Wheat bran inclusion level impacts its net energy by shaping gut microbiota and regulating heat production in gestating sows

IF 6.3

Animal Nutrition Pub Date : 2023-07-21 DOI:10.1016/j.aninu.2023.06.013

Song Xu, Zirou Yu, Zongliang Li, Zijie Wang, Chenyu Shi, Jian Li, Fenglai Wang, Hu Liu

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Abstract

An accurate estimation of net energy (NE) of wheat bran is essential for precision feeding of sows. However, the effects of inclusion level on NE of wheat bran have not been reported. Inclusion level was hypothesized to impact NE of wheat bran by regulating gut microbiota and partitioning of heat production. Therefore, twelve multiparous sows (Yorkshire × Landrace; 2 to 4 parity) were assigned to a replicated 3 × 6 Youden square with 3 successive periods and 6 diets in each square. The experiment included a corn-soybean meal diet (WB0) and five diets including 9.8% (WB10), 19.5% (WB20), 29.2% (WB30), 39.0% (WB40) and 48.7% wheat bran (WB50), respectively. Each period included 6 d of adaptation to diets followed by 6 d for heat production measurement using open-circuit respiration chambers. Compared with other groups, WB30, WB40, and WB50 enriched different fiber-degrading bacteria genera (P < 0.05). Apparent total tract digestibility of neutral detergent fiber and acid detergent fiber of wheat bran were greater in WB30 and WB40 (P < 0.05). Physical activity (standing and sitting) decreased as inclusion level increased (P = 0.04), which tended to decrease related heat production (P = 0.07). Thermic effect of feeding (TEF) was higher in WB50 than other treatments (P < 0.01). Metabolizable energy of wheat bran was similar among treatment groups (except for WB10). NE of wheat bran conformed to a quadratic regression equation with inclusion level (R² = 0.99, P < 0.01) and peaked at an inclusion level of 35.3%. In conclusion, increasing inclusion level decreased energy expenditure of sows on physical activity and promoted growth of fiber-degrading bacteria, which improved energy utilization of fiber. Fermentation of wheat bran fiber by Prevotellaceae_UCG-003 and norank_f__Paludibacteraceae might increase TEF. Consequently, sows utilized energy in wheat bran most efficiently at an inclusion level of 35.3%.

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麦麸包合物水平通过塑造妊娠母猪肠道微生物群和调节热量产生影响其净能量

准确估计麦麸的净能量（NE）对于母猪的精确饲养至关重要。然而，包合物水平对麦麸NE的影响尚未报道。假设包合水平通过调节肠道微生物群和热量产生的分配来影响麦麸的NE。因此，将12头多胎母猪（约克郡×长白猪；2-4胎次）分配到一个复制的3×6尤登正方形，每个正方形有3个连续时期和6个日粮。试验包括玉米豆粕日粮（WB0）和5种日粮，分别为9.8%（WB10）、19.5%（WB20）、29.2%（WB30）、39.0%（WB40）和48.7%麦麸（WB50）。每个时期包括6天的饮食适应期，然后6天的用开放式呼吸室测量热量产生。与其他组相比，WB30、WB40和WB50富集了不同的纤维降解菌属（P<；0.05）。WB30和WB40对麦麸中性洗涤纤维和酸性洗涤纤维的表观全消化率更高（P<）。体力活动（站立和坐着）随包合水平的增加而减少（P=0.04），WB50的饲喂热效应（TEF）高于其他处理（P＜0.01）。除WB10外，各处理组麦麸的代谢能相似。麦麸的NE与包合水平符合二次回归方程（R2=0.99，P<；0.01），在包合水平为35.3%时达到峰值。总之，增加包合水平降低了母猪体力活动的能量消耗，促进了纤维降解菌的生长，提高了纤维的能量利用率。Prevotellaceae_UCG-003和norank_f__Paludibacteraceae发酵麦麸纤维可能会增加TEF。因此，母猪最有效地利用了麦麸中的能量，其包含率为35.3%。

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来源期刊

Animal Nutrition Animal Science and Zoology

CiteScore

9.70

自引率

0.00%

发文量

542

审稿时长

65 days

期刊介绍： Animal Nutrition encompasses the full gamut of animal nutritional sciences and reviews including, but not limited to, fundamental aspects of animal nutrition such as nutritional requirements, metabolic studies, body composition, energetics, immunology, neuroscience, microbiology, genetics and molecular and cell biology related to primarily to the nutrition of farm animals and aquatic species. More applied aspects of animal nutrition, such as the evaluation of novel ingredients, feed additives and feed safety will also be considered but it is expected that such studies will have a strong nutritional focus. Animal Nutrition is indexed in SCIE, PubMed Central, Scopus, DOAJ, etc.