, 2020, 42(4): 12-19 (in Chinese).  enzymes  in  Megalobrama  amblycephala  heart[J].
              [30]  熊向英, 黄国强, 彭银辉, 等. 低氧胁迫对鲻幼鱼生长、                   Journal  of  Huazhong  Agricultural  University,  2016,
                   能量代谢和氧化应激的影响[J]. 水产学报, 2016,                     35(3): 108-113 (in Chinese).
              中国水产学会主办  sponsored by China Society of Fisheries                          https://www.china-fishery.cn
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