Animal Nutrition Group, Wageningen University, Wageningen, The Netherlands.
Animal. 2013 May;7(5):754-67. doi: 10.1017/S1751731112002303. Epub 2012 Dec 5.
The aim of the current study was to explore the use of the tracer 13C as an internal marker to assess feed fraction-specific digesta passage kinetics through the digestive tract of dairy cows. Knowledge on feed-specific fractional passage rates is essential to improve estimations on the extent of rumen degradation and microbial protein efficiency; however, this information is largely lacking. An in vivo and in vitro experiment was conducted with grass silages (Lolium perenne L.) that were enriched with 13C by growing the grass under elevated 13CO2 conditions. In a crossover design, two dairy cows received pulse doses of two 13C-enriched grass silages and chromium-mordanted neutral detergent fibre (Cr-NDF) into the rumen. The two 13C-enriched grass silages used differed in digestibility and were grown under identical field conditions as the bulk silages fed to the animals. Faecal excretion patterns of 13C-enriched dry matter (13C-DM), neutral detergent fibre (13C-NDF) and Cr-NDF were established, and a nonlinear multicompartmental model was used to determine their rumen passage kinetics. In addition, the 13C-enriched silages were incubated in rumen liquid in an in vitro batch culture system at different time intervals to determine the effect of fermentation on 13C-enrichment in the residue. The in vitro study showed that the 13C : 12C ratios in DM and NDF residues remained stable from 24 h of incubation onwards. In addition, in vitro fractional degradation rates for 12C in the DM and NDF did not differ from those of 13C, indicating that fermentative degradation does not affect the 13C : 12C ratio in the DM nor in the NDF fraction of the residue. Model fits to the faecal excretion curves showed a significant difference in fractional rumen passage rates between Cr-NDF, 13C-DM and 13C-NDF (P ⩽ 0.025). Silage type had no clear effect on rumen passage kinetics (P ⩾ 0.081). Moreover, it showed that peak enrichments for 13C-DM and 13C-NDF in faeces were reached at 30.7 and 41.7 h post dosing, respectively. This is well after the time (24 h) when the 13C : 12C ratios of the in vitro unfermented residues have reached stable enrichment level. Fractional rate constants for particle passage from the rumen are estimated from the descending slope of faecal excretion curves. The present study shows that the decline in 13C : 12C ratio after peak enrichment is not affected by fermentative degradation and therefore can be used to assess feed component-specific fractional passage rates.
本研究旨在探索使用示踪剂 13C 作为内部标记物,评估奶牛消化道中饲料特定消化产物的通过动力学。了解饲料特定的部分通过率对于提高对瘤胃降解程度和微生物蛋白效率的估计至关重要;然而,这方面的信息还很缺乏。进行了一项体内和体外实验,用在高 13CO2 条件下生长的黑麦草青贮饲料(Lolium perenne L.)进行富集。在交叉设计中,两头奶牛通过瘤胃向其中输注两种 13C 富集的黑麦草青贮饲料和铬-鞣中性洗涤剂纤维(Cr-NDF)脉冲剂量。所使用的两种 13C 富集黑麦草青贮饲料在消化率上有所不同,并且是在与动物摄入的大宗青贮饲料相同的田间条件下生长的。建立了 13C 富集干物质(13C-DM)、中性洗涤剂纤维(13C-NDF)和 Cr-NDF 的粪便排泄模式,并使用非线性多室模型来确定它们在瘤胃中的通过动力学。此外,将 13C 富集的青贮饲料在体外批量培养系统的不同时间间隔内进行孵育,以确定发酵对残留物中 13C 富集的影响。体外研究表明,从孵育 24 小时开始,DM 和 NDF 残渣中的 13C:12C 比值保持稳定。此外,DM 和 NDF 中 12C 的体外部分降解率与 13C 没有差异,表明发酵降解不会影响 DM 或残渣中 NDF 部分的 13C:12C 比值。粪便排泄曲线的模型拟合显示,Cr-NDF、13C-DM 和 13C-NDF 的瘤胃通过率存在显著差异(P ⩽ 0.025)。青贮饲料类型对瘤胃通过动力学没有明显影响(P ⩾ 0.081)。此外,它表明 13C-DM 和 13C-NDF 在粪便中的峰值丰度分别在给药后 30.7 和 41.7 小时达到。这远早于体外未发酵残渣的 13C:12C 比值达到稳定富集水平的时间(24 小时)。从粪便排泄曲线的下降斜率可以估计出颗粒从瘤胃排出的分数常数。本研究表明,峰值富集后 13C:12C 比值的下降不受发酵降解的影响,因此可用于评估饲料成分特定的部分通过率。
