Abstract
The goal of this study was to characterize the microbial profile of two different fresh pork cuts, bootjack (BJ) trim and tenderloin (TL), through a 16S rRNA sequencing workflow developed specifically for investigating low-biomass fresh meat within a commercial production schedule. Additionally, this study aimed to determine a baseline Salmonella prevalence and enumeration profile across these two fresh pork cuts. Results showed that microbiome diversity was different between the BJ and TL, and also differed significantly by processing date. The relative abundance of key bacterial genera associated with food safety and spoilage was also different between the two meat types. However, over the course of the production shift, changes in the meat microbiome were limited in both the BJ and TL. The crude prevalence and enumerated burden of Salmonella were lower than what has been previously reported in similar fresh pork cuts, and all of the Salmonella-positive samples occurred on just two processing windows of 1-2 days each. Taken together, the results of this study suggest that the microbial profile of two fresh pork cuts is significantly different even within the same plant at the same time points, and that day-to-day variability within the production process likely influences both the fresh pork microbiome and Salmonella profile of these two meat types.IMPORTANCEModern pork processing involves a series of processes that begin with the handling and transport of the live animals, proceed through harvest and fabrication, and end with the packaging and distribution of fresh pork to the consumer. Each step in this process can alter the microbial community of fresh pork and influence the meat's safety and shelf life. However, little is known about the microbial ecology of individual, unprocessed pork cuts and if the diversity of the meat microbiome remains consistent throughout a production schedule. Additionally, the crude prevalence and enumeration of Salmonella have not been well established for individual fresh pork cuts throughout a production schedule. A more thorough understanding of the microbial profile at different stages of pork production will help processors determine processing steps that impact the microbial characteristics of fresh pork. This insight will help processors implement targeted intervention strategies to enhance food safety and quality.