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综述:生长猪的剩余采食量的分歧选择。

Review: divergent selection for residual feed intake in the growing pig.

机构信息

1GenPhySE,INRA,INP,ENSAT,Université de Toulouse,31326 Castanet-Tolosan,France.

2GenESI,INRA,17700 Surgères,France.

出版信息

Animal. 2017 Sep;11(9):1427-1439. doi: 10.1017/S175173111600286X. Epub 2017 Jan 25.

DOI:10.1017/S175173111600286X
PMID:28118862
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5561440/
Abstract

This review summarizes the results from the INRA (Institut National de la Recherche Agronomique) divergent selection experiment on residual feed intake (RFI) in growing Large White pigs during nine generations of selection. It discusses the remaining challenges and perspectives for the improvement of feed efficiency in growing pigs. The impacts on growing pigs raised under standard conditions and in alternative situations such as heat stress, inflammatory challenges or lactation have been studied. After nine generations of selection, the divergent selection for RFI led to highly significant (P<0.001) line differences for RFI (-165 g/day in the low RFI (LRFI) line compared with high RFI line) and daily feed intake (-270 g/day). Low responses were observed on growth rate (-12.8 g/day, P<0.05) and body composition (+0.9 mm backfat thickness, P=0.57; -2.64% lean meat content, P<0.001) with a marked response on feed conversion ratio (-0.32 kg feed/kg gain, P<0.001). Reduced ultimate pH and increased lightness of the meat (P<0.001) were observed in LRFI pigs with minor impact on the sensory quality of the meat. These changes in meat quality were associated with changes of the muscular energy metabolism. Reduced maintenance energy requirements (-10% after five generations of selection) and activity (-21% of time standing after six generations of selection) of LRFI pigs greatly contributed to the gain in energy efficiency. However, the impact of selection for RFI on the protein metabolism of the pig remains unclear. Digestibility of energy and nutrients was not affected by selection, neither for pigs fed conventional diets nor for pigs fed high-fibre diets. A significant improvement of digestive efficiency could likely be achieved by selecting pigs on fibre diets. No convincing genetic or blood biomarker has been identified for explaining the differences in RFI, suggesting that pigs have various ways to achieve an efficient use of feed. No deleterious impact of the selection on the sow reproduction performance was observed. The resource allocation theory states that low RFI may reduce the ability to cope with stressors, via the reduction of a buffer compartment dedicated to responses to stress. None of the experiments focussed on the response of pigs to stress or challenges could confirm this theory. Understanding the relationships between RFI and responses to stress and energy demanding processes, as such immunity and lactation, remains a major challenge for a better understanding of the underlying biological mechanisms of the trait and to reconcile the experimental results with the resource allocation theory.

摘要

这篇综述总结了 INRA(法国国家农业研究院)在生长大白猪上进行的剩余采食量(RFI)分歧选择实验的结果,该实验历经九代选择。本文讨论了提高生长猪饲料效率的剩余挑战和前景。研究了标准条件下和热应激、炎症挑战或泌乳等替代情况下生长猪的影响。经过九代选择,RFI 的分歧选择导致 RFI(低 RFI 线比高 RFI 线低 165 克/天)和每日采食量(低 270 克/天)出现了非常显著的(P<0.001)线性差异。生长速度(低 12.8 克/天,P<0.05)和体组成(背膘厚增加 0.9 毫米,P=0.57;瘦肉含量减少 2.64%,P<0.001)的反应较小,饲料转化率(每增重 0.32 公斤饲料/公斤增益,P<0.001)的反应显著。LRFI 猪的最终 pH 值降低,肉色变浅(P<0.001),对肉的感官质量影响较小。这些肉质变化与肌肉能量代谢的变化有关。LRFI 猪的维持能量需求(经过五代选择后降低 10%)和活动(经过六代选择后站立时间减少 21%)减少,大大有助于提高能量效率。然而,选择 RFI 对猪蛋白质代谢的影响仍不清楚。无论是在饲喂常规日粮的猪还是在饲喂高纤维日粮的猪中,能量和营养素的消化率都不受选择的影响。通过选择纤维日粮,可能显著提高消化效率。没有发现任何有说服力的遗传或血液生物标志物可以解释 RFI 的差异,这表明猪有各种方法可以有效地利用饲料。选择对母猪繁殖性能没有不利影响。资源分配理论指出,低 RFI 可能会通过减少专门用于应对应激的缓冲储备来降低应对应激的能力。没有任何一项专门针对猪对应激和能量需求过程(如免疫和泌乳)的反应的实验能够证实这一理论。了解 RFI 与应激反应和能量需求过程(如免疫和泌乳)之间的关系仍然是一个主要挑战,这有助于更好地理解该性状的潜在生物学机制,并使实验结果与资源分配理论相协调。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/67ecd9599509/S175173111600286X_fig7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/bd4e8722358a/S175173111600286X_fig1.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/76f5e4f21537/S175173111600286X_fig5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/17e9308d670c/S175173111600286X_fig6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/67ecd9599509/S175173111600286X_fig7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/bd4e8722358a/S175173111600286X_fig1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/d88c160abcd0/S175173111600286X_fig2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/7daae6be1e92/S175173111600286X_fig3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/02be24d093a9/S175173111600286X_fig4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/76f5e4f21537/S175173111600286X_fig5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/17e9308d670c/S175173111600286X_fig6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8e0/5561440/67ecd9599509/S175173111600286X_fig7.jpg

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