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首页|期刊导航|中国水产科学|转食饲料对大口黑鲈幼鱼的存活率、抗氧化酶和消化酶活性及肠道菌群的影响

转食饲料对大口黑鲈幼鱼的存活率、抗氧化酶和消化酶活性及肠道菌群的影响OA北大核心CSTPCD

Impacts of early weaning on survival rate,antioxidant and digestive enzyme activities,and intestinal microbiota of juvenile largemouth bass(Micropterus salmoides)

中文摘要英文摘要

转食配合饲料是大口黑鲈(Micropteris salmoides)幼鱼培育的一个重要环节,为了找到大口黑鲈幼鱼适宜转食的规格以及转食对幼鱼生理生化的影响,本研究探讨了摄食丰年虫(Artemia salina)幼鱼转食饲料后,其存活率、组织抗氧化酶和消化酶活性及肠道菌群的变化.实验选取了平均体长分别为(1.06±0.02)cm、(2.04±0.03)cm、(3.02±0.04)cm、(4.05±0.04)cm、(5.01±0.04)cm 共 5 种规格幼鱼,设为体长 1 cm、2 cm、3 cm、4 cm、5 cm 组进行转食实验,统计了幼鱼自然死亡率、存活率和残食率.通过酶活测定方法对比分析了转食前后幼鱼肝脏与肌肉组织的抗氧化酶活性变化及胃、肠道和幽门盲囊组织的消化酶活性变化.通过高通量测序方法对比分析了转食前后幼鱼肠道菌群的变化.结果显示:(1)体长1 cm幼鱼转食死亡率、残食率最高,存活率最低,分别为60.31%、30.85%和8.84%;体长4 cm、5 cm幼鱼死亡率和残食率为0,存活率为100%,表明规格越大死亡率和残食率越低,存活率越高.(2)转食后肝脏与肌肉的过氧化物歧化酶(SOD)活性分别升高了 86.97%和16.62%(P<0.05),肝脏过氧化氢酶(CAT)活性下降了 58.60%(P<0.05).(3)转食对肠道中消化酶活性影响最为显著,转食后肠道中胰蛋白酶、脂肪酶及淀粉酶活性均显著下降,分别为50.11%、40.71%和42.79%(P<0.05);胃中胰蛋白酶活性下降了18.33%(P<0.05),幽门盲囊中消化酶活性无显著性变化.(4)转食后肠道放线菌门(Actinobacteriota)显著下降(40.91%vs 13.33%),厚壁菌门(Firmicutes)显著上升(14.03%vs 64.60%);属水平上转食前优势菌为分支杆菌属(Mycobacterium,24.73%)、微杆菌属(Microbacterium,10.25%)和副球菌属(Paracoccus,10.05%),转食后优势菌为乳球菌属(Lactococcus,14.96%)、支原体属(Mycoplasma,13.55%)和芽孢杆菌属(Bacillus,9.32%);转食前后共有不同水平的51个细菌类群发生显著性差异.结果表明,幼鱼最佳转食规格为体长3~4 cm,转食产生的应激反应引起了组织氧化损伤,降低了消化酶的活性,肠道优势菌群发生显著的转变.本研究可为提高大口黑鲈幼鱼转食存活率及添加外源辅助消化物质研究提供参考.

Early weaning stands as a critical phase in the breeding of juvenile largemouth bass(Micropterus salmoides),aiming to ascertain optimal size parameters and evaluate physiological and biochemical impacts.This study investigated the effects of early weaning on survival rates,antioxidant and digestive enzyme activities,and intestinal microbiota.Five length categories[(1.06±0.02)cm,(2.04±0.03)cm,(3.02±0.04)cm,(4.05±0.04)cm,(5.01±0.04)cm]of juvenile fish were subjected to early weaning experiments.Data on natural mortality,survival rates,and cannibalism rates were analyzed.Antioxidant enzyme activities in the liver and muscle,as well as digestive enzyme activities in the stomach,gut,and pyloric ceca,were assessed pre and post-early weaning.Intestinal microbiota analysis was conducted using high-throughput sequencing.Findings revealed:(1)Highest natural mortality(60.31%)and cannibalism rates(30.85%)occurred at 1 cm length level,with the lowest survival rate(8.84%).Conversely,the 4 cm and 5 cm length levels exhibited no natural mortality or cannibalism,with 100%survival.Increasing body length correlated with decreased natural mortality and cannibalism rates alongside heightened survival rates.(2)SOD activity in the liver and muscles increased by 86.97%and 16.62%,respectively(P<0.05),post-early weaning,whereas CAT activity in the liver decreased by 58.60%(P<0.05).T-AOC and MDA levels in the liver and muscles remained statistically unchanged.(3)Trypsin,lipase,and amylase activities were highest in the pyloric ceca,followed by the gut,and lowest in the stomach.Post-early weaning,trypsin,lipase,and amylase activities in the gut decreased significantly by 50.11%,40.71%,and 42.79%,respectively.Trypsin activity in the stomach decreased by 18.33%(P<0.05),with no significant changes observed in the pyloric ceca.(4)At the phylum level,Actinobacteria,Proteobacteria,Firmicutes,and Verrucomicrobiota were predominant in juvenile Micropterus salmoides guts.Actinobacteria decreased by 67.42%(P<0.05),while Firmicutes increased by 360.44%(P<0.05)post-early weaning.At the genus level,Mycobacterium,Microbacterium,Paracoccus,and Gammaproteobacteria were predominant pre-weaning,transitioning to Lactococcus,Mycoplasma,Bacillus,and Achromobacter post-weaning.LEfSe analysis identified 51 significantly altered bacterial groups in the gut post-early weaning.Findings suggest 3-4 cm length as the optimal early weaning size for juvenile Micropterus salmoides.Early weaning-induced stress leads to oxidative damage,affecting antioxidant enzyme activities.Digestive enzyme activities exhibit significant alterations during transfeeding,with a notable decline.Intestinal microbiota composition undergoes significant changes post-early weaning,with Firmicutes emerging as the predominant phylum.This study provides valuable insights for enhancing survival rates and digestive efficiency during the early weaning phase of juvenile Micropterus salmoides.

马兴宇;唐忠林;陈树桥;周国勤;徐钢春

南京市水产科学研究所,江苏南京 210036中国水产科学研究院淡水渔业研究中心,江苏无锡 214081

水产学

大口黑鲈幼鱼转食存活率抗氧化酶消化酶肠道菌群

Micropterus salmoidesjuvenileearly weaningsurvival rateantioxidantsdigestive enzymesintestinal microbiota

《中国水产科学》 2024 (004)

403-415 / 13

江苏省种业振兴"揭榜挂帅"项目[JBGS(2021)130];南京市农业专项公益性服务体系项目"2023特色淡水鱼引育种中心建设".

10.12264/JFSC2023-0351

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