苏丹红和饲料着色剂的区别

本文主要从苏丹红和饲料着色剂的化学结构、作用机理及毒性等方面说明饲料着色剂与苏丹红的天壤之别。     

乳化剂在肉鸡饲料中的效果研究

乳化剂是一种亲油又亲水的物质,能显著降低脂肪的粘度,弥补动物胆盐分泌不足,从而提高脂肪消化率,防止脂肪肝发生和畜禽因脂肪消化不良引起的下痢,且利于脂溶性营养物质（VA、VD、VE、色素等）的吸收。因此,可通过乳化剂调低配方的代谢能水平,降低成本,提高经济效益。本试验研究了乳化剂对白羽肉鸡生产性能的影响。结果显示：减少油脂后添加乳化剂对肉鸡平均日采食量和平均日增重的影响均不显著,从试验全期看,日粮减少油脂5 kg/t 或降低代谢能30 kcal/kg （1 kcal=4.187 kJ,下同）后添加乳化剂,可以使肉鸡平均日增重和料重比保持正常的水平。     

复种饲料油菜对麦茬耕层土壤酶活性的影响

采用大田试验方法,研究了不同种植密度与施氮量条件下,复种饲料油菜对麦茬耕层(0~15 cm)土壤酶活性的影响。结果表明,麦收后复种饲料油菜能显著或极显著地提高土壤过氧化氢酶(CAT)、酸性磷酸酶(APHA)、纤维素酶(CEL)和脲酶(URA)的活性,与休闲熟化地(CK)比较,最大提高幅度分别为32.15%,35.61%,78.66%和127.36%。土壤酶活性的变化与复种饲料油菜的播种量和施氮量有关,随播种量的增加土壤CAT、CEL和URA活性表现为逐渐递增态势,而土壤APHA表现为先增后减,播种量为11.5 kg/hm2时,APHA活性可达0.7888mg/g。在油菜生长的苗期,土壤APHA、CEL和URA随施氮量的增加而增加,土壤CAT则随施氮量的增加先增后降,呈单峰曲线;在生长后期(收获期),低氮量有利于土壤APHA活性的增加,中氮量有利于土壤CAT和CEL活性的增加,高氮量有利于URA活性的增加。     

Selecting the hologenome to breed for an improved feed efficiency in pigs—A novel selection index

Most traits in animal breeding, including feed efficiency traits in pigs, are affected by many genes with small effect and have a moderately high heritability between 0.1 and 0.5, which enables efficient selection. Since the microbiota composition in the gastrointestinal tract is also partly heritable and was shown to have a substantial effect on feed efficiency, the host genes affect the phenotype not only directly by altering metabolic pathways, but also indirectly by changing the microbiota composition. The effect of the microbiota composition on the breeding value of an animal is the conditional expectation of its breeding value, given the vector with microbiota frequencies, that is The breeding value of an animal can therefore be decomposed into a heritable contribution that arises from an altered microbiota composition and a heritable contribution that arises from altered metabolic pathways within the animal, so Instead of selecting for breeding value , an index comprising the two components and with appropriate weights, that is , can be used. The present study shows how this breeding strategy can be applied in pig genomic selection breeding scheme for two feed efficiency traits and daily gain.     

Genetic potential for residual feed intake and diet fed during early- to mid-gestation influences post-natal DNA methylation of imprinted genes in muscle and liver tissues in beef cattle

Discovery of epigenetic modifications associated with feed efficiency or other economically important traits would increase our understanding of the molecular mechanisms underlying these traits. In combination with known genetic markers, this would provide opportunity to improve genomic selection accuracy in cattle breeding programs. It would also allow cattle to be managed to improve favorable gene expression. The objective of this study was to identify variation in DNA methylation between beef cattle of differential pre-natal nutrition and divergent genetic potential for residual feed intake (RFI). Purebred Angus offspring with the genetic potential for either high (HRFI) or low (LRFI) RFI were prenatally exposed to either a restricted maternal diet of 0.5 kg/d average daily gain (ADG) or a moderate maternal diet of 0.7 kg/d ADG from 30 to 150 d of gestation. We performed DNA methylation analysis of differentially methylated regions (DMR) of imprinted genes (Insulin-like growth factor 2 (IGF2) DMR2, IGF2/H19 imprinting control region (ICR) and IGF2 receptor (IGF2R) DMR2) using post-natal samples of longissimus dorsi (LD) muscle taken from male and female calves at birth and weaning, and of LD muscle, semimembranosus (SM) muscle, and liver samples collected from steers at slaughter (17 months of age). Interestingly, for all three DMR investigated in liver, LRFI steers had higher levels of methylation than HRFI steers. In LD muscle, IGF2/H19 ICR methylation differences for heifers at birth were due to pre-natal diet, while for steers at birth they were mostly the result of genetic potential for RFI with LRFI steers again having higher levels of methylation than HRFI steers. While results from repeated measures analysis of DNA methylation in steers grouped by RFI revealed few differences, in steers grouped by diet, we found higher methylation levels of IGF2 DMR2 and IGF2R DMR2 in LD muscle of restricted diet steers at weaning and slaughter than at birth, as well as increased methylation in LD muscle of restricted diet steers compared with moderate diet steers at weaning and/or slaughter. Our results suggest that differential pre-natal nutrition, and divergent genetic potential for RFI, induces tissue- and sex-specific alterations in post-natal IGF2 and IGF2R methylation patterns and that these patterns can vary with age in Angus beef cattle.     

超高效液相色谱法测定饲料中斑蝥黄和β-阿朴-8’-胡萝卜素酸乙酯含量方法的研究

为有效快速测定饲料中斑蝥黄和β-阿朴-8’-胡萝卜素酸乙酯含量,饲料经甲醇、正己烷和乙酸乙酯混合液萃取后,在氮气保护下浓缩,用甲基叔丁基醚-乙腈溶液复溶,注入超高效液相色谱仪中进行测定。结果表明:斑蝥黄浓度为1.25~10.0μg/mL,β-阿朴-8’-胡萝卜素酸乙酯为2.50~20.0μg/mL线性关系良好;斑蝥黄和β-阿朴-8’-胡萝卜素酸乙酯的检测限为0.06 mg/kg,定量限为0.20 mg/kg。斑蝥黄5个添加水平的平均回收率为72.8%~82.8%,相对标准偏差(RSD)为0.41%~1.06%;β-阿朴-8’-胡萝卜素酸乙酯5个添加水平的平均回收率为72.0%~82.8%,RSD为0.46%~1.41%。说明该方法简便、快速、灵敏度高、准确度好,适用于测定饲料中斑蝥黄和β-阿朴-8’-胡萝卜素酸乙酯含量。     

我国不同奶业产区规模化牧场饲料结构分析

在奶牛养殖规模化水平不断提高,养殖成本日益增加,且区域间差异明显的背景下,饲料作为奶牛养殖主要投入品,了解其在规模化牧场生产成本中的结构对于优化奶牛日粮结构、降低养殖成本、缩小区域间养殖效益差距等具有重要意义。本文利用2018—2020年规模牧场月度调研数据,分析了我国规模化牧场饲料结构情况。研究发现,大城市周边产区和南方产区的精饲料和粗饲料的比例相对更加科学,华北产区仍有较大提升空间,并且玉米、豆粕、玉米青贮和苜蓿草在日粮中占有较大比重,达到84.62%;不同产区奶牛日粮结构具有明显差距,玉米青贮和苜蓿草在西北产区占比最高,玉米和豆粕在南方产区占比最高。注重发挥区域优势,加大优质粗饲料和可替代饲料的利用,有利于降低养殖成本,提高养殖的科学性和可持续性。