Gowanlock D W, Mahan D C, Jolliff J S, Hill G M
J Anim Sci. 2015 Mar;93(3):1149-56. doi: 10.2527/jas.2014-8173.
Graded levels of a trace mineral premix containing an organic (Bioplex) source of Cu, Fe, Mn, and Zn was evaluated with additional treatments containing organic Zn or Fe. Grower-finisher pigs were fed from 25 to 115 kg BW. The number of pigs in the experiment, the breeding/genetics of the pigs, the management, and the average age of the pigs were previously reported. The experiment was conducted as a randomized complete block design in 7 replicates. Treatments were 1) basal diet without supplemental Cu, Fe, Mn, and Zn; 2) basal diet + 2.5 mg/kg Cu, 50 mg/kg Fe, 1.5 mg/kg Mn, and 40 mg/kg Zn (50% NRC); 3) basal diet + 5 mg/kg Cu, 100 mg/kg Fe, 3 mg/kg Mn, and 80 mg/kg Zn (100% NRC); 4) basal diet + 25 mg Zn/kg; 5) basal diet + 50 mg Zn/kg; and 6) basal diet + 50 mg Fe/kg. Selenium and I were added to all diets at 0.3 and 0.14 mg/kg, respectively. Diets were composed of corn-soybean meal, dicalcium phosphate, and limestone with phytase added to enhance mineral availability. Three pigs per pen were bled at 55, 80, and 115 kg BW and plasma was analyzed for microminerals. When the average replicate BW was 115 kg, 3 pigs per pen of an equal gender ratio were killed. The liver, kidney, and heart were removed and analyzed for microminerals. Liver, duodenum, and jejunal metallothionein and the antioxidant enzymes in the liver containing these microminerals were determined. The results demonstrated that plasma minerals were unaffected at the 3 BW intervals. Liver and duodenum metallothionein protein were greater ( < 0.05) as dietary micromineral levels increased but jejunum metallothionein did not change as microminerals increased. The activity of Cu/Zn superoxide dismutase (SOD) was not affected as the levels of the micromineral increased, whereas the activity of Mn SOD increased slightly ( < 0.05) to the 50% NRC treatment level. Liver Zn (relative and total) increased ( < 0.05) as dietary micromineral levels increased and also when Zn was added singly to the diet. Liver, kidney, and heart Cu and Mn concentrations were similar at the various micromineral levels. The activities of liver enzymes containing graded levels of Zn were not affected by dietary microminerals at 115 kg BW. These results indicate that the supplemental levels of Cu, Fe, and Mn were not necessary for grower-finisher pigs and that these innate microminerals in a corn-soybean meal diet were adequate, whereas a need for supplemental Zn was demonstrated.
评估了含有有机(百乐宝)铜、铁、锰和锌来源的微量矿物质预混料的分级水平,并进行了含有有机锌或铁的额外处理。生长育肥猪从体重25千克饲养至115千克。之前已报告了实验中的猪数量、猪的品种/遗传背景、管理方式以及猪的平均年龄。实验采用随机完全区组设计,共7个重复。处理方式如下:1)不添加铜、铁、锰和锌的基础日粮;2)基础日粮 + 2.5毫克/千克铜、50毫克/千克铁、1.5毫克/千克锰和40毫克/千克锌(50% 美国国家研究委员会(NRC)标准);3)基础日粮 + 5毫克/千克铜、100毫克/千克铁、3毫克/千克锰和80毫克/千克锌(100% NRC标准);4)基础日粮 + 25毫克/千克锌;5)基础日粮 + 50毫克/千克锌;6)基础日粮 + 50毫克/千克铁。所有日粮均添加了0.3毫克/千克的硒和0.14毫克/千克的碘。日粮由玉米 - 豆粕、磷酸二钙和石灰石组成,并添加了植酸酶以提高矿物质利用率。每栏三头猪在体重55千克、80千克和115千克时采血,分析血浆中的微量矿物质。当平均重复体重达到115千克时,每栏三头性别比例相同的猪被宰杀。取出肝脏、肾脏和心脏,分析其中的微量矿物质。测定肝脏、十二指肠和空肠中的金属硫蛋白以及肝脏中含这些微量矿物质的抗氧化酶。结果表明,在三个体重阶段,血浆矿物质未受影响。随着日粮微量矿物质水平的增加,肝脏和十二指肠中的金属硫蛋白含量增加(P < 0.05),但空肠中的金属硫蛋白含量并未随微量矿物质增加而变化。随着微量矿物质水平的增加,铜/锌超氧化物歧化酶(SOD)的活性未受影响,而锰超氧化物歧化酶的活性在达到50% NRC处理水平时略有增加(P < 0.05)。随着日粮微量矿物质水平的增加以及单独添加锌时,肝脏锌(相对含量和总量)增加(P < 0.05)。在不同微量矿物质水平下,肝脏、肾脏和心脏中的铜和锰浓度相似。在体重115千克时,日粮微量矿物质对含不同锌水平的肝脏酶活性没有影响。这些结果表明,生长育肥猪不需要额外添加铜、铁和锰,玉米 - 豆粕日粮中的这些天然微量矿物质已足够,但表明需要额外添加锌。
