Little Erin A, Dunkelberger Jenelle, Hanson Daniel, Eggert John, Gonda Michael G, MacNeil Michael D, Dee Scott
Pipestone Applied Research, Pipestone, MN 56164, USA.
Topigs Norsvin USA, Burnsville, MN 55337, USA.
Transl Anim Sci. 2024 Aug 23;8:txae128. doi: 10.1093/tas/txae128. eCollection 2024.
The objective of this study was to evaluate differences in the performance of offspring of boars selected with an index emphasizing resilience and boars selected based on a traditional index, emphasizing feed efficiency and carcass quality (traditional) index vs. a customized (resilience) index. The resilience index was identical to the traditional index, except that extra emphasis was placed on piglet vitality (increased by 66%), growth rate (decreased by 14%), and feed intake (increased substantially by 5,157%). Sows were mated to either boars selected based on the resilience index or boars selected on the traditional index. Weaned offspring were vaccinated for Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) and experimentally infected with PRRSV RFLP 1-7-4 four weeks later. Offspring were allocated to pens ( ~ 27 pigs/pen; = 27 pens/group) by sire-selection group for a total of 1,458 pigs in 54 pens. The weight of each pen was recorded on 0, 42, and 110 d postinfection (DPI) and used to calculate average daily gain (ADG), average daily feed intake (ADFI), and feed conversion ratio (FCR). Mortalities were recorded from 0 to 110 DPI and necropsies were routinely performed to characterize pathogens present within the barn. Pigs classified as full value (i.e., >104 kg and void of defects) were slaughtered and hot carcass weight (HCW), backfat, loin depth, and lean weight were obtained from the slaughter plant. Effects of progeny group on performance, carcass characteristics, and mortality rate were estimated with a mixed linear model. Differences between progeny groups in ADG ( > 0.27), HCW ( = 0.68), backfat ( = 0.13), or loin depth ( = 0.39), and mortality rate ( = 0.29) were not detected. From 0 to 42 DPI, offspring of boars selected based on the resilience index had higher ADFI (0.06 kg/d, = 0.01) and higher FCR (0.12, = 0.01). In summary, results from this study do not support selection of boars for increased feed intake, piglet viability, and robustness in order to prevent losses caused by PRRSV, but selection response was only measured after one generation of male selection. The impact of multiple generations of selection, or the development of an index including traits derived from data collected under disease-challenged conditions should be explored. The data collected for this study are a valuable resource to explore additional genetic selection strategies for enhanced resilience to a multifactorial PRRS challenge.
本研究的目的是评估基于强调恢复力的指数选留的公猪后代与基于传统指数(强调饲料效率和胴体品质)选留的公猪后代在性能表现上的差异,即传统指数与定制的(恢复力)指数的对比。恢复力指数与传统指数相同,只是额外强调了仔猪活力(提高了66%)、生长速度(降低了14%)和采食量(大幅提高了5157%)。母猪与基于恢复力指数选留的公猪或基于传统指数选留的公猪进行配种。断奶后代接种猪繁殖与呼吸综合征病毒(PRRSV)疫苗,并在四周后用PRRSV RFLP 1-7-4进行实验性感染。后代按父本选择组分配到栏舍(每栏约27头猪;每组27栏),54个栏舍共1458头猪。在感染后0、42和110天(DPI)记录每个栏舍的体重,用于计算平均日增重(ADG)、平均日采食量(ADFI)和饲料转化率(FCR)。记录0至110 DPI期间的死亡率,并定期进行剖检以鉴定栏舍内存在的病原体。将体重超过104千克且无缺陷的猪只归类为全价猪进行屠宰,并从屠宰场获取热胴体重(HCW)、背膘厚、腰荐部深度和瘦肉量。用混合线性模型估计后代组对性能、胴体特征和死亡率的影响。未检测到后代组在ADG(P>0.27)、HCW(P = 0.68)、背膘厚(P = 0.13)或腰荐部深度(P = 0.39)以及死亡率(P = 0.29)方面的差异。在0至42 DPI期间,基于恢复力指数选留的公猪后代具有更高的ADFI(0.06千克/天,P = 0.01)和更高的FCR(0.12,P = 0.01)。总之,本研究结果不支持通过选留采食量增加、仔猪活力和健壮性提高的公猪来预防PRRSV造成的损失,但选择反应仅在一代雄性选择后进行了测定。应探索多代选择的影响,或开发包含在疾病挑战条件下收集的数据所衍生性状的指数。本研究收集的数据是探索增强对多因素PRRS挑战恢复力的其他遗传选择策略的宝贵资源。
