艾同喜，等                                                                 水产学报, 2025, 49(7): 079107

                    杂志, 2004, 17(1): 82-89.                   [10]   Willemse J J. Some remarks on the structure and function of the
                    Chen S B, Chen W X, Fan Z T. Advancement of the study on  musculus  lateralis  in  the  European  eel,  Anguilla  anguilla  (L.)
                    respiratory metabolism of fishes[J]. Chinese Journal of Fisher-  (Pisces,  Teleostei)[J].  Zeitschrift  für  Morphologie  der  Tiere,
                    ies, 2004, 17(1): 82-89 (in Chinese).           1975, 81(3): 195-208.
              [  2  ]   许亚琴. 流速对拉氏鱥幼鱼生长、非特异性免疫能力及脂肪           [11]   McCleave  J  D.  Swimming  performance  of  European  eel
                    酸组成的影响   [D]. 大连: 大连海洋大学, 2020.                 (Anguilla  anguilla  (L.))  elvers[J].  Journal  of  Fish  Biology,
                    Xu Y Q. Effects of flow rate on growth, nonspecific immunity  1980, 16(4): 445-452.
                    and  fatty  acid  composition  in  juvenile  Phoxinus  lagowskii  [12]   Tytell E D. The hydrodynamics of eel swimming II. Effect of
                    Dybowskii[D].  Dalian:  Dalian  Ocean  University,  2020  (in  swimming  speed[J].  Journal  of  Experimental  Biology,  2004,
                    Chinese).                                       207(19): 3265-3279.
              [  3  ]   宋波澜, 林小涛, 王伟军, 等. 不同流速下红鳍银鲫趋流行为       [13]   陈橙, 闫慧, 张挺, 等. 日本鳗鲡游泳能力和游泳行为研究      [J].
                    与耗氧率的变化    [J]. 动物学报, 2008, 51(4): 686-694.     水生态学杂志, 2022, 43(4): 127-132.
                    Song B L, Lin X T, Wang W J, et al. Effects of water velocities  Chen C, Yan H, Zhang T, et al. Swimming ability and behavior
                    on rheotaxis behaviour and oxygen consumption rate of tinfoil  of Anguilla japonica[J]. Journal of Hydroecology, 2022, 43(4):
                    barbs Barbodes schwanenfeldi[J]. Acta Zoologica Sinica, 2008,  127-132 (in Chinese).
                    51(4): 686-694 (in Chinese).              [14]   于丽娟. 运动训练对中华倒刺鲃幼鱼生长、抗氧化及免疫机
              [  4  ]   Farrell A P, Johansen J A, Steffensen J F, et al. Effects of exer-  能的影响  [D]. 重庆: 西南大学, 2014.
                    cise training and coronary ablation on swimming performance,  Yu L J. The effects of exercise training on growth, antioxidat-
                    heart  size,  and  cardiac  enzymes  in  rainbow  trout,  Onco-  ive ability and immune function in juvenile Spinibarbus sinen-
                    rhynchus mykiss[J]. Canadian Journal of Zoology, 1990, 68(6):  sis[D]. Chongqing: Southwest University, 2014 (in Chinese).
                    1174-1179.                                [15]   刘梅, 原居林, 练青平, 等. 不同流速对流水槽大口黑鲈生长
              [  5  ]   宋波澜. 水流因子对红鳍银鲫  (Barbodes schwanenfeldi) 游泳  性能、抗氧化能力、能量代谢及组织结构的影响           [J]. 水生
                    行为、生长和生理生态影响的研究         [D]. 广州: 暨南大学,          生物学报, 2023, 47(1): 25-36.
                    2008: 88-101.                                   Liu M, Yuan J L, Lian Q P, et al. Different water flow rates on
                    Song  B  L.  Effects  of  water  current  on  swimming  activity,  the growth performance, antioxidant capacity, energy metabol-
                    growth  and  ecophysiological  aspect  of  young  Barbodes  ism and tissue structure of Micropterus salmoides under an in-
                    schwanenfeldi[D]. Guangzhou: Jinan University, 2008: 88-101  pond recirculating aquaculture system[J]. Acta Hydrobiologica
                    (in Chinese).                                   Sinica, 2023, 47(1): 25-36 (in Chinese).
              [  6  ]   朱鹏锦. 不同水流速度对草鱼耗氧率、形态和能量代谢的影           [16]   Bayne  C  J,  Gerwick  L.  The  acute  phase  response  and  innate
                    响  [D]. 武汉: 华中农业大学, 2022.                       immunity  of  fish[J].  Developmental &  Comparative   Immuno-
                    Zhu P  J.  Effects  of  different  water  velocities  on  oxygen   con-  logy, 2001, 25(8-9): 725-743.
                    sumption rate, morphological and energy metabolism of grass  [17]   虞顺年. 运动训练对黑棘鲷和斜带石斑鱼生长、抗氧化能力、
                    carp  (Ctenopharyngodon  idella)[D]. Wuhan:  Huazhong   Agri-  非特异性免疫的影响及适宜放流规格探讨  [D]. 上海: 上海海
                    cultural University, 2022 (in Chinese).         洋大学, 2017.
              [  7  ]   Palstra  A  P,  Planas  J  V.  Swimming  Physiology  of  Fish:  Yu S N. The effects of exercise training on growth, antioxidat-
                    Towards  Using  Exercise  to  Farm  a  Fit  Fish  in  Sustainable  ive ability, non-specific immunity in Sparus macrocephalus and
                    Aquaculture[M]. Berlin: Springer, 2013: 1-429.  Epinephelus  coioides  and research  on  suitable  size  for   releas-
              [  8  ]   Lighthill M J. Aquatic animal propulsion of high hydromechan-  ing[D].  Shanghai:  Shanghai  Ocean  University,  2017  (in
                    ical efficiency[J]. Journal of Fluid Mechanics, 1970, 44(2): 265-  Chinese).
                    301.                                      [18]   Hammer C. Fatigue and exercise tests with fish[J]. Comparat-
              [  9  ]   Gray J. Studies in animal locomotion: I. The movement of fish  ive  Biochemistry  and  Physiology-Part  A:  Physiology,  1995,
                    with  special  reference  to  the  eel[J].  Journal  of  Experimental  112(1): 1-20.
                    Biology, 1933, 10(1): 88-104.             [19]   涂志英, 袁喜, 王从锋, 等. 亚成体巨须裂腹鱼游泳能力及活

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