Prolonged feeding of high-concentrate diet remodels the hindgut microbiome and modulates nutrient degradation in the rumen and the total gastrointestinal tract of cows

IF 3.7 1区 农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Raul Rivera-Chacon , Cátia Pacífico , Sara Ricci , Renee M. Petri , Nicole Reisinger , Qendrim Zebeli , Ezequias Castillo-Lopez
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引用次数: 0

Abstract

The aims of this research were to evaluate how prolonged feeding of a high-concentrate diet affects the ruminal degradation kinetics of fiber and starch, and to evaluate the effects of the high-concentrate diet on apparent total-tract nutrient digestibility in dairy cows. We also investigated the dysbiotic effects and the remodeling of the hindgut microbiome with prolonged high-concentrate feeding. Nine Holstein cows were used in 2 experimental periods; in each period, cows were first fed a 100% forage diet for 1 wk, followed by stepwise adaptation during one week to a high-concentrate (HC) diet (65% concentrate), which was then fed for 4 consecutive weeks. The kinetics of in situ ruminal degradability of grass silage (DM and NDF), corn grain and wheat grain (DM and starch), as well as the apparent total-tract nutrient digestibility were evaluated in the forage feeding and in wk 4 on the HC diet. Whereas the hindgut microbiome and fermentation profile were evaluated on a weekly basis. Regarding the in situ ruminal degradability due to grain type, the rate of degradation of the potentially degradable fraction and the effective rumen degradability of wheat grain were greater compared with corn grain. The in situ ruminal degradability of NDF decreased with the HC diet. However, the apparent total-tract digestibility of CP, fat, starch, NDF, ADF, and NFC increased with the HC diet compared with forage feeding. In addition, the HC diet increased the concentration of short-chain fatty acids in the hindgut, lowering fecal pH by 0.6 units, which correlated positively with microbial α diversity. This resulted in lower α diversity with the HC diet; however, α diversity (number of amplicon sequence variants) showed recovery in wk 3 and 4 on HC; in addition, microbial β diversity did not change from wk 2 onward on the HC diet. Two microbial enterotypes were identified: one for the forage diet with abundance of Akkermansia and Anaerosporobacter, and another enterotype for the HC diet with enrichment in Bifidobacterium and Butyrivibrio. Overall, results show that major microbial shifts and hindgut dysbiosis occurred in wk 1 on the HC diet. However, the hindgut microbial diversity of cows adapted after 3 wk of consuming the starch-rich ration. Thus, feeding the HC diet impaired fiber degradation in the rumen, but increased apparent total-tract nutrient digestibility. Likely, the forage diet contained less digestible NDF than the HC diet due to greater inclusion of forages with lower NDF digestibility and lower inclusion of more digestible nonforage NDF. Results also suggest that the adaptation of the hindgut microbial diversity of cows observed 3 weeks after the diet transition likely contributed to enhance total-tract nutrient digestibility.
长期饲喂高浓缩日粮可重塑奶牛后肠微生物群,并调节瘤胃和整个胃肠道的营养降解。
这项研究的目的是评估长期饲喂高浓缩日粮如何影响纤维和淀粉的瘤胃降解动力学,并评估高浓缩日粮对奶牛表观总道养分消化率的影响。我们还研究了长期饲喂高浓缩饲料对后肠微生物群的菌群失调影响和重塑。九头荷斯坦奶牛被分成两个实验阶段;在每个阶段中,奶牛先饲喂 100%饲草日粮(Forage)一周,然后在一周内逐步适应高精料日粮(HC;65% 精料),并连续饲喂四周。在饲喂青贮饲料和饲喂高浓缩饲料的第 4 周,对青贮草(DM 和 NDF)、玉米粒和小麦粒(DM 和淀粉)的瘤胃原位降解动力学以及表观总养分消化率进行了评估。而后肠微生物群和发酵情况则每周评估一次。关于谷物类型引起的瘤胃原位降解率,小麦谷物潜在可降解部分的降解率和有效瘤胃降解率均高于玉米谷物。NDF的瘤胃原位降解率随着HC日粮的添加而降低。但是,与饲喂饲料相比,HC 日粮的粗蛋白、脂肪、淀粉、NDF、ADF 和 NFC 的表观总消化率增加了。此外,HC 日粮增加了后肠中短链脂肪酸的浓度,使粪便 pH 值降低了 0.6 个单位,这与微生物 α 多样性呈正相关。这导致 HC 导致α多样性降低;然而,α多样性(ASV 数量)在使用 HC 的第 3 和第 4 周出现恢复;此外,从使用 HC 的第 2 周起,微生物 β 多样性没有变化。确定了两种微生物肠型:一种用于饲粮,富含 Akkermansia 和 Anaerosporobacter;另一种用于 HC 饲粮,富含双歧杆菌和 Butyrivibrio。总之,结果表明,在饲喂 HC 的第 1 周,出现了重大的微生物转变和后肠菌群失调。然而,奶牛在食用富含淀粉的日粮 3 周后,其后肠微生物多样性得到了适应。因此,饲喂 HC 日粮影响了纤维在瘤胃中的降解,但增加了表观总养分消化率。饲粮中可消化的 NDF 可能少于 HC 日粮,这是因为饲粮中含有较多 NDF 消化率较低的饲草,而可消化的非饲草 NDF 含量较低。结果还表明,日粮转换 3 周后观察到的奶牛后肠微生物多样性的适应性可能有助于提高总茎秆营养物质的消化率。
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来源期刊
Journal of Dairy Science
Journal of Dairy Science 农林科学-奶制品与动物科学
CiteScore
7.90
自引率
17.10%
发文量
784
审稿时长
4.2 months
期刊介绍: The official journal of the American Dairy Science Association®, Journal of Dairy Science® (JDS) is the leading peer-reviewed general dairy research journal in the world. JDS readers represent education, industry, and government agencies in more than 70 countries with interests in biochemistry, breeding, economics, engineering, environment, food science, genetics, microbiology, nutrition, pathology, physiology, processing, public health, quality assurance, and sanitation.
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