- Noyes, Noelle R;
- Yang, Xiang;
- Linke, Lyndsey M;
- Magnuson, Roberta J;
- Cook, Shaun R;
- Zaheer, Rahat;
- Yang, Hua;
- Woerner, Dale R;
- Geornaras, Ifigenia;
- McArt, Jessica A;
- Gow, Sheryl P;
- Ruiz, Jaime;
- Jones, Kenneth L;
- Boucher, Christina A;
- McAllister, Tim A;
- Belk, Keith E;
- Morley, Paul S
It has been proposed that livestock production effluents such as wastewater, airborne dust and manure increase the density of antimicrobial resistant bacteria and genes in the environment. The public health risk posed by this proposed outcome has been difficult to quantify using traditional microbiological approaches. We utilized shotgun metagenomics to provide a first description of the resistome of North American dairy and beef production effluents, and identify factors that significantly impact this resistome. We identified 34 mechanisms of antimicrobial drug resistance within 34 soil, manure and wastewater samples from feedlot, ranch and dairy operations. The majority of resistance-associated sequences found in all samples belonged to tetracycline resistance mechanisms. We found that the ranch samples contained significantly fewer resistance mechanisms than dairy and feedlot samples, and that the resistome of dairy operations differed significantly from that of feedlots. The resistome in soil, manure and wastewater differed, suggesting that management of these effluents should be tailored appropriately. By providing a baseline of the cattle production waste resistome, this study represents a solid foundation for future efforts to characterize and quantify the public health risk posed by livestock effluents.