渔业科学进展
漁業科學進展
어업과학진전
MARINE FISHERIES RESEARCH
2014年
6期
53-59
,共7页
甘露寡糖%半滑舌鳎%生长%肠道发育%非特异性免疫
甘露寡糖%半滑舌鰨%生長%腸道髮育%非特異性免疫
감로과당%반활설탑%생장%장도발육%비특이성면역
Mannan oligosaccharide%Cynoglossus semilaevis Günther%Growth%Intestinal develop-ment%Non-specific immunity
通过投喂经甘露寡糖强化的卤虫无节幼体,探索其对半滑舌鳎稚鱼(初始体长为1.4 cm左右)生长性能、肠道发育和非特异性免疫水平的影响。试验设两个处理组(对照组和甘露寡糖组),分别投喂经裂壶藻或甘露寡糖+裂壶藻强化的卤虫无节幼体。试验进行34 d,每17 d取样1次。结果显示,17 d时甘露寡糖组体长显著大于对照组(P<0.05)。两组间的特定生长率和存活率无显著性差异(P>0.05)。RNA/DNA和protein/DNA的比值在17 d时两组间均无显著性差异(P>0.05);34 d时甘露寡糖组的RNA/DNA和protein/DNA比值均大于对照组。甘露寡糖组17 d时淀粉酶比活力和34 d时胰蛋白酶比活力显著高于对照组(P<0.05)。甘露寡糖组的过氧化物歧化酶、过氧化氢酶、过氧化物酶和溶菌酶活性均显著高于对照组(P<0.05)。甘露寡糖组的微绒毛长度和皱襞高度显著大于对照组(P<0.05);黏膜厚度大于对照组,但无显著性差异(P>0.05)。试验结果表明,甘露寡糖可以提高半滑舌鳎稚鱼肠道发育和非特异性免疫水平。
通過投餵經甘露寡糖彊化的滷蟲無節幼體,探索其對半滑舌鰨稚魚(初始體長為1.4 cm左右)生長性能、腸道髮育和非特異性免疫水平的影響。試驗設兩箇處理組(對照組和甘露寡糖組),分彆投餵經裂壺藻或甘露寡糖+裂壺藻彊化的滷蟲無節幼體。試驗進行34 d,每17 d取樣1次。結果顯示,17 d時甘露寡糖組體長顯著大于對照組(P<0.05)。兩組間的特定生長率和存活率無顯著性差異(P>0.05)。RNA/DNA和protein/DNA的比值在17 d時兩組間均無顯著性差異(P>0.05);34 d時甘露寡糖組的RNA/DNA和protein/DNA比值均大于對照組。甘露寡糖組17 d時澱粉酶比活力和34 d時胰蛋白酶比活力顯著高于對照組(P<0.05)。甘露寡糖組的過氧化物歧化酶、過氧化氫酶、過氧化物酶和溶菌酶活性均顯著高于對照組(P<0.05)。甘露寡糖組的微絨毛長度和皺襞高度顯著大于對照組(P<0.05);黏膜厚度大于對照組,但無顯著性差異(P>0.05)。試驗結果錶明,甘露寡糖可以提高半滑舌鰨稚魚腸道髮育和非特異性免疫水平。
통과투위경감로과당강화적서충무절유체,탐색기대반활설탑치어(초시체장위1.4 cm좌우)생장성능、장도발육화비특이성면역수평적영향。시험설량개처리조(대조조화감로과당조),분별투위경렬호조혹감로과당+렬호조강화적서충무절유체。시험진행34 d,매17 d취양1차。결과현시,17 d시감로과당조체장현저대우대조조(P<0.05)。량조간적특정생장솔화존활솔무현저성차이(P>0.05)。RNA/DNA화protein/DNA적비치재17 d시량조간균무현저성차이(P>0.05);34 d시감로과당조적RNA/DNA화protein/DNA비치균대우대조조。감로과당조17 d시정분매비활력화34 d시이단백매비활력현저고우대조조(P<0.05)。감로과당조적과양화물기화매、과양화경매、과양화물매화용균매활성균현저고우대조조(P<0.05)。감로과당조적미융모장도화추벽고도현저대우대조조(P<0.05);점막후도대우대조조,단무현저성차이(P>0.05)。시험결과표명,감로과당가이제고반활설탑치어장도발육화비특이성면역수평。
Mannan oligosaccharide (MOS) could promote the growth, intestinal development and non-specific immune index of some marine fishes; however, the role of MOS in the Cynoglossus semilaevis Günther postlarvae is unclear. The tongue sole postlarvae with initial length about 1.4 cm were fed Artemia, enriched by Schizochytrium with the addition (MOS group) or absence of MOS (control group) to study the effects of MOS on the growth, intestinal development and non-specific immunity. The experiments lasted for 34 days, and the samples were collected at day 17 and day 34. The results indicated that MOS significantly enhanced the body length at day 17 but it did not reach a significant effect at day 34. The MOS did not affect the growth and survival rate at both day 17 and day 34. MOS did not have a significant function on the ratios of RNA/DNA and protein/DNA at day 17 but it had a significant effect at day 34. MOS dramatically increased the amylase specific activity at day 17 and enhanced trypsin specific activity at day 34. At the end of the experiment, the superoxide dismutase, catalase, peroxidase and lysozyme activities in the MOS group were significantly higher than those of the control group (P<0.05), but the nitric oxide synthase activity was not significantly different (P>0.05) between the two groups. The microvilli length and the fold highness of the MOS group were significantly greater compared with the control group (P<0.05); the mucosal thickness between the two groups were not significantly different (P>0.05). These results indicated that MOS could improve the intestinal development and non-specific immunity of Cynoglossus semilaevis Günther postlarvae.
