USDA-ARS U.S. Meat Animal Research Center, Clay Center, NE 68933, USA.
J Anim Sci. 2013 Feb;91(2):819-28. doi: 10.2527/jas.2012-5418. Epub 2012 Nov 12.
The use of wet distillers grains with solubles (WDGS) in feedlot diets has increased in the Southern Great Plains as a result of the growing ethanol industry. Nutrient balance and respiration calorimetry research evaluating the use of steam-flaked corn (SFC)-based diets in conjunction with WDGS is limited. Therefore, the effects of increasing concentrations of WDGS in a SFC-based diet on energy metabolism, C, and N balance, and enteric methane (CH4) production was evaluated in Jersey steers fed at 2 times maintenance, using respiration calorimetry chambers. Four treatments were used in two 4 × 4 Latin square designs, using 8 steers. Treatments consisted of: 1) SFC-based diet with 0% WDGS (SFC-0); 2) SFC-based diet with 15% WDGS (SFC-15); 3) SFC-based diet with 30% WDGS (SFC-30); and 4) SFC-based diet with 45% WDGS (SFC-45). Diets were balanced for degradable intake protein (DIP) by adding cottonseed meal to the SFC-0 diet. As a proportion of GE, fecal, urinary, and CH4 energy increased linearly (P < 0.03) as WDGS concentration increased in the diet. In contrast, DE, ME, and retained energy decreased linearly (P < 0.01) as a proportion of GE as WDGS concentration increased. Increasing concentration of WDGS in the diet did not affect (P > 0.78) heat production as a proportion of GE. As a result of greater N intake, total N excretion increased linearly (P < 0.01) with increasing WDGS inclusion in the diet. Fecal C loss and CH4-C respired increased linearly (P < 0.01) when WDGS concentration increased in the diet whereas CO2-C respired decreased (linear, P = 0.05) as WDGS concentration increased. We conclude that CH4 production as a proportion of GE increases linearly (P < 0.01) when WDGS concentration in the diet is increased; however, dietary inclusion of WDGS at up to 45% seems to have no effect (P > 0.78) on heat production as a proportion of GE. The reason for a linear decrease in retained energy as WDGS increased was likely because of increased fecal energy loss associated with feeding WDGS. Total N excretion, fecal C loss, and CH4-C respired increased linearly with increasing concentration of WDGS in the diet. We determined NEg values for WDGS to be 2.02, 1.61, and 1.38 Mcal/kg when included at 15%, 30%, and 45%, respectively, in a SFC-based diet. From these results we conclude that the energy value (NEg) of WDGS in a finishing cattle diet based on SFC must be decreased as the inclusion increases.
由于乙醇行业的发展,在大南方平原地区,饲料中使用湿酒糟及其可溶物(WDGS)的情况有所增加。 关于在蒸汽压片玉米(SFC)基础日粮中结合使用 WDGS 的养分平衡和呼吸量热计研究有限。 因此,使用呼吸量热计室,以泽西牛为研究对象,在 2 倍维持水平下,评估 SFC 基础日粮中 WDGS 浓度增加对能量代谢、C 和 N 平衡以及肠道甲烷(CH4)产生的影响。 在两个 4×4 拉丁方设计中使用了 4 种处理,共 8 头牛。 处理包括:1)不含 WDGS 的 SFC 基础日粮(SFC-0);2)含 15% WDGS 的 SFC 基础日粮(SFC-15);3)含 30% WDGS 的 SFC 基础日粮(SFC-30);4)含 45% WDGS 的 SFC 基础日粮(SFC-45)。 通过向 SFC-0 日粮中添加棉籽粉来平衡可消化摄入蛋白(DIP)。 随着日粮中 WDGS 浓度的增加,粪便、尿液和 CH4 能量占总能量的比例呈线性增加(P < 0.03)。 相反,DE、ME 和保留能量占总能量的比例呈线性下降(P < 0.01)。 日粮中 WDGS 浓度的增加不影响(P > 0.78)作为总能量的产热量。 由于氮摄入量增加,总氮排泄量随日粮中 WDGS 含量的增加呈线性增加(P < 0.01)。 随着日粮中 WDGS 浓度的增加,粪便 C 损失和 CH4-C 呼吸量呈线性增加(P < 0.01),而 CO2-C 呼吸量呈线性下降(P = 0.05)。 我们得出结论,当日粮中 WDGS 浓度增加时,CH4 产生量占总能量的比例呈线性增加(P < 0.01);然而,在日粮中添加高达 45%的 WDGS 似乎对产热量没有影响(P > 0.78)作为总能量的比例。 随着 WDGS 增加,保留能量呈线性下降的原因可能是由于饲喂 WDGS 导致粪便能量损失增加。 随着日粮中 WDGS 浓度的增加,总氮排泄量、粪便 C 损失和 CH4-C 呼吸量呈线性增加。 我们确定在 SFC 基础日粮中分别包含 15%、30%和 45%的 WDGS 时,WDGS 的净能(NEg)值分别为 2.02、1.61 和 1.38 Mcal/kg。 从这些结果中我们得出结论,基于 SFC 的育肥牛日粮中 WDGS 的能量值(NEg)必须随着添加量的增加而降低。
