PT  - JOURNAL ARTICLE
AU  - Juliana Young
AU  - Joseph H. Skarlupka
AU  - Rafael Tassinari Resende
AU  - Amelie Fischer
AU  - Kenneth F. Kalscheur
AU  - Jennifer C. McClure
AU  - John B. Cole
AU  - Garret Suen
AU  - Derek M. Bickhart
TI  - Validating the use of bovine buccal sampling as a proxy for the rumen microbiota using a time course and random forest classification approach
AID  - 10.1101/2020.04.10.036665
DP  - 2020 Jan 01
TA  - bioRxiv
PG  - 2020.04.10.036665
4099  - http://biorxiv.org/content/early/2020/04/13/2020.04.10.036665.short
4100  - http://biorxiv.org/content/early/2020/04/13/2020.04.10.036665.full
AB  - Analysis of the cow microbiome, as well as host genetic influences on the establishment and colonization of the rumen microbiota, is critical for development of strategies to manipulate ruminal function toward more efficient and environmentally friendly milk production. To this end, the development and validation of noninvasive methods to sample the rumen microbiota at a large-scale is required. Here, we further optimized the analysis of buccal swab samples as a proxy for direct microbial samples of the rumen of dairy cows. To identify an optimal time for sampling, we collected buccal swab and rumen samples at six different time points relative to animal feeding. We then evaluated several biases in these samples using a machine learning classifier (random forest) to select taxa that discriminate between buccal swab and rumen samples. Differences in the Simpson’s diversity, Shannon’s evenness and Bray-Curtis dissimilarities between methods were significantly less apparent when sampling was performed prior to morning feeding (P&amp;lt;0.05), suggesting that this time point was optimal for representative sampling. In addition, the random forest classifier was able to accurately identify non-rumen taxa, including 10 oral and feed-associated taxa. Two highly prevalent (&amp;gt; 60%) taxa in buccal and rumen samples had significant variance in absolute abundance between sampling methods, but could be qualitatively assessed via regular buccal swab sampling. This work not only provides new insights into the oral community of ruminants, but further validates and refines buccal swabbing as a method to assess the rumen microbiota in large herds.IMPORTANCE The gastrointestinal tract of ruminants harbors a diverse microbial community that coevolved symbiotically with the host, influencing its nutrition, health and performance. While the influence of environmental factors on rumen microbes is well-documented, the process by which host genetics influences the establishment and colonization of the rumen microbiota still needs to be elucidated. This knowledge gap is due largely to our inability to easily sample the rumen microbiota. There are three common methods for rumen sampling but all of them present at least one disadvantage, including animal welfare, sample quality, labor, and scalability. The development and validation of non-invasive methods, such as buccal swabbing, for large-scale rumen sampling is needed to support studies that require large sample sizes to generate reliable results. The validation of buccal swabbing will also support the development of molecular tools for the early diagnosis of metabolic disorders associated with microbial changes in large herds.