Seasonal changes in the digesta-adherent rumen bacterial communities of dairy cattle grazing pasture.

Samantha J Noel,Graeme T Attwood,Garry C Waghorn,Christina D Moon,Jasna Rakonjac,Peter H Janssen,Hauke Smidt

doi:10.1371/journal.pone.0173819

Samantha J Noel, Graeme T Attwood + Show 5 more

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https://doi.org/10.1371/journal.pone.0173819

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Journal: PloS one	Publication Date: Mar 15, 2017
Citations: 37	License type: CC BY 4.0

Affiliation: Massey University, AgResearch, Aarhus University

Abstract

The complex microbiota that resides within the rumen is responsible for the break-down of plant fibre. The bacteria that attach to ingested plant matter within the rumen are thought to be responsible for initial fibre degradation. Most studies examining the ecology of this important microbiome only offer a ‘snapshot’ in time. We monitored the diversity of rumen bacteria in four New Zealand dairy cows, grazing a rye-grass and clover pasture over five consecutive seasons, using high throughput pyrosequencing of bacterial 16S rRNA genes. We chose to focus on the digesta-adherent bacterial community to learn more about the stability of this community over time. 16S rRNA gene sequencing showed a high level of bacterial diversity, totalling 1539 operational taxonomic units (OTUs, grouped at 96% sequence similarity) across all samples, and ranging from 653 to 926 OTUs per individual sample. The nutritive composition of the pasture changed with the seasons as did the production phase of the animals. Sequence analysis showed that, overall, the bacterial communities were broadly similar between the individual animals. The adherent bacterial community was strongly dominated by members of Firmicutes (82.1%), followed by Bacteroidetes (11.8%). This community differed between the seasons, returning to close to that observed in the same season one year later. These seasonal differences were only small, but were statistically significant (p < 0.001), and were probably due to the seasonal differences in the diet. These results demonstrate a general invariability of the ruminal bacterial community structure in these grazing dairy cattle.

Highlights

The rumen is a specialised organ that allows fermentation of ingested plant material by a complex consortium of microbes including prokaryotic bacteria and archaea, and eukaryotic fungi and protozoa
In August the pasture was the best quality of the five periods sampled, characterised by high metabolisable energy (ME), organic matter digestibility (OMD), crude protein (CP) and neutral detergent fibre (NDF) (Table 2), and the rumen contents at that time had the greatest concentrations of volatile fatty acids (VFA), consistent with a rapid fermentation
The VFA concentrations in the rumen were lower in November when the feed quality was lower, characterised by increased fibre fractions (ADF and NDF) and lower organic matter digestibility (OMD) of the feed (Table 2)

Summary

Introduction

The rumen is a specialised organ that allows fermentation of ingested plant material by a complex consortium of microbes including prokaryotic bacteria and archaea, and eukaryotic fungi and protozoa. The rumen microbiota converts ingested plant matter to microbial. AgResearch Ltd. and DairyNZ did not control which data were presented or how these data were interpreted within this paper. This does not alter the authors’ adherence to all the PLOS ONE policies on sharing data and materials. The other authors have declared that no competing interests exist. There are no patents, products in development or marketed products to declare

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