Abstract
BackgroundThe blanket usage of antimicrobials at the end of lactation (or “drying off”) in dairy cattle is under increasing scrutiny due to concerns about antimicrobial resistance. To lower antimicrobial usage in dairy farming, farmers are now encouraged to use “selective dry cow therapy” whereby only cows viewed as at high risk of mastitis are administered antimicrobial agents. It is important to gain a better understanding of how this practice affects the udder-associated microbiota and the potential knock-on effects on antimicrobial-resistant bacterial populations circulating on the farm. However, there are challenges associated with studying low biomass environments such as milk, due to known contamination effects on microbiome datasets. Here, we obtained milk samples from cattle at drying off and at calving to measure potential shifts in bacterial load and microbiota composition, with a critical assessment of contamination effects.ResultsSeveral samples had no detectable 16S rRNA gene copies and crucially, exogenous contamination was detected in the initial microbiome dataset. The affected samples were removed from the final microbiome analysis, which compromised the experimental design and statistical analysis. There was no significant difference in bacterial load between treatments (P > 0.05), but load was lower at calving than at drying off (P = 0.039). Escherichia coli counts by both sequence and culture data increased significantly in the presence of reduced bacterial load and a decreasing trend of microbiome richness and diversity. The milk samples revealed diverse microbiomes not reflecting a typical infection profile and were largely comprised of gut- and skin-associated taxa, with the former decreasing somewhat after prolonged sealing of the teats.ConclusionsThe drying off period had a key influence on microbiota composition and bacterial load, which appeared to be independent of antimicrobial usage. The interactions between drying off treatment protocol and milk microbiome dynamics are clearly complex, and our evaluations of these interactions were restricted by low biomass samples and contamination effects. Therefore, our analysis will inform the design of future studies to establish whether different selection protocols could be implemented to further minimise antimicrobial usage.
Highlights
Mastitis is a highly prevalent and economically detrimental disease affecting dairy cattle, with the cost of mastitis in the UK being estimated at £170 million per year [1, 2].The drying off period marks the end of a lactation cycle, and the udder is commonly artificially sealed using commercially available teat sealants to enable healing and to minimise the potential for infection
Somatic cell count readings obtained from milk samples are used as a proxy for the concentration of leucocytes in milk [5] and used as a selection criterion for the appropriate drying off treatment protocol—using a teat sealant only, or a teat sealant and intramammary antimicrobials
Bacterial load measured by Quantitative polymerase chain reaction (qPCR) Despite differences in copy number of the 16S 16S ribosomal ribonucleic acid (rRNA) gene among bacteria, bacterial load may be broadly inferred by total gene copies
Summary
Mastitis is a highly prevalent and economically detrimental disease affecting dairy cattle, with the cost of mastitis in the UK being estimated at £170 million per year [1, 2].The drying off period marks the end of a lactation cycle, and the udder is commonly artificially sealed using commercially available teat sealants to enable healing and to minimise the potential for infection. Due to concerns about antimicrobial resistance, selective dry cow therapy is being encouraged, whereby only cattle deemed most at risk of mastitis are administered long acting intramammary antimicrobials after lactation. This practice assumes that reduced antimicrobial usage will slow the development of antimicrobial-resistant bacteria. Selective dry cow therapy is viewed as a positive change in the industry, further work is required to establish how this practice affects bacterial populations and their abundance, and the potential knock-on effects on the antimicrobial resistance determinants in the udder. We obtained milk samples from cattle at drying off and at calving to measure potential shifts in bacterial load and microbiota composition, with a critical assessment of contamination effects
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