Microencapsulated Forage for Silurus lanzhouensis Larvae and Juvenile Aquaculture
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摘要:
目的 为解决兰州鲇(Silurus lanzhouensis)产业发展中面临的仔稚鱼培育饵料制约问题,开展微囊饲料对兰州鲇仔稚鱼驯食转化、生长发育和酶活性的影响研究。 方法 首先将驯养培育兰州鲇稚鱼分为微囊饲料组(WW)、微囊饲料+水丝蚓组(WL)及水丝蚓(Limnodrilus)组(LL)3个处理组,进行为期30 d的驯养培育稚鱼试验,通过记录稚鱼死亡数量、测量体重、体长等生长指标,探讨微囊饲料对兰州鲇稚鱼存活、生长的影响;以此为基础开展为期115 d微囊饲料(WW)与肉糜(RR)2个处理组驯养兰州鲇幼鱼试验,通过测定试验幼鱼体重、体长等生长指标,以及消化系统不同组织中脂肪酶、淀粉酶及胃蛋白酶活性,探讨微囊饲料对兰州鲇幼鱼生长、代谢的影响。 结果 (1)微囊饲料培育兰州鲇稚鱼,驯食转化率不及水丝蚓,但成活率最高,达(94.3±0.9)%,且与其余两组差异显著(P < 0.05),微囊饲料+水丝蚓组(WL)仔鲇体重增长最快(P<0.05);水丝蚓组(LL)组仔鲇体重特定生长率(SGR)和绝对生长率(AGR)均显著低于微囊饲料组(WW)组和微囊饲料+水丝蚓组(WL)组。(2)微囊饲料培育兰州鲇幼鱼,可显著促进生长,且组间差异显著(P<0.05);除中肠、后肠和胃组织中胃蛋白酶活性组间差异不显著外,投喂微囊饲料组的其他组织中的脂肪酶、淀粉酶及胃蛋白酶活性均显著高于投喂鱼糜组的(P<0.05)。 结论 微囊饲料可促进兰州鲇稚幼鱼生长发育,且规格较为整齐。因此,微囊饲料在兰州鲇养殖产业发展中具有重要的应用价值,进一步研究并推广将对兰州鲇养殖产业发展发挥重要支撑作用。 Abstract:Objective A microencapsulated forage was evaluated to replace live worms for feeding at early development stage of the carnivorous Lanzhou catfish (Silurus lanzhouensis Chen) based on the resulting larval weaning, juvenile growth, and enzyme activities in digestive tracts. Method Two experiments were conducted with the microencapsulated forage (MF) introduced to the fish at different ages. In the first experiment, 3 groups of randomly divided catfish larvae were fed with either MF (WW), a combination of MF and live worms (WL) or live preys (LL). Larval survive rate and growth in 30 d were monitored following the feeding. The second experiment examined the effects of WW versus minced meat (RR) for feed on the growth and metabolism of the juveniles for 115 d. Result (1) Domesticating the fish in the WW group was significantly the least effective among all. However, the survival rate of (94.3±0.9)% on the fish fed with WW was significantly higher than the other two forages (P <0.05). And the body weight increase of the catfish in the WL group were the fastest (P <0.05). Significant differences in SGR and AGR of LL group were observed compared with the other two treatments (P <0.05) . (2) MF appeared to significantly promote the growth from larval to juvenile stage of the catfish. There were significant differences on the performances by the different forages (P <0.05). Except for no difference between 2 treatments for the enzymatic activities of pepsin in the midgut, hindgut and stomach, the enzymatic activities of lipase, amylase, and pepsin in the pancreas, stomach, foregut, midgut, and hindgut of the fish tended to be higher in the WW group fed on WF than on RR. Conclusion MF significantly improved the growth and maintain a relatively uniform size of catfish at early development stages. The use of MF for catfish aquaculture was highly recommended. -
Key words:
- Silurus lanzhouensis /
- larval fish /
- juvenile fish /
- microencapsulated forage /
- growth
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图 3 不同生长时间点稚鲇鱼体重
Figure 3. Body weight of Lanzhou catfish larvae in treatment groups at different growth stages
表 1 兰州鲇稚鱼驯食转化结果(n=200)
Table 1. Feed domestication of Lanzhou catfish larvae(n=200)
处理组
Group摄食率
Feeding rate/%成活率
Survival ratio/%肥满度
Fatness/
(g·cm−3)变异系数
CV/%WW 88.2±2.7 b 94.3±0.9 a 0.87±0.16 a 5.67±0.85 c WL 89.7±2.5 b 83.4±4.4 c 0.86±0.15 a 8.43±0.93 b LL 98.4±4.4 a 86.8±2.5 b 0.85±0.16 a 10.02±0.90 a 注:同列数据后小写字母不同表示差异显著(P<0.05)。表2~4同。
Note: Means with different letters on same column indicate significant difference(P<0.05). The same as Table 2–4.
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表 2 兰州鲇稚鱼生长性能比较(n=200)
Table 2. Growth performance of Lanzhou catfish larvae in 3 treatment groups(n=200)
处理组
Group特定生长率
SGR/(%·d−1)绝对生长率
AGR/(g·d−1)WW 0.457 6±0.015 5 a 0.069 0±0.016 4 a WL 0.468 7±0.019 1 a 0.072 9±0.019 8 a LL 0.447 7±0.018 5 b 0.056 9±0.014 3 b
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表 3 不同饵料驯养兰州鲇幼鱼生长性状分析(n=10)
Table 3. Growth traits of Lanzhou catfish juveniles fed on various forages
处理组
Group体重
Body weight/g全长
Total length/cm头长
Head length/cm体高
Body height/cm尾柄长
Caudal peduncle length/cmRR 40.33±8.50 b 18.28±1.53 b 3.48±0.28 b 2.30±0.18 b 1.53±0.09 b WW 73.28±32.80 a 25.00±3.06 a 4.38±0.46 a 3.00±0.36 a 2.68±0.33 a
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表 4 不同饵料驯养兰州鲇幼鱼不同组织酶活性分析(n=3)
Table 4. Activities of digestive enzymes in digestive tracts of Lanzhou catfish juveniles fed on various forages(n=3)
组织
Tissue处理组
Group淀粉酶
Amylase/(U·L−1)胃蛋白酶
Pepsin/(U·L−1)脂肪酶
Lipase/(U·L−1)前肠 Foregut RR 1.64±0.06 b 1.12±0.09 b 0.88±0.11 b WW 1.82±0.15 a 1.33±0.04 a 1.41±0.19 a 中肠 Midgut RR 1.56±0.08 b 1.53±0.27 a 0.68±0.04 b WW 1.75±0.25 a 1.15±0.11 a 1.20±0.18 a 后肠 Hindgut RR 1.60±0.10 b 1.26±0.08 a 0.66±0.04 b WW 1.75±0.16 a 1.21±0.13 a 1.19±0.20 a 胰脏 Pancreas RR 1.47±0.09 b 1.09±0.12 b 0.71±0.04 b WW 2.10±0.25 a 1.37±0.08 a 1.40±0.36 a 胃 Stomach RR 1.28±0.11 b 1.16±0.13 a 0.77±0.03 b WW 2.18±0.13 a 0.93±0.16 a 0.85±0.10 a
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[1] 吴旭东, 张奇, 赵红雪, 等. 宁夏鲇属鱼类一新纪录种:兰州鲇形态学特征描述 [J]. 淡水渔业, 2006, 36(3):26−29. doi: 10.3969/j.issn.1000-6907.2006.03.005WU X D, ZHANG Q, ZHAO H X, et al. A new species of catfish in ningxia: Silurus lanzhouensis and it's intensive morphological description [J]. Freshwater Fisheries, 2006, 36(3): 26−29.(in Chinese) doi: 10.3969/j.issn.1000-6907.2006.03.005 [2] 陈湘粦. 我国鲶科鱼类的总述 [J]. 水生生物学集刊, 1977, 1(2):197−218.CHEN X L. A review of the Chinese Siluridea [J]. Acta Hydrobiologica Sinica, 1977, 1(2): 197−218.(in Chinese) [3] 史丽娜, 张奇, 吴旭东, 等. 兰州鲇个体繁殖力的研究 [J]. 甘肃农业大学学报, 2008, 43(1):67−70. doi: 10.3969/j.issn.1003-4315.2008.01.014SHI L N, ZHANG Q, WU X D, et al. Individual fertility of the Silurus lanzhouensis [J]. Journal of Gansu Agricultural University, 2008, 43(1): 67−70.(in Chinese) doi: 10.3969/j.issn.1003-4315.2008.01.014 [4] 肖伟, 侯玉霞, 蔡原, 等. 基于线粒体细胞色素b基因的3个兰州鲇群体的遗传多样性分析 [J]. 甘肃农业大学学报, 2011, 46(2):11−16. doi: 10.3969/j.issn.1003-4315.2011.02.003XIAO W, HOU Y X, CAI Y, et al. Genetic diversity analysis of three groups of Silurus lanzhouensis based on mitochondrial DNA cytochrome b gene sequences [J]. Journal of Gansu Agricultural University, 2011, 46(2): 11−16.(in Chinese) doi: 10.3969/j.issn.1003-4315.2011.02.003 [5] 吴旭东, 连总强, 侯玉霞, 等. 大口鲇微卫星标记在三个鲇形目鱼类种群间适用性研究 [J]. 水生生物学报, 2011, 35(4):638−645.WU X D, LIAN Z Q, HOU Y X, et al. Application analysis of microsatellite markers from Silurus meriaionalis on three species of Siluriformes [J]. Acta Hydrobiologica Sinica, 2011, 35(4): 638−645.(in Chinese) [6] 魏大为, 连总强, 吴旭东, 等. 磁珠富集法筛选兰州鲇微卫星分子标记 [J]. 水生生物学报, 2014, 38(4):791−796. doi: 10.7541/2014.110WEI D W, LIAN Z Q, WU X D, et al. Microsatellite enrichment by magnetic beads in Silurus lanzhouensis [J]. Acta Hydrobiologica Sinica, 2014, 38(4): 791−796.(in Chinese) doi: 10.7541/2014.110 [7] 赛清云, 王远吉, 吴旭东, 等. 黄河鲇幼鱼对饲料蛋白和能量需要的初步研究 [J]. 淡水渔业, 2012, 42(4):53−58. doi: 10.3969/j.issn.1000-6907.2012.04.010SAI Q Y, WANG Y J, WU X D, et al. Preliminary studies on dietary protein and energy requirement of juvenileSilurus lanzhouensis [J]. Freshwater Fisheries, 2012, 42(4): 53−58.(in Chinese) doi: 10.3969/j.issn.1000-6907.2012.04.010 [8] MA Q, LI L Y, LE J Y, et al. Dietary microencapsulated oil improves immune function and intestinal health in Nile tilapia fed with high-fat diet [J]. Aquaculture, 2018, 496: 19−29. doi: 10.1016/j.aquaculture.2018.06.080 [9] MARTINS G, DIOGO P, SANTOS T, et al. Microdiet formulation with phospholipid modulate zebrafish skeletal development and reproduction [J]. Zebrafish, 2020, 17(1): 27−37. doi: 10.1089/zeb.2019.1794 [10] HAUVILLE M R, ZAMBONINO-INFANTE J L, BELL G, et al. Impacts of three different microdiets on Florida Pompano(Trachinotus carolinus)weaning success, growth, fatty acid incorporation and enzyme activity [J]. Aquaculture, 2014, 422/423: 268−276. doi: 10.1016/j.aquaculture.2013.12.006 [11] MURRAY H M, LALL S P, RAJASELVAM R, et al. Effect of early introduction of microencapsulated diet to larval Atlantic halibut(Hippoglossus hippoglossus L.) assessed by microarray analysis [J]. Marine Biotechnology, 2010, 12(2): 214−229. doi: 10.1007/s10126-009-9211-4 [12] 姜巨峰, 韩现芹, 傅志茹, 等. 雌雄鲶鱼肌肉和皮肤主要营养成分的比较分析 [J]. 集美大学学报(自然科学版), 2012, 17(1):6−12.JIANG J F, HAN X Q, FU Z R, et al. Comparative analysis of the main nutritional components in muscle and skin of male and female Silurus asotus [J]. Journal of Jimei University(Natural Science), 2012, 17(1): 6−12.(in Chinese) [13] 赵红雪, 吴旭东, 李力, 等. 饥饿对兰州鲇仔鱼摄食和生长的影响 [J]. 农业科学研究, 2010, 31(4):19−23. doi: 10.3969/j.issn.1673-0747.2010.04.005ZHAO H X, WU X D, LI L, et al. Effects of starvation on feeding and growth of Silurus lanzhou larvae [J]. Journal of Agricultural Sciences, 2010, 31(4): 19−23.(in Chinese) doi: 10.3969/j.issn.1673-0747.2010.04.005 [14] 许时婴. 微胶囊技术:原理与应用 [M]. 北京: 化学工业出版社, 2006: 144-150. [15] 谢中国, 王芙蓉, 刘海英, 等. 海水仔稚鱼微粒饲料微观形态和水中稳定性的比较研究 [J]. 中国海洋大学学报(自然科学版), 2013, 43(3):55−61.XIE Z G, WANG F R, LIU H Y, et al. Comparative study on the microscopic morphology and water stability of marine fish larvae diets produced with different methods [J]. Periodical of Ocean University of China, 2013, 43(3): 55−61.(in Chinese) [16] FERNÁNDEZ-DÍAZ C, YÚFERA M. Detecting growth in gilthead seabream(Sparus aurata L.)larvae fed microcapsules [J]. Aquaculture, 1997, 153(1/2): 93−102. [17] YÚFERA M, PASCUAL E, FERNÁNDEZ-Dı?AZ C. A highly efficient microencapsulated food for rearing early larvae of marine fish [J]. Aquaculture, 1999, 177(1/2/3/4): 249−256. [18] WALFORD J, LIM T M, LAM T J. Replacing live foods with microencapsulated diets in the rearing of seabass (Lates calcarifer) larvae: do the larvae ingest and digest protein-membrane microcapsules? [J]. Aquaculture, 1991, 92: 225−235. doi: 10.1016/0044-8486(91)90024-2 -
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