Top Institute Food and Nutrition, Wageningen, The Netherlands.
Laboratory of Microbiology, Wageningen University & Research, Wageningen, The Netherlands.
PLoS One. 2020 Mar 2;15(3):e0229887. doi: 10.1371/journal.pone.0229887. eCollection 2020.
The objective of the present study was to characterize the rumen bacterial and archaeal communities in dairy cows fed different ratios of maize silage (MS) and grass silage (GS), and place the findings in the context of ruminal fermentation as well as previously reported methane (CH4) emissions. Rumen fluid from 12 rumen cannulated dairy cows was collected after 10 and 17 days of feeding one of four diets, all of which had the same roughage to concentrate ratio of 80:20 based on dry matter (DM). Roughage in the four diets (GS100, GS0, GS67, GS33) consisted of either 1000 g/kg DM GS (GS100), 1000 g/kg DM MS (GS0), or a mixture of both silages in different proportions [667 g/kg DM GS and 333 g/kg DM MS (GS67); 333 g/kg DM GS and 677 g/kg DM MS (GS33)]. Total volatile fatty acid (VFA) concentrations and the molar proportions of the ruminal VFA were not affected by diet. Only the molar proportion of isovalerate was affected by time, being lower on day 17 than on day 10. Bacterial and archaeal concentrations were not affected by diet but increased from day 10 to day 17. The bacterial community composition was affected by diet, time and diet × time, whereas the archaeal community composition was only affected by diet. Several bacterial and archaeal genus level groups were associated with diet, but not with time. Analysis indicated the increased use of hydrogen by succinate and lactate producing bacteria is likely to at least partially explain the previously reported lower CH4 emissions from MS fed dairy cows. Furthermore, time had a significant effect on both bacterial and archaeal concentrations, and also bacterial community composition. This indicates that the rumen microbiota had not stabilized after 10 days of feeding the experimental diets.
本研究的目的是描述饲喂不同比例玉米青贮(MS)和草青贮(GS)的奶牛瘤胃细菌和古菌群落,并将研究结果置于瘤胃发酵以及先前报道的甲烷(CH4)排放的背景下。在饲喂四种日粮 10 和 17 天后,从 12 头瘤胃穿刺奶牛中采集瘤胃液,这四种日粮的粗饲料与精料比例均相同,均基于干物质(DM)为 80:20。四种日粮(GS100、GS0、GS67、GS33)的粗饲料均由 1000 g/kg DM GS(GS100)、1000 g/kg DM MS(GS0)或两种青贮饲料以不同比例混合组成[667 g/kg DM GS 和 333 g/kg DM MS(GS67);333 g/kg DM GS 和 677 g/kg DM MS(GS33)]。总挥发性脂肪酸(VFA)浓度和瘤胃 VFA 的摩尔比例不受日粮影响。只有异戊酸的摩尔比例受时间影响,第 17 天低于第 10 天。细菌和古菌浓度不受日粮影响,但从第 10 天到第 17 天增加。细菌群落组成受日粮、时间和日粮×时间影响,而古菌群落组成仅受日粮影响。一些细菌和古菌属水平组与日粮有关,但与时间无关。分析表明,琥珀酸和乳酸产生菌对氢的利用增加,可能至少部分解释了先前报道的饲喂 MS 的奶牛 CH4 排放量较低的原因。此外,时间对细菌和古菌浓度以及细菌群落组成都有显著影响。这表明在饲喂实验日粮 10 天后,瘤胃微生物群尚未稳定。
