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The impact of feeding diets of high or low energy concentration on carcass measurements and the weight of primal and subprimal lean cuts.高能量浓度或低能量浓度日粮对胴体测量指标以及主要和次级瘦肉切块重量的影响。
Asian-Australas J Anim Sci. 2012 Apr;25(4):531-40. doi: 10.5713/ajas.2011.11215.
2
Evaluation of the effects of dietary fat, conjugated linoleic acid, and ractopamine on growth performance, pork quality, and fatty acid profiles in genetically lean gilts.评估日粮脂肪、共轭亚油酸和莱克多巴胺对遗传瘦肉型后备母猪生长性能、猪肉品质及脂肪酸谱的影响。
J Anim Sci. 2006 Mar;84(3):720-32. doi: 10.2527/2006.843720x.
3
Application of broken-line analysis to assess floor space requirements of nursery and grower-finisher pigs expressed on an allometric basis.应用折线分析以异速生长为基础评估保育猪和生长育肥猪的栏舍空间需求。
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Effects of proportion of pigs removed from a group and subsequent floor space on growth performance of finishing pigs.从一组中移出的猪的比例以及后续栏舍空间对育肥猪生长性能的影响。
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Energy value of pig feeds: effect of pig body weight and energy evaluation system.猪饲料的能量值:猪体重及能量评估系统的影响
J Anim Sci. 2004;82 E-Suppl:E229-238. doi: 10.2527/2004.8213_supplE229x.
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The growth performance of the progeny of two swine sire lines reared under different floor space allowances.在不同饲养空间条件下饲养的两个种公猪品系后代的生长性能。
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Calibration of a nutrient flow model of energy utilization by growing pigs.生长猪能量利用营养流模型的校准
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A computational framework for a nutrient flow representation of energy utilization by growing monogastric animals.一种用于模拟单胃生长动物能量利用的养分流表示的计算框架。
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Effects of dietary fat on growth performance and carcass characteristics of growing-finishing pigs reared in a commercial environment.日粮脂肪对在商业环境中饲养的生长育肥猪生长性能和胴体特性的影响。
J Anim Sci. 2001 Oct;79(10):2643-50. doi: 10.2527/2001.79102643x.
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A generalized Michaelis-Menten equation for the analysis of growth.用于分析生长的广义米氏方程。
J Anim Sci. 2000 Jul;78(7):1816-28. doi: 10.2527/2000.7871816x.

来自四个父系品系的猪,采食高或低代谢能和净能浓度日粮时的日采食量、能量摄入量、生长速度及日粮能量效率指标。

Daily feed intake, energy intake, growth rate and measures of dietary energy efficiency of pigs from four sire lines fed diets with high or low metabolizable and net energy concentrations.

作者信息

Schinckel A P, Einstein M E, Jungst S, Matthews J O, Booher C, Dreadin T, Fralick C, Wilson E, Boyd R D

机构信息

PIC North America, Hendersonville, TN 37075, USA .

Swine Tek, Convoy, OH 45832, USA .

出版信息

Asian-Australas J Anim Sci. 2012 Mar;25(3):410-20. doi: 10.5713/ajas.2011.11212.

DOI:10.5713/ajas.2011.11212
PMID:25049580
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4092956/
Abstract

i) evaluate the BW growth, energy intakes and energetic efficiency of pigs fed high and low density diets from 27 to 141 kg BW, ii) evaluate sire line and sex differences when fed both diets, and iii) to compare ME to NE as predictor of pig performance. The experiment had a replicated factorial arrangement of treatments including four sire lines, two sexes (2,192 barrows and 2,280 gilts), two dietary energy densities and a light or heavy target BW, 118 and 131.5 kg in replicates 1 to 6 and 127 and 140.6 kg in replicates 7 to 10. Pigs were allocated to a series of low energy (LE, 3.27 Mcal ME/kg) corn-soybean meal based diets with 16% wheat midds or high energy diets (HE, 3.53 to 3.55 Mcal ME/kg) with 4.5 to 4.95% choice white grease. All diets contained 6% DDGS. The HE and LE diets of each of the four phases were formulated to have equal lysine:Mcal ME ratios. Pigs were weighed and pen feed intake (11 or 12 pigs/pen) recorded at 28-d intervals. The barrow and gilt daily feed (DFI), ME (MEI) and NE (NEI) intake data were fitted to a Bridges function of BW. The BW data of each sex were fitted to a generalized Michaelis-Menten function of days of age. ME and NE required for maintenance (Mcal/d) were predicted using functions of BW (0.255 and 0.179 BW^0.60 respectively). Pigs fed LE diets had decreased ADG (915 vs. 945 g/d, p<0.001) than pigs fed HE diets. Overall, DFI was greater (p<0.001) for pigs fed the LE diets (2.62 vs. 2.45 kg/d). However, no diet differences were observed for MEI (8.76 vs. 8.78 Mcal/d, p = 0.49) or NEI (6.39 vs. 6.44 Mcal/d, p = 0.13), thereby indicating that the pigs compensated for the decreased energy content of the diet. Overall ADG:DFI (0.362 vs. 0.377) and ADG:Mcal MEI (0.109 vs. 0.113) was less (p<0.001) for pigs fed LE compared to HE diets. Pigs fed HE diets had 3.6% greater ADG:Mcal MEI above maintenance and only 1.3% greater ADG:Mcal NEI (0.152 versus 0.150), therefore NEI is a more accurate predictor of growth and G:F than MEI. Pigs fed HE diets had 3.4% greater ADG:Mcal MEI and 0.11% greater ADG:NEI above maintenance than pigs fed LE diets, again demonstrating that NEI is a better predictor of pig performance than MEI. Pigs fed LE diets had similar daily NEI and MEI but grew slower and less efficiently on both ME and NE basis than pigs fed HE diets. The data suggest that the midds NE value (2.132 Mcal/kg) was too high for this source or that maintenance was increased for pigs fed LE diets.

摘要

i) 评估体重从27千克增长至141千克的猪在采食高密度和低密度日粮时的体重增长、能量摄入量及能量效率;ii) 评估采食这两种日粮时父系品系和性别的差异;iii) 比较代谢能(ME)和净能(NE)作为猪生产性能预测指标的效果。本试验采用重复析因设计,处理因素包括4个父系品系、两种性别(2192头公猪和2280头母猪)、两种日粮能量密度以及轻体重或重体重目标,第1至6重复组中目标体重为118千克和131.5千克,第7至10重复组中目标体重为127千克和140.6千克。猪被分配至一系列低能量(LE,3.27兆卡代谢能/千克)的基于玉米-豆粕且含有16%小麦次粉的日粮,或高能量日粮(HE,3.53至3.55兆卡代谢能/千克)且含有4.5%至4.95%精选白油脂。所有日粮均含有6%的干酒糟及其可溶物。四个阶段的高能量和低能量日粮均按赖氨酸:代谢能比值相等进行配制。每隔28天对猪进行称重并记录栏内采食量(每栏11或12头猪)。公猪和母猪的日采食量(DFI)、代谢能摄入量(MEI)和净能摄入量(NEI)数据采用体重的布里奇斯函数进行拟合。每个性别的体重数据采用日龄的广义米氏函数进行拟合。维持所需的代谢能和净能(兆卡/天)分别采用体重的函数进行预测(分别为0.255和0.179体重^0.60)。采食低能量日粮的猪日增重(ADG)低于采食高能量日粮的猪(915克/天对945克/天,p<0.001)。总体而言,采食低能量日粮的猪日采食量更高(p<0.001)(2.62千克/天对2.45千克/天)。然而,代谢能摄入量(8.76兆卡/天对8.78兆卡/天,p = 0.49)或净能摄入量(6.39兆卡/天对6.44兆卡/天,p = 0.13)未观察到日粮差异,这表明猪补偿了日粮中降低的能量含量。与采食高能量日粮的猪相比,采食低能量日粮的猪总体日增重:日采食量(0.362对0.377)和日增重:兆卡代谢能摄入量(0.109对0.113)更低(p<0.001)。采食高能量日粮的猪高于维持需要的日增重:兆卡代谢能摄入量高3.6%,高于维持需要的日增重:兆卡净能摄入量仅高1.3%(0.152对0.150),因此净能摄入量比代谢能摄入量是生长和料重比更准确的预测指标。与采食低能量日粮的猪相比,采食高能量日粮的猪高于维持需要的日增重:兆卡代谢能摄入量高3.4%,高于维持需要的日增重:净能摄入量高0.11%,再次表明净能摄入量比代谢能摄入量是猪生产性能更好的预测指标。采食低能量日粮的猪日净能摄入量和代谢能摄入量相似,但与采食高能量日粮的猪相比,基于代谢能和净能的生长速度均较慢且效率较低。数据表明,对于该来源,小麦次粉的净能值(2.