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以异育银鲫为试验对象,在实用饲料中按照L9(34)正交设计方案补充Fe、Cu、Mn、Zn,经过60 d养殖后,分析鱼体器官、组织与饲料中Fe、Cu、Mn、Zn 4种微量元素的含量、相互比例的相关性。试验结果表明,Fe、Cu、Mn、Zn在鱼体各器官、组织中具有明显的分布特征:鳍中的Fe、Mn、Zn,头骨中的Cu、Mn、Zn,心脏、肝胰脏、脊椎骨中的Fe、Cu,全鱼Cu、Zn,脾中Cu、Mn,肾脏中Mn、Zn,肌肉、卵、肠中Cu,鳃骨中的Zn,鳞中的Mn受饲料中相应元素供给量的影响很大;鱼体器官、组织中Fe、Cu、Mn、Zn比例模式有3种基本类型,脾、肌肉、脑、心脏、肾脏和全鱼属于Fe比例高的类型(称为高Fe型),与饲料中的Fe、Cu、Mn、Zn比例模式非常相近,具有显著的相关性;脊椎骨、鳃骨、肠、头骨和鳍中Fe、Zn两者比例比较接近,属于Fe、Zn比较高的类型(称为高Fe、高Zn型),而鳞和卵属于Zn比例高的类型(高Zn型),这两类类型的Fe、Cu、Mn、Zn比例与饲料中比例模式相关性差。 相似文献
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微量元素Cu、Fe、Zn、Mn是影响人和动物营养的重要因素。世界上有些组织(如德国DLG、英国ARC、美国NRC)一直致力于研究蛋鸡Cu、Fe、Zn、Mn的需要量。NRC(1994)推荐的蛋鸡产蛋期微量元素需要量为:Cu未定,Fe为45mg/kg,Zn为35mg/kg,Mn为20mg/kg。为了提高动物生产性能,现代养殖通常在动物基础日粮中添加高剂量Cu、Fe、Zn、Mn。Mabe等(2003)报道,在玉米-豆粕型日粮中添加Zn60mg/kg、Mn60mg/kg和Cu10mg/kg,可提高蛋黄中Zn、Mn、Cu的浓度;高剂量的铜可降低鸡肉和鸡蛋中胆固醇浓度(Bakalli和Pesti,1995;Pesti和Bakalli,1998;尹靖东… 相似文献
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为明确氮素运筹对皖草2号和墨西哥玉米吸收矿质元素的影响,本研究分析了两者茎、叶及整株的Fe、Mn、Cu、Zn元素含量、累积量以及产量的变化情况。结果表明,皖草2号和墨西哥玉米植株中,Fe的含量最高,且叶片中的Fe含量明显高于茎;皖草2号的Mn、Cu、Zn含量高于或显著高于墨西哥玉米,但Fe含量显著低于墨西哥玉米。不同氮素运筹比较,一次性施肥处理中,2种牧草均以300 kg/hm2(N1)处理的Fe含量最高;而分次施肥处理中,Fe含量有随施氮量的增加而增加的趋势;皖草2号的Mn含量以N1处理最高,Cu、Zn含量以低施氮量处理较高;而墨西哥玉米的Mn含量随施氮量的增加而增加,Cu、Zn含量均以底肥一次性施入的含量较高。N1处理的Fe、Mn、Cu、Zn累积量和产量最高,且墨西哥玉米的累积量和产量显著高于皖草2号。不同器官中4种元素的累积量和产量不同,皖草2号叶片中Fe的累积量和产量高于茎,而Mn、Cu、Zn的累积量和产量低于茎;墨西哥玉米叶片中Fe、Mn、Cu、Zn的累积量和产量均显著高于茎。刈割次数对2种牧草吸收4种元素的影响也不同,皖草2号的 Fe、Mn、Zn含量以头茬草最高,而Cu 含量以第3次刈割草的含量最高;墨西哥玉米则以头茬草的Mn、Cu含量和第3次刈割草的Zn含量最高。2种牧草再生草中4种元素的累积速率表现为Fe>Mn>Zn>Cu,且均呈逐渐下降的趋势,墨西哥玉米的降低幅度大于皖草2号。综合分析认为,生产上选择皖草2号牧草类型,采取一次性施入氮肥300 kg/hm2的管理措施,可以获得矿质营养较高的优质牧草,且要重视头茬草的产量。 相似文献
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外源硒对绵羊孕期体内硒、铜、锌的影响 总被引:1,自引:1,他引:0
比较研究在相同的饲养管理条件下,孕期补硒对不同品种绵羊血清中硒(Se)、铜(Cu)、锌(Zn)含量的影响。以处于怀孕期的85只蒙古羊、道赛特羊和萨福克羊为研究对象,通过荧光分光光度法测定Se含量、原子吸收法测定Cu、Zn含量。结果显示,补Se各品种羊从怀孕3个月起血清Se含量显著高于未补硒同品种羊(P<0.05),补Se与未补Se同品种羊血清Zn含量在各期差异不显著(P>0.05),补Se与未补Se蒙古羊血清Cu含量各期差异不显著(P>0.05)。结果表明,Se与Cu、Zn不具有颉颃作用,说明补Se对母体维持正常妊娠和增强抗病性功能具有重要作用。 相似文献
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《饲料工业》2019,(18):54-58
应用电感耦合等离子-质谱技术(ICP-MS),建立饲料中钠、镁、铬、锰、铁、铜、锌、砷、硒、镉和铅等元素的测定方法。对饲料样品的前处理方法、仪器工作参数和11种元素标准曲线进行优化;并以加标回收、分析方法比对和重复测试说明方法的准确性和精密性。方法在0~1 000 ng/ml范围内线性良好,仪器检出限为0.557 7~5.072 ng/ml,具有良好的精密度,其回收率在88.1%~104.4%之间,相对标准偏差小于5.0%。同时与原子吸收和原子荧光方法进行比对,测定结果相近。所建立的方法简单、快速,可替代原子吸收和原子荧光方法测定饲料中的11种金属元素,为饲料的质量控制提供理想的元素分析方法。 相似文献
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In experiment 1, 6 pregnant mares received a concentrate that contained a trace mineral premix that provided 14.3 mg Cu, 40 mg Zn, 28 mg Fe, 28 mg Mn, 0.08 mg Co, 0.16 mg I, and 0.16 mg Se/kg concentrate (group A). Seven mares received the same concentrate plus 502 mg Zn and 127 mg Cu once daily (group B). No differences (P > .05) in foal growth data, or Cu, Zn, and Fe concentrations of mare milk, mare serum, or foal serum were observed. In experiment 2, 6 pregnant mares received the same concentrate as group A (group C), and 8 mares received the same concentrate fortified with 4× the trace mineral premix (group D). Group C mares had higher serum Zn concentration at 1 day (P < 0.01) and 56 days (P < 0.04). Group C mares had higher milk Fe concentration at 28 days (P < .01), and group D mares had higher milk Cu concentration at 56 days (P < .01). Group C foals had higher serum Cu concentration at 14 days (P < .03). The results from this study provide no evidence to indicate that supplementing late gestating and lactating mares with higher dietary trace mineral levels than those recommended currently by NRC has any influence on foal growth and development, or on the Cu, Zn, and Fe concentrations of the mare milk, mare serum, or foal serum. 相似文献
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Breed differences for weight (CW), height (CH), and condition score (CS) were estimated from records (n = 12,188) of 2- to 6-yr-old cows (n = 744) from Cycle IV of the U.S. Meat Animal Research Center's Germplasm Evaluation (GPE) Program. Cows were produced from mating Angus and Hereford dams to Angus, Hereford, Charolais, Shorthorn, Galloway, Longhorn, Nellore, Piedmontese, and Salers sires. Samples of Angus and Hereford sires were 1) reference sires born from 1962 through 1970 and 2) 1980s sires born in 1980 through 1987. The mixed model included cow age, season of measurement and their interactions, year of birth, pregnancy-lactation code (PL), and breedgroup as fixed effects for CW and CS. Analyses of weight adjusted for condition score included CS as a linear covariate. The model for CH excluded PL. Random effects were additive genetic and permanent environmental effects associated with the cow. Differences among breed groups were significant (P < 0.05) for all traits and were maintained through maturity with few interchanges in ranking. The order of F1 cows for weight was as follows: Charolais (506 to 635 kg for different ages), Shorthorn and Salers, reciprocal Hereford-Angus (HA) with 1980s sires, Nellore, HA with reference sires, Galloway, Piedmontese, and Longhorn (412 to 525 kg for different ages). Order for height was as follows: Nellore (136 to 140 cm), Charolais, Shorthorn, Salers, HA with 1980s sires, Piedmontese, Longhorn, Galloway and HA with reference sires (126 to 128 cm). Hereford and Angus cows with reference sires were generally lighter than those with 1980s sires. In general, breed differences for height followed those for weight except that F1 Nellore cows were tallest, which may in part be due to Bos taurus-Bos indicus heterosis for size. 相似文献
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液相色谱-串联质谱法测定动物尿液中11种β-受体激动剂残留量的不确定度评估 总被引:1,自引:1,他引:0
采用液相色谱-串联质谱法测定动物尿液中11种β-受体激动剂残留量,对标准溶液、体积、质谱峰面积、浓缩过程及回收率等测定不确定度因素进行了分析,通过评定各不确定度分量及标准不确定度,得出11种β-受体激动剂的扩展不确定度在0.7 ~ 1.1 ng/mL范围内.由各因素对合成不确定度的贡献比分析可知,影响较大的因素为试验回收率及标准溶液浓度. 相似文献
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