第 3 期       刘银华等： 菊粉对斑鳜幼鱼生长性能、消化酶活性、代谢功能及非特异性免疫的影响                                     351

                   道形态的影响      [J]. 动物营养学报，2023，35（2） ：             Zhou  S  W.  Animal  biochemistry[M].  3rd  ed.  Beijing:
                   1134 − 1146.                                     China Agricultural Press, 1999.
                   Qin Z Q, Liang P, Lin J B, et al. Effects of dietary pro-  ［32］   曲木, 张宝龙, 于恩浩, 等. 虾青素、万寿菊粉对狮子头
                   tein  levels  on  growth  performance,  digestive  enzyme  金鱼生长、血液指标及免疫力的影响  [J]. 生物化工，
                   activities, protein metabolism and intestinal morphology  2018，4（5） ：45 − 50.
                   of juvenile Spinibarbus caldwelli[J]. Chinese Journal of  Qu M, Zhang B L, Yu E H, et al. Effects of dietary as-
                   Animal Nutrition, 2023, 35(2): 1134 − 1146.      taxanthin, marigold powder level on the growth perform-
              ［26］   付运银，范文浩，阮国良，等. 菊粉对克氏原螯虾消                       ance, blood indexes and immunity of red lion-head gold-
                   化酶活性、肠道组织形态和非特异性免疫能力的影                           fish[J].  Biological  Chemical  Engineering,  2018,  4(5):
                   响  [J]. 动物营养学报，2022，34（3） ：1845 − 1852.          45 − 50.
                   Fu  Y  Y,  Fan  W  H,  Ruan  G  L,  et  al.  Effects  of  inulin  ［33］   Al-Ghanim  K  A,  Mahboob  S,  Vijayaraghavan  P,  et  al.
                   on  digestive  enzyme  activities,  intestinal  morphology  Sub-lethal  effect  of  synthetic  pyrethroid  pesticide  on
                   and  non-specific  immunity  of  Procambarus  clarkii[J].  metabolic  enzymes  and  protein  profile  of  non-target
                   Chinese Journal of Animal Nutrition, 2022, 34(3): 1845 −  zebra fish, Danio rerio[J]. Saudi Journal of Biological
                   1852.                                            Sciences, 2020, 27(1): 441 − 447.
              ［27］   Zhou L, Li H F, Qin J G, et al. Dietary prebiotic inulin  ［34］   严银龙，袁新程，施永海，等. 两种配合饲料对美洲
                   benefits  on  growth  performance,  antioxidant  capacity,  鲥幼鱼生长、消化酶和非特异性免疫酶的影响     [J].
                   immune  response  and  in  testinal  microbiota  in  Pacific  水产科技情报，2023，50（1） ：1 − 7.
                   white shrimp (Litopenaeus vannamei) at low salinity[J].  Yan Y L, Yuan X C, Shi Y H, et al. Effect of two kinds
                   Aquaculture, 2020, 518: 734847.                  of  feeds  on  the  growth,  digestive  enzyme  activity  and
              ［28］   类延菊，晏锦，唐忠天，等. 饲料脂肪水平对洞庭青                       non-specific immunity of juvenile Alosa sapidissima[J].
                   鲫幼鱼生长性能及肉品质的影响             [J]. 动物营养学            Fisheries  Science  &  Technology  Information,  2023,  50
                   报，2020，32（12） ：5839 − 5849.                      (1): 1 − 7.
                   Lei Y J, Yan J, Tang Z T, et al. Effects of dietary lipid  ［35］   吴越. 三种益生元对珍珠龙胆石斑鱼和卵形鲳鲹生长
                   level on growth performance and flesh quality of juve-  及免疫的影响  [D]. 海口：海南大学，2019.
                   nile  Carassius  auratus  var.  Dongtingking[J].  Chinese  Wu Y.  Effects  of  three  prebiotic  on  growth  and   im-
                   Journal of Animal Nutrition, 2020, 32(12): 5839 − 5849.  munity of hybrid grouper (♀ Epinephelus fuscoguttatus×
              ［29］   张玲，张卫东，赵德福，等. 饲料脂肪水平对草鱼幼                       ♂ Epinephelus lanceolatu) and Trachinotus ovatus[D].
                   鱼生长和肝胰脏组织形态的影响              [J]. 中国饲料，           Haikou: Hainan University, 2019.
                   2023（1） ：98 − 104.                         ［36］   任秀芳，柏爱旭，张萍，等. 壳聚糖对水质和克氏原
                   Zhang L, Zhang W D, Zhao D F, et al. Effects of dietary  螯虾仔虾非特异性免疫酶的影响    [J]. 江苏农业科
                   lipid level on growth and hepatopancreas morphology of  学，2013，41（9） ：202 − 204.
                   juvenile  grass  carp  Ctenopharyngodon  idella[J].  China  Ren X F, Bo A X, Zhang P, et al. Effects of chitosan on
                   Feed, 2023(1): 98 − 104.                         water quality and non-specific immune enzymes of lar-
              ［30］   Guerreiro  I,  Oliva-Teles  A,  Enes  P.  Improved  glucose  vae Procambarus clarkii[J]. Jiangsu Agricultural Scien-
                   and  lipid  metabolism  in  European  sea  bass  (Dicentrar-  ces, 2013, 41(9): 202 − 204.
                   chus labrax) fed short-chain fructooligosaccharides and  ［37］   Duan Y F, Liu P, Li J T, et al. Expression profiles of sele-
                   xylooligosaccharides[J].  Aquaculture,  2015,  441:  57  −  nium  dependent  glutathione  peroxidase  and  glutathione
                   63.                                              S-transferase from Exopalaemon carinicauda in respon-
              ［31］   周顺伍. 动物生物化学    [M]. 3  版. 北京：中国农业出             se to Vibrio anguillarum and WSSV challenge[J]. Fish &
                   版社，1999.                                         Shellfish Immunology, 2013, 35(3): 661 − 670.