CAS Key Laboratory for Agro-Ecological Processes in Subtropical Region, Hunan Provincial Engineering Research Center for Healthy Livestock and Poultry Production, Institute of Subtropical Agriculture, Chinese Academy of Sciences, Changsha, Hunan 410125, China.
Agriculture and Agri-Food Canada, Lethbridge Research and Development Centre, Lethbridge, Alberta T1J 4B1, Canada.
J Dairy Sci. 2020 Oct;103(10):8986-8997. doi: 10.3168/jds.2019-18077. Epub 2020 Aug 26.
3-Nitrooxypropanol (3-NOP) is an investigational compound that acts as an enzyme inhibitor to decrease ruminal methanogenesis. We hypothesized that when feeding 3-NOP to cattle fed a high-forage diet, H would accumulate in the rumen, which could suppress microbial colonization of feed particles and fiber degradation. Therefore, the study investigated the effects of supplementing a high-forage diet with 3-NOP on ruminal fiber degradability and microbial colonization of feed particles using the in situ technique. Eight ruminally cannulated beef cattle were allocated to 2 groups (4 cattle/group) in a crossover design with 2 periods and 2 dietary treatments. The treatments were control (basal diet) and 3-NOP (basal diet supplemented with 3-NOP, 150 mg/kg of dry matter). The basal diet consisted of 45% barley silage, 45% chopped grass hay, and 10% concentrate (dry matter basis). Samples of dried, ground barley silage and grass hay were incubated in the rumen of each animal for 0, 4, 12, 24, 36, 48, 96, 120, 216, and 288 h to determine neutral detergent fiber (NDF) degradation kinetics. An additional 2 bags were incubated for 4 and 48 h to evaluate the bacterial community attached to the incubated forages. Dietary supplementation of 3-NOP decreased (-53%) the dissolved methane concentration and increased (+780%) the dissolved H concentration in ruminal fluid, but did not substantially alter in situ NDF degradation. The addition of 3-NOP resulted in a decrease in the α-diversity of the microbial community with colonizing communities showing reduced numbers of amplicon sequence variants and phylogenetic diversity compared with control diets. Principal coordinate analysis plots indicated that forages incubated in animals fed 3-NOP resulted in highly specific changes to targeted microbes compared with control diets based on unweighted analysis (considering only absence and presence of taxa), but did not alter the overall composition of the colonizing community based on weighted UniFrac distances; unchanged relative abundances of major taxa included phyla Bacteroidetes, Firmicutes, and Fibrobacteres. The effect of 3-NOP on colonizing methanogenic microbes differed depending upon the forage incubated, as abundance of genus Methanobrevibacter was decreased for barley silage but not for grass hay. In conclusion, 3-NOP supplementation of a high-forage diet decreased ruminal methanogenesis and increased dissolved H concentration, but had no negative effects on ruminal fiber degradation and only minor effects on relative abundances of the major taxa of bacteria adhered to forage substrates incubated in the rumen.
3-硝基氧基丙烷(3-NOP)是一种研究中的化合物,作为一种酶抑制剂,可减少瘤胃甲烷生成。我们假设,当给饲喂高粗饲料的牛补充 3-NOP 时,H 会在瘤胃中积累,这可能会抑制饲料颗粒上微生物的定植和纤维的降解。因此,本研究采用体内技术研究了补充高粗饲料 3-NOP 对瘤胃纤维可降解性和饲料颗粒微生物定植的影响。8 头瘤胃瘘管肉牛按交叉设计分为 2 组(每组 4 头牛),设 2 个周期和 2 个处理。处理为对照(基础日粮)和 3-NOP(基础日粮添加 3-NOP,150mg/kg 干物质)。基础日粮由 45%大麦青贮料、45%切碎的干草和 10%浓缩料(干物质基础)组成。将干燥、粉碎的大麦青贮料和干草样品分别在每头动物的瘤胃中孵育 0、4、12、24、36、48、96、120、216 和 288 小时,以确定中性洗涤纤维(NDF)降解动力学。另外 2 个袋子孵育 4 和 48 小时,以评估附着在孵育饲料上的细菌群落。3-NOP 的日粮添加降低了(-53%)瘤胃液中溶解甲烷的浓度,增加了(+780%)H 的浓度,但对体内 NDF 降解没有实质性影响。添加 3-NOP 导致微生物群落的 α-多样性降低,定植群落的扩增子序列变异和系统发育多样性比对照日粮减少。主坐标分析图表明,与对照日粮相比,用 3-NOP 喂养的动物中孵育的饲料基于非加权分析(仅考虑分类群的存在和不存在)导致靶向微生物发生高度特异性变化,但基于加权 UniFrac 距离并未改变定植群落的总体组成;主要类群的相对丰度没有改变,包括厚壁菌门、Firmicutes 和纤维杆菌门。3-NOP 对定植甲烷微生物的影响因孵育的饲料而异,因为 Methanobrevibacter 属的丰度在大麦青贮料中减少,但在干草中没有减少。总之,高粗饲料日粮添加 3-NOP 可降低瘤胃甲烷生成和增加溶解 H 浓度,但对瘤胃纤维降解没有负面影响,仅对瘤胃中孵育的饲料底物上附着的主要细菌类群的相对丰度有较小影响。
