Study assays cross-contamination under dry conditions

Many researchers have examined the potential for microbial cross-contamination under wet packinghouse conditions, but few have looked at the risk in a dry environment.?Nitin Nitin, Ph.D., with the University of California, Davis, hopes to shed light on microbial behavior under dry conditions and provide science-based information on which packers can base risk assessments. ?I think it will immediately help the industry identify and answer the questions on the relative level of risk of cross-contamination in a dry environment and also help identify the potential risk factors,? he said. To that end, Nitin said he envisioned the research results will help the industry develop an improved understanding of cross-contamination risks and develop mitigation approaches including cleaning and sanitation to reduce those risks. The CPS-funded project involves laboratory experiments with yellow onions and peaches as well as two different surface materials typically found in packinghouses. Onions are packed under entirely dry conditions, while peach processing has a combination of a wet wash and dry packaging. The research results also have wide-ranging applications in the produce industry, as he said many items undergo a portion of handling and packaging under dry conditions. ?The fate of bacteria is very different in a dry environment than when water is present,? Nitin said. ?How do the bacteria move from produce to a food surface or from the food contact surface to produce is something we need to understand better.? Joining as co-principal investigator in the project, titled ?Cross contamination risks in dry environments,? is Linda Harris, Ph.D., also with UC Davis.? ?Her expertise and wealth of experience with fresh produce, especially with dry produce, is invaluable for developing this project,? said Nitin, whose focus is on food engineering.? Harris also is collaborating with Oregon State University on another CPS-funded project that examines how production practices affect dry bulb onion safety. Between the two projects, Nitin said they provide a continuum of what happens in the field and what happens in the packinghouse. In the laboratory, the researchers are focusing on?Salmonella?because the pathogen is known to survive for long periods in dry environments compared to?E. coli?or?Listeria,?which don?t do well under similar settings. They also are using the surrogate organism?Enterococcus faecium?so they can benchmark their results against standard and acceptable practices. The experiments are designed to mimic cross-contamination that may occur in a dry packinghouse environment.?They measured microbial transfer from simulated packing surfaces ? stainless steel and common plastic surfaces such as polyurethane ? to onions and stone fruit.?Along the same lines, the researchers assessed the transfer rate from inoculated produce items to packinghouse surfaces. As part of the experiment, the treatments were held under a range of conditions and durations to measure bacterial die-off. The time period was selected to reflect the 2- to 3-month-long onion packing season. They also examined the influence of onion juice on packing surfaces in influencing the transfer of bacteria from the surface to onions. ?Surprisingly, we observed that the presence of onion juice enhances the transfer rate of bacteria compared to surfaces without onion juice,? Nitin said. ?We did not observe any significant inhibition of the inoculated bacteria in the presence of onion juice.? Although the results are preliminary, the researchers found bacterial species and transfer direction significantly influenced microbial movement between the produce and contact surfaces. The inoculum carrier ? whether nutrient broth, onion extract or a soil-water mixture ? also played a role in transfer. ?One of the things we found is the transfer rate in a dry environment is significantly lower than in a wet environment from what?s reported in the literature,? Nitin said.? ? About CPS The Center for Produce Safety (CPS) is a 501(c)(3), U.S. tax-exempt, charitable organization focused exclusively on providing the produce industry and government with open access to the actionable information needed to continually enhance the safety of produce.