Molecular Evidence of Clonal Salmonella Enteritidis Persistence in Poultry Cold-Chain Environments Under Environmental Stress.
Khaled S Gazi, Wafa A Alshehri, Alhanouf M Alkhammash, Nada Alqadri, Fayez Saeed Bahwerth, Roua S Baty, Nahlah N Albakri, Ashjan F Khalel, Tariq Abdulmutaleb Alpakistany, Mohammad Melebari
Abstract
Open AccessBreakdown of cold-chain integrity drives the persistence of foodborne pathogens in poultry supply chains in warm, mountainous climates. This study used Al-Mandaq (Saudi Arabia) as a model to assess genetic diversity and contamination in bacteria from poultry storage units using 16S rRNA sequencing, VITEK 2, selective culturing, and ISSR/RAPD fingerprinting on 150 swabs. The Salmonella enterica complex comprised 15/29 isolates (51.7%), followed by Escherichia spp. 6/29 (20.7%) and Bacillus spp. 3/29 (10.3%). Five Salmonella serovars were identified: Enteritidis (8), Waycross (3), Minnesota (2), Typhimurium (1), and Dublin (1). S. Enteritidis accounted for 8/29 isolates (27.6%) and predominated among Salmonella in supermarket retail samples in Al-Mandaq. Combined ISSR and RAPD cluster analysis revealed highly clonal S. Enteritidis groupings, consistent with cross-contamination and prolonged survival in refrigeration equipment. In resource-limited settings, the combined ISSR and RAPD approach enhanced identification and differentiation of bacterial contamination sources within refrigeration equipment, providing superior strain-level discrimination compared to single-marker systems and improving epidemiological traceability of cross-contamination events. These results highlight the risk of clonal pathogen persistence in poultry cold-chain environments and the value of integrated molecular fingerprinting for surveillance in challenging climates.