郭红会，等                                                                 水产学报, 2023, 47(1): 019606

                    biochemical and fatty acid of epinephelus coioides [D].  Zhang Y, Qi Z Y, Ning L J. Effect of Temperature on
                    Zhanjiang:  Guangdong  Ocean  University,  2012(in  Growth  of  Juvenile  Fugu  rubripes[J]. Modern   Fisher-
                    Chinese).                                       ies Information, 2010, 25(12): 29-34 (in Chinese).
              [  21  ]  蔡润佳. 低温胁迫下军曹鱼幼鱼脂代谢的变化           [D].  [  29  ]  徐伟, 耿龙武, 姜海峰, 等. 水温和养殖密度对大鳞鲃
                    湛江：广东海洋大学, 2021.                                幼鱼的生长影响[J]. 淡水渔业, 2016, 46(5): 96-99.
                    Cai R J. Changes in lipid metabolism of juvenile cobia  Xu W, Gong L W, Jiang H F, et al. The effects of water
                    under low  temperature  stress  [D].  Zhanjiang:   Guang-  temperature and stocking density on growth of juvenile
                    dong Ocean University, 2021(in Chinese).        Barbus capito[J]. Freshwater Fishery, 2016, 46(5): 96-
              [  22  ]  Hsieh S L, Kuo C M. Stearoyl–CoA desaturase expres-  99 (in Chinese).
                    sion  and  fatty  acid  composition  in  milkfish  (Chanos  [  30  ]  Gabillard  J  C,  Weil  C,  Rescan  P  Y,  et  al.  Effects  of
                    chanos) and grass carp (Ctenopharyngodon idella) dur-  environmental  temperature  on  IGF1,  IGF2,  and  IGF
                    ing cold acclimation[J]. Comparative Biochemistry and  type  I  receptor  expression  in  rainbow  trout  (Onco-
                    Physiology Part  B:Biochemistry  and  Molecular   Bio-  rhynchus  mykiss)[J].  General and  Comparative   Endo-
                    logy, 2005, 141(1): 95-101.                     crinology, 2003, 133(2): 233-242.
              [  23  ]  李希国, 李加儿, 区又君. 温度对黄鳍鲷主要消化酶            [  31  ]  Beckman B R, Shimizu M, Gadberry B A, et al. The
                    活性的影响[J]. 南方水产, 2006(1): 43-48.                 effect  of  temperature  change  on  the  relations  among
                    Li X G, Li J E, Qu Y J. Effect of temperature on the  plasma IGF-I, 41-kDa IGFBP, and growth rate in posts-
                    activity of major digestive enzymes in yellow fin black  molt coho salmon[J]. Aquaculture, 2004, 241(1): 601-
                    porgy (Sparus latus)[J]. Southern Fisheries, 2006(1): 43-  619.
                    48 (in Chinese).                          [  32  ]  Gabillard J, Weil C, Rescan P, et al. Does the GH/IGF
              [  24  ]  罗奇, 区又君, 艾丽, 等. 温度和pH对条石鲷幼鱼消化               system mediate the effect of water temperature on fish
                    酶活力的影响[J]. 热带海洋学报, 2010, 29(5): 154-            growth?  A  review[J].  International Journal  of   Ichthy-
                    158.                                            ology, 2005, 29(2): 107-117.
                    Luo Q, Qu Y J, Ai L, et al. Effects of temperature and  [  33  ]  Sharma J G, Singh S P, et al. Effect of temperature on
                    pH  on  the  digestive  enzymes  activities  of  juvenile  digestive  physiology,  immune-modulatory  parameters,
                    striped beakperch Oplegnathus fasciatus[J]. Journal of  and  expression  level  of  Hsp  and  LDH  genes  in  Catla
                    Tropical  Oceanography,  2010,  29(5):  154-158  (in  catla (Hamilton, 1822)[J]. Aquaculture, 2017, 479: 134-
                    Chinese).                                       141.
              [  25  ]  Moura G D S, Oliveira M G A. Performance and amyl-  [  34  ]  Topal A, Zdemir S, Arslan H, et al. How does elevated
                    ase activity in Nile tilapia submitted to diferent temper-  water temperature affect fish brain? (A neurophysiolo-
                    atures[J].  Pesquisa  Agropecuária  Brasileira,  2007,  gical  and  experimental  study:  Assessment  of  brain
                    42(11): 1609-1615.                              derived  neurotrophic  factor,  cFOS,  apoptotic  genes,
              [  26  ]  Bowyer J N, Qin J G, Adams L R, et al. The response  heat shock genes, ER-stress genes and oxidative stress
                    of digestive enzyme activities and gut histology in yel-  genes)  [J].  Fish  and  Shellfish  Immunology,  2021(pre-
                    lowtail kingfish (Seriola lalandi) to dietary fish oil sub-  publish). DOI: 10.1016/j.fsi.2021.05.002.
                    stitution  at  different  temperatures[J].  Aquaculture,  [  35  ]  Airaksinen  S,  Jokilehto  T,  Rabergh  C  M,  et  al.  Heat-
                    2012, 368-369: 19-28.                           and  cold-inducible  regulation  of  HSP70  expression  in
              [  27  ]  Handeland  S  O,  Imsland  A  K,  Stefansson  S  O.  The  zebrafish  ZF4  cells[J].  Comparative  Biochemistry  and
                    effect  of  temperature  and  fish  size  on  growth,  feed  Physiology, Part B, 2003, 136(2): 275-282.
                    intake, food conversion efficiency and stomach evacu-  [  36  ]  刘波, 王美连, 谢骏, 等. 低温应激对吉富罗非鱼血清
                    ation  rate  of  Atlantic  salmon  post-smolts[J].  Aquacul-  生化指标及肝脏HSP70基因表达的影响[J]. 生态学
                    ture, 2008, 283(1): 36-42.                      报, 2011, 31(17): 4866-4873.
              [  28  ]  张云, 齐自元, 宁丽军. 温度对红鳍东方鲀幼鱼生长                  Liu B, Wang M L, Xie J, et al. Effects of acute cold
                    的影响[J]. 现代渔业信息, 2010, 25(12): 29-34.            stress  onserum  biochemical  and  immune  parameters
              中国水产学会主办  sponsored by China Society of Fisheries                          https://www.china-fishery.cn
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