肉牛日粮中添加茶籽皂苷后瘤胃原生动物和产甲烷菌的群落结构及微生物联系

The community structure and microbial linkage of rumen protozoa and methanogens in response to the addition of tea seed saponins in the diet of beef cattle.

作者信息

Tan Cui, Ramírez-Restrepo Carlos A, Shah Ali Mujtaba, Hu Rui, Bell Matt, Wang Zhisheng, McSweeney Chris

机构信息

Institute of Animal Nutrition, Sichuan Agricultural University, Chengdu, 611130 Sichuan China.

Commonwealth Scientific and Industrial Research Organisation, CSIRO Agriculture and Food, Australian Tropical Sciences and Innovation Precinct, James Cook University, Townsville, QLD 4811 Australia.

出版信息

J Anim Sci Biotechnol. 2020 Aug 12;11:80. doi: 10.1186/s40104-020-00491-w. eCollection 2020.

DOI:10.1186/s40104-020-00491-w

PMID:32832076

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7422560/

Abstract

BACKGROUND

This study investigated changes in rumen protozoal and methanogenic communities, along with the correlations among microbial taxa and methane (CH) production of six Belmont Red Composite beef steers fed tea seed saponins (TSS). Animals were fed in three consecutive feeding periods, a high-grain basal diet for 14 d (BD period) then a period of progressive addition of TSS to the basal diet up to 30 g/d for 20 d (TSS period), followed by the basal diet for 13 d without TSS (BDP post-control period).

RESULTS

The study found that TSS supplementation decreased the amount of the protozoal genus and increased and genera. During BDP period, the protozoa community of steers did not return to the protozoal profiles observed in BD period, with higher proportions of and and lower . The addition of TSS was found to change the structure of methanogen community at the sub-genus level by decreasing the abundance of methanogens in the SGMT clade and increasing the abundance of methanogens in the RO clade. The correlation analysis indicated that the abundance of SGMT clade methanogens were positively correlated with , and genus and SGMT clade methanogens were positively correlated with CH production. While RO clade were positively correlated with the proportion of genus, which was negatively correlated with CH emission.

CONCLUSIONS

These results suggest that different genera of rumen protozoa ciliates appear to be selectively inhibited by TSS, and the change in methanogen community at the subgenus level may be due to the mutualistic relationships between methanogens and rumen ciliates.

摘要

背景

本研究调查了六头饲喂茶籽皂苷（TSS）的贝尔蒙特红复合肉牛瘤胃原生动物和产甲烷菌群落的变化，以及微生物类群与甲烷（CH）产生之间的相关性。动物连续三个饲养期进行饲喂，先给予高谷物基础日粮14天（基础日粮期），然后在基础日粮中逐步添加TSS，直至30克/天，持续20天（TSS期），随后在无TSS的情况下给予基础日粮13天（基础日粮期后对照期）。

结果

研究发现，添加TSS可减少原生动物属的数量，并增加属和属的数量。在基础日粮期后对照期，肉牛的原生动物群落未恢复到基础日粮期观察到的原生动物特征，属和属的比例较高，属的比例较低。发现添加TSS会在亚属水平上改变产甲烷菌群落的结构，通过降低SGMT进化枝中产甲烷菌的丰度并增加RO进化枝中产甲烷菌的丰度。相关性分析表明，SGMT进化枝产甲烷菌的丰度与属、属呈正相关，SGMT进化枝产甲烷菌与CH产生呈正相关。而RO进化枝与属的比例呈正相关，属与CH排放呈负相关。

结论

这些结果表明，瘤胃原生动物纤毛虫的不同属似乎受到TSS的选择性抑制，亚属水平产甲烷菌群落的变化可能是由于产甲烷菌与瘤胃纤毛虫之间的共生关系。

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肉牛日粮中添加茶籽皂苷后瘤胃原生动物和产甲烷菌的群落结构及微生物联系

The community structure and microbial linkage of rumen protozoa and methanogens in response to the addition of tea seed saponins in the diet of beef cattle.

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