Litcius/Paper detail

Combined Quantification and Deep Serotyping for Salmonella Risk Profiling in Broiler Flocks

Tomi Obe, Amy T. Siceloff, Megan G. Crowe, H.M. Scott, Nikki W. Shariat

2023Applied and Environmental Microbiology29 citationsDOIOpen Access PDF

Abstract

Nearly one in five foodborne Salmonella illnesses are derived from chicken, making it the largest single food category to cause salmonellosis and indicating a need for effective pathogen mitigation. Although industry has successfully reduced Salmonella incidence in poultry products, there has not been a concurrent reduction in human salmonellosis linked to chicken consumption. New efforts are focused on improved control at preharvest, which requires improved Salmonella surveillance. Here, we present a high-resolution surveillance approach that combines quantity and identity of Salmonella in broiler flocks prior to processing which will further support improved Salmonella controls in poultry. We developed a framework for this approach, indicating that it is possible and important to harness deep serotyping and molecular enumeration to inform on-farm management practices and to minimize risk of cross-contamination between flocks at processing. Additionally, this framework could be adapted to Salmonella surveillance in other food animal production systems.

Topics & Concepts

SalmonellaFlockSerotypeBroilerSalmonella Food PoisoningBiologyPoultry farmingPathogenFood microbiologyVeterinary medicineMicrobiologyFood scienceBacteriaMedicineEcologyGeneticsSalmonella and Campylobacter epidemiologyIdentification and Quantification in FoodListeria monocytogenes in Food Safety