[母猪对逆行淀粉的能量利用]。

H L Müller, M Kirchgessner
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引用次数: 3

摘要

在8头成年母猪身上进行了全代谢试验,比较了逆行淀粉(RGS)和预糊化小麦淀粉(PWS)的能量利用、氮平衡和传代率。在满足维持需求的基础日粮中分别添加12和24 g/kg W0.75的淀粉。每只动物在转换设计中接受了所有四种治疗组合。在试验开始和结束时,所有母猪均饲喂基础日粮。每天喂食两次。在每3周的代谢期,对所有动物进行完整的平衡测量,每天收集6次粪便和尿液,并在呼吸室中测量48小时的气体交换。采用碳氮平衡法和RQ法计算母猪产热量和能量蓄积。基础日粮中添加RGS的能量消化率、代谢率和能量蓄积量均低于添加PWS的日粮。在氮交换方面,添加RGS的母猪粪便中氮排泄量增加,尿液中氮排泄量减少,而两种饲粮的氮保留量相等。饲喂RGS的CH4产量高于饲喂预糊化小麦淀粉的CH4产量。与未添加基础日粮相比,PWS组粪便量基本不变,RGS组粪便量显著增加。在基础饲粮中,饲料传代时间为86 h,添加PWS后为75 h,添加RGS后为65 h。RGS对补充能量的利用率比PWS低12%。这种差异是由于能量的消化率和中间利用率的降低。代谢能为16 kJ/g,净能为12.5 kJ/g RGS。试验结果强调了逆行淀粉作为纤维型营养物质的重要性以及对肠道功能的相关优势。另一方面,能量利用率仅略低于非抗性淀粉;因此,与纯纤维饲料不同,RGS不能被视为“低能”物质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Energy utilization of retrograded starch by sows].

A total metabolism trial was conducted in eight adult sows to compare the energetic utilization, nitrogen balance, and passage rate of retrograded starch (RGS) with that of pregelatinized wheat starch (PWS). The starch was added at levels of 12 and 24 g/kg W0.75 to a basal ration that covered the maintenance requirement. Each animal received all four treatment combinations in a change-over design. At the start and end of the trial all sows were fed the basal ration alone. Feeding took place twice daily. During each 3-week metabolism period a complete balance measurement was performed for all animals, with 6 daily collections of feces and urine and a 48-h gas exchange measurement in a respiration chamber. The sows' heat production and energy retention were calculated by the carbon-nitrogen balance method and the RQ method. Digestibility and metabolizability of energy and energy retention were lower in the basal ration with RGS supplement than in the PWS supplemented ration. With regard to N exchange, sows supplemented with RGS excreted more N in the feces and less N in the urine, whereas N retention was equal with both rations. The production of CH4 was higher with RGS than after feeding pregelatinized wheat starch. When compared with the nonsupplemented basal ration, the fecal volume was unchanged with PWS but significantly increased with RGS. The feed passage, measured as the mean retention time of a marker in the digestive tract, was 86 h on the basal diet, falling to 75 h with PWS supplementation and 65 h with RGS. The utilization of the supplemented energy was 12% lower for RGS compared with PWS. This difference was due to a reduction in the digestibility and intermediate utilization of the energy. The amount of metabolizable energy was calculated as 16 kJ/g and the net energy as 12.5 kJ/g RGS. The results of the trial underline the importance of retrograded starch as a fiber type nutrient and the associated advantages for the bowel function. The energetic utilization on the other hand is only slightly lower than that of non-resistant starch; unlike pure fibrous feed materials, RGS can therefore not be regarded as a "low energy" substance.

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