Martinez-Amezcua C, Parsons C M, Singh V, Srinivasan R, Murthy G S
Department of Animal Sciences, University of Illinois, Urbana 61801, USA.
Poult Sci. 2007 Dec;86(12):2624-30. doi: 10.3382/ps.2007-00137.
Experiments were conducted to evaluate the nutritional value of corn distillers dried grains with solubles (DDGS) and its components of grains and solubles, the effect on amino acid digestibility of autoclaving DDGS with different proportions of wet grains:solubles, and the effect of several new processing technologies on the nutritional value of DDGS for poultry. In the latter experiments, corn was processed under laboratory conditions to produce ethanol and DDGS by using the conventional dry-grind process and compared with 2 modified dry-grind corn processes. Modified dry-grind corn processes consisted of wet quick germ, quick fiber (QGQF process) and dry degerm defiber (3D process) fractionation of corn to recover the germ and pericarp fiber prior to fermentation. In another process, a commercial DDGS sample was subjected to an Elusieve method to remove fiber and increase the protein content. Freeze-dried solubles were higher in total P but lower in CP than in the grains and DDGS. Digestibilities of several amino acids in the freeze-dried grains and solubles were higher than those for DDGS, particularly for Lys. Autoclaving reduced the digestibility of amino acids in DDGS, and this effect was not influenced by the proportion of grains:solubles. The QGQF and 3D processes increased the protein and reduced the fat and total dietary fiber content in DDGS. Total P was increased by the QGQF process, but was reduced by the 3D process. The Elusieve process increased the protein, amino acids, and fat, and decreased the total dietary fiber content of DDGS from 34.5 to 19.7% on a DM basis. None of the processing technologies had a significant effect on DDGS amino acid digestibility. The results of this study indicated that the nutritional value of DDGS can be influenced greatly by the proportion of grains vs. solubles and by processing technologies.
开展了多项实验,以评估玉米干酒糟及其可溶物(DDGS)、谷物成分和可溶物成分的营养价值,不同湿谷物与可溶物比例对DDGS进行高压灭菌处理对氨基酸消化率的影响,以及几种新加工技术对家禽用DDGS营养价值的影响。在后面这些实验中,在实验室条件下对玉米进行加工,采用传统干磨工艺生产乙醇和DDGS,并与2种改良干磨玉米工艺进行比较。改良干磨玉米工艺包括对玉米进行湿快速脱胚、快速脱纤维(QGQF工艺)和干脱胚脱纤维(3D工艺)分级,以便在发酵前回收胚和果皮纤维。在另一个工艺中,对一个商业DDGS样品采用艾氏筛法去除纤维并提高蛋白质含量。冻干可溶物的总磷含量高于谷物和DDGS,但粗蛋白含量低于谷物和DDGS。冻干谷物和可溶物中几种氨基酸的消化率高于DDGS,尤其是赖氨酸。高压灭菌降低了DDGS中氨基酸的消化率,且这种影响不受谷物与可溶物比例的影响。QGQF工艺和3D工艺提高了DDGS中的蛋白质含量,降低了脂肪和总膳食纤维含量。QGQF工艺提高了总磷含量,但3D工艺降低了总磷含量。艾氏筛法提高了DDGS的蛋白质、氨基酸和脂肪含量,并将DDGS的总膳食纤维含量以干物质计从34.5%降至19.7%。没有一种加工技术对DDGS的氨基酸消化率有显著影响。本研究结果表明,DDGS的营养价值会受到谷物与可溶物比例以及加工技术的极大影响。
