MICROBIOLOGY OF COMMERCIAL SHELL EGG PROCESSING

Authors: Musgrove, Michael; Jones, Deana; Northcutt, Julie; HARRISON, MARK - UGA; Cox Jr, Nelson

Submitted to: United States-Japan Cooperative Program in Natural Resources
Publication Type: Proceedings
Publication Acceptance Date: 9/19/2004
Publication Date: 11/15/2004
Citation: Musgrove, M.T., Jones, D.R., Northcutt, J.K., Harrison, M.A., Cox Jr, N.A. 2004. Microbiology of commercial shell egg processing. United States-Japan Cooperative Program in Natural Resources. p.118-126.

Interpretive Summary: Though there is a great deal of literature about the microbiology of shell eggs, little of it describes how modern US processing conditions impact bacterial populations. As regulations are being drafted for the industry, this information can be important in determining processing steps that are critical to product safety (critical control points). Five different shell egg surface populations (aerobic, yeasts/molds, Enterobacteriaceae, E. coli, and Salmonella spp.) were monitored at twelve points along the processing line (from accumulator to packaging) at three commercial facilities. Significant reductions in population levels were observed for all aerobic, yeasts/molds, Enterobacteriaceae, and E. coli populations after eggs were processed. Washing also decreased the prevalence of each population. Salmonella were recovered from 0 ' 62 % of pooled samples in the six repetitions. These data show fluctuations in level and prevalence for each population but demonstrate that current commercial practices decrease microbial contamination of egg shell surfaces.

Technical Abstract: Though there is a great deal of literature about the microbiology of shell eggs, little of it describes how modern US processing conditions impact bacterial populations. As regulations are being drafted for the industry, this information can be important in determining processing steps that are critical to product safety (critical control points). Five different shell egg surface populations (aerobic, yeasts/molds, Enterobacteriaceae, E. coli, and Salmonella spp.) were monitored at twelve points along the processing line (from accumulator to packaging) at three commercial facilities. Significant reductions in population levels were observed for all aerobic, yeasts/molds, Enterobacteriaceae, and E. coli populations after eggs were processed. Washing also decreased the prevalence of each population. Salmonella were recovered from 0 ' 62 % of pooled samples in the six repetitions. These data show fluctuations in level and prevalence for each population but demonstrate that current commercial practices decrease microbial contamination of egg shell surfaces.