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41.
土霉素在斑节对虾体内药代动力学和生物利用度 总被引:2,自引:0,他引:2
在自然海水(盐度33).水温为(28.0±1.0)℃养殖条件下,采用反相高效液相色谱法(RP—HPLC),研究口灌(100mg/kg)和围心腔注射(20mg/kg)2种给药途径下,土霉素在斑节对虾(Penaeus7YlOylodoYl)体内的药代动力学和生物利用度。围心腔注射和口灌给药下,血药药时曲线均适合采用二室模型拟合。围心腔注射下血药达峰浓度(Cmax)、药时曲线下面积(AUC0-1)、消除半衰期(t,m)分别为(80.71±13.12)mg/L 378.25nag·h·L-1、17.398h;口灌给药下的相应值分别为(21.98±3.32)mg/I。324.52nag·h·L-1、23.372h,土霉素在斑节对虾体内的生物利用度(F)为17.16%。口灌土霉素后,肝胰腺Cmax为(138.655±21.375)μg/g,是血药的6.3倍、肌肉峰浓度的130.2倍,药物在肝胰腺中含量最高;然而。肌肉和肝胰腺中土霉素消除较快,消除半衰期(t1/2x)分别为28.18h和19.311 h。根据我国水产品中药物残留限量规定,水产品中土霉素的最高残留限量(NY5070—2002)为0.1mg/kg,结合本试验研究结果,斑节对虾使用土霉素后的休药期为5d,肌肉可食组织即符合无公害食品标准要求。 相似文献
42.
复方中草药饲喂时间对凡纳滨对虾消化和免疫酶活性的影响 总被引:2,自引:0,他引:2
配制4组饲料,饲料中复方中草药的添加量分别为0%(对照组)、0.1%、0.2%和0.4%,每组3个重复,连续投喂凡纳滨对虾21 d,每7 d采样检测肝脏和肠道消化酶及血清免疫酶活性的变化。实验结果表明,实验组消化酶活性基本都高于对照组,随着时间的变化呈波动趋势,0.4%组的肝蛋白酶和肠蛋白酶第7 d时最高(P<0.05);肝淀粉酶指标出现逐渐下降的趋势,而肠淀粉酶呈逐渐上升的趋势,0.2%组的肠淀粉酶活性在第7 d显著增高(P<0.05)。0.2%组的超氧化物歧化酶(SOD)在第14 d最高(P<0.05);过氧化物酶(POD)指标变化不明显。因此,阶段性投喂中草药对凡纳滨对虾消化酶和免疫酶有一定的促进作用,能提高对虾的消化和免疫能力。 相似文献
43.
44.
通过检测注入斑节对虾(Penaeus monodon)血淋巴内的鳗弧菌(Vibrio anguillarumH)浓度、血淋巴细胞浓度和血淋巴细胞的组成变化,研究斑节对虾血淋巴细胞对进入体内细菌的清除作用。实验显示,斑节对虾能够迅速清除注入其体内的鳗弧菌。注射鳗弧菌悬液(107~108CFU/mL)5 min后,血淋巴中可检测到的鳗弧菌浓度是(1.4±0.6)×106CFU/mL,而2 h后所检测到的鳗弧菌的浓度仅相当于前者的3.1%。7天后,仅在部分个体的血淋巴中检测到少量鳗弧菌。伴随着血淋巴液内鳗弧菌的减少,对虾的血淋巴细胞浓度发生变化。鳗弧菌注入对虾体内5 min后,血淋巴细胞浓度为(3.51±1.69)×107/mL,注射后2 h时达到最低值,为(2.39±1.76)×107/mL,然后逐步恢复,注射后48 h达到(3.97±1.60)×107/mL。对照组血淋巴细胞浓度起初略微降低,然后逐步增加,在2 h达到最大值后又逐渐降低;除注射后48 h外,对照组血淋巴细胞浓度始终高于实验组。鳗弧菌注射入斑节对虾体内后,不同的细胞种类呈现出不同的变化规律:在注射后2 h,对照组透明细胞占总细胞数的比例显著高于实验组,对照组半颗粒细胞的含量低于实验组。注射鳗弧菌后10 min,血淋巴中颗粒细胞的相对含量显著降低,此时实验组的颗粒细胞相对含量也低于对照组。而对于降解细胞细胞核的相对含量,实验组和对照组表现出了显著不同的变化趋势。在对照组中,24 h内其含量一直在降低,而后恢复;而对照组却在注射10 min时达到最高值,而后遵循对照组类似的变化。[中国水产科学,2006,13(1):28-32] 相似文献
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46.
A 10‐week feeding experiment was conducted to evaluate the effect of different protein to energy ratios on growth and body composition of juvenile Litopenaeus vannamei (initial average weight of 0.09 ± 0.002 g, mean ± SE). Twelve practical test diets were formulated to contain four protein levels (300, 340, 380 and 420 g kg?1) and three lipid levels (50, 75 and 100 g kg?1). Each diet was randomly fed to triplicate groups of 30 shrimps per tank (260 L). The water temperature was 28.5 ± 2 °C and the salinity was 28 ± 1 g L?1 during the experimental period. The results showed that the growth was significantly (P < 0.05) affected by dietary treatments. Shrimps fed the diets containing 300 g kg?1 protein showed the poorest growth. However, shrimp fed the 75 g kg?1 lipid diets had only slightly higher growth than that fed 50 g kg?1 lipid diets at the same dietary protein level, and even a little decline in growth with the further increase of dietary lipid to 100 g kg?1. Shrimp fed the diet with 420 g kg?1protein and 75 g kg?1 lipid had the highest specific growth rate. However, shrimp fed the diet with 340 g kg?1 protein and 75 g kg?1 lipid showed comparable growth, and had the highest protein efficiency ratio, energy retention and feed efficiency ratio among dietary treatments. Triglycerides and total cholesterol in the serum of shrimp increased with increasing dietary lipid level at the same dietary protein level. Body lipid and energy increased with increasing dietary lipid level irrespective of dietary protein. Results of the present study showed that the diet containing 340 g kg?1 protein and 75 g kg?1 lipid with digestible protein/digestible energy of 21.1 mg kJ?1 is optimum for L. vannamei, and the increase of dietary lipid level has not efficient protein‐sparing effect. 相似文献
47.
48.
饥饿对凡纳滨对虾能量代谢及脂肪酸组分的影响 总被引:1,自引:0,他引:1
试验考察了喂食与禁食状态下,凡纳滨对虾(Litopenaeus vannamei)的生长及其肌肉脂肪酸组成的变化。试验虾初始重为0.2627~0.2715g,水体盐度10,温度为27~30℃。喂食采用蛋白饲料(PD)和无蛋白饲料(FPD),蛋白饲料主要以酪蛋白、明胶为蛋白源,蛋白质含量为43.8%。喂食试验为30d,禁食试验为15d。结果表明,经15d的禁食,凡纳滨对虾幼虾日增重率为-1.85%,成活率为53.33%。饥饿状态下,蛋白质和脂肪是凡纳滨对虾的主要能源物质,且以蛋白质为主。饲喂蛋白质饲料组,虾体肌肉脂质中C18∶2n-6、C18∶3n-3、C20∶4n-6和C22∶6n-3(DHA)的含量明显升高(P<0.05)。禁食(ND)状态下,C18∶2n-6、C20∶5n-3和C22∶4n-6得到保留,而C18∶3n-3、C22∶6n-3的含量明显减少(P<0.05),特别是C22∶6n-3消耗后所剩无几。g 相似文献
49.
Larval pigmentation, survival and growth of Penaeus indicus fed the nematode Panagrellus redivivus enriched with astaxanthin and various lipids 总被引:1,自引:0,他引:1
The highly unsaturated fatty acid (HUFA) content of the free-living nematode Panagrellus redivivus was successfully increased when three different lipid sources (cod-liver oil, marilla oil and capelin oil) from marine animals were used in the nematode culture medium. The lipid enrichment significantly increased the ω3 HUFA content, particularly eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), of the nematodes compared with lipid non-enriched nematodes. Penaeus indicus larvae fed the lipid-enriched nematodes had significantly ( P < 0.05) greater larval survival (69–77%) until metamorphosis than those fed non-enriched nematodes (54%).
This nematode species was also enriched with astaxanthin to determine the effects of this carotenoid on pigmentation, survival and growth during the larval development of P. indicus . The pigment, delivered via nematodes, significantly ( P < 0.05) improved larval coloration and survival (88%) compared with that of placebo-pigmented nematodes (78%). However, there was no strong evidence to show the benefit of either pigment and/or lipid enrichment on larval growth and development of P. indicus .
This study has shown that the nutritional value of the nematodes can be enhanced by the addition of fish oil into the culture medium. Supplementation of EPA and DHA, together with synthetic astaxanthin, allow the nematodes to be used as a sole diet for the larval culture of P. indicus . 相似文献
This nematode species was also enriched with astaxanthin to determine the effects of this carotenoid on pigmentation, survival and growth during the larval development of P. indicus . The pigment, delivered via nematodes, significantly ( P < 0.05) improved larval coloration and survival (88%) compared with that of placebo-pigmented nematodes (78%). However, there was no strong evidence to show the benefit of either pigment and/or lipid enrichment on larval growth and development of P. indicus .
This study has shown that the nutritional value of the nematodes can be enhanced by the addition of fish oil into the culture medium. Supplementation of EPA and DHA, together with synthetic astaxanthin, allow the nematodes to be used as a sole diet for the larval culture of P. indicus . 相似文献
50.