Evaluation of a Microencapsulated Form of Zinc Oxide on Weanling Pig Growth Performance, Intestinal Morphology, and Zinc Excretion

Payton L. Dahmer, Franco S. Matias-Ferreyra, Cassandra K. Jones
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Abstract

A total of 350 pigs (DNA 200 × 400; initially 13.31 ± 0.04 lb BW) were used in a 42-d study with 5 pigs per pen and 12 pens per treatment. At weaning, pigs were randomly allocated to pens and pens were randomly allotted to dietary treatments. Dietary treatments were: 1) negative control (standard nursery diet containing 110 ppm Zn from trace mineral premix); 2) control diet with 3,000 ppm added Zn in the form of ZnO in phase 1 and 2,000 ppm added Zn in the form of ZnO in phase 2 (High-ZnO); 3) control diet with 400 ppm added Zn in the form of ZnO in phases 1 and 2 (Low- ZnO); 4) 3,000 ppm added Zn in the form of microencapsulated ZnO in phase 1 and 2,000 ppm added Zn in the form of microencapsulated ZnO in phase 2 (High-MZnO); and 5) 400 ppm added Zn in the form of microencapsulated ZnO in phases 1 and 2 (Low-MZnO). Pigs were weighed and feed disappearance was determined to evaluate ADG, ADFI, and F/G. On d 10 and d 28, fecal samples from 3 pigs per pen were collected for fecal Zn concentrations. On d 28, 30 pigs (6 pigs per treatment) were euthanized, and small intestinal tissue was collected to evaluate morphology. There was no evidence of differences in ADG, ADFI, or F/G for the entire treatment period (d 0 to d 28; P > 0.05). During the common phase 3 (d 28 to 42) pigs fed the negative control, High-MZnO, or Low-MZnO had improved (P < 0.0001) ADG compared to pigs fed High- or Low-ZnO, which was driven by an increase in ADFI (P < 0.0001). For the entire experiment (d 0 to 42), pigs fed Low-ZnO or High-ZnO had reduced (P < 0.0001) ADG compared those fed the negative control. There was no evidence that small intestinal morphology differed significantly between treatments (P > 0.05). Finally, a significant treatment × day interaction (P = 0.04) was observed for fecal Zn concentrations, where pigs fed High-ZnO had greater fecal Zn levels on d 10 and d 28 compared to pigs fed all other treatments.
微胶囊化氧化锌对断奶猪生长性能、肠道形态和锌排泄的影响
共350头猪(DNA 200 × 400;初始体重为13.31±0.04 lb),试验42 d,每栏5头猪,每个处理12个栏。断奶时,猪随机分配到猪圈,猪圈随机分配到饲粮处理。饲粮处理为:1)阴性对照(含微量矿物质预混料锌110 ppm的标准苗圃饲粮);2)对照饲粮,第1阶段以ZnO形式添加3000 ppm锌,第2阶段以高氧化锌形式添加2000 ppm锌;3)对照饲粮在第1、2期以ZnO形式添加400 ppm锌(低氧化锌);4)在第1相和第2相中分别添加3000 ppm和2000 ppm的微囊化ZnO(高氧化锌);5)添加400 ppm的Zn,以微囊化ZnO的形式存在于相和相中(Low-MZnO)。称重,测定饲料消失量,评价平均日增重(ADG)、平均日增重(ADFI)和料重比。在第10天和第28天,每个猪圈取3头猪的粪便样本,测定粪便中锌的浓度。第28天,对30头猪(每组6头)实施安乐死,取小肠组织进行形态学观察。在整个处理期间(第0天至第28天),ADG、ADFI或F/G均无差异。P > 0.05)。在第3阶段(第28 ~ 42天),阴性对照组猪的平均日增重(ADFI)增加,与高氧化锌或低氧化锌猪相比,高氧化锌或低氧化锌猪的平均日增重(P < 0.0001)有所提高(P < 0.0001)。在整个试验期间(第0 ~ 42天),与阴性对照组相比,低氧化锌和高氧化锌均降低了猪的平均日增重(P < 0.0001)。各组仔猪小肠形态差异无统计学意义(P > 0.05)。最后,粪便锌浓度与处理间存在显著的交互作用(P = 0.04),饲喂高氧化锌的猪在第10天和第28天的粪便锌水平高于饲喂其他所有处理的猪。
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