Food securityFactors influencing spinach E. coli contamination before harvest

Published 21 June 2013

Researchers have identified a variety of factors that influence the likelihood of E. coli contamination of spinach on farms prior to harvest. They found that E. coli contamination of spinach on farms in Colorado and Texas was 172 times more likely if the produce field was within ten miles of a poultry farm, and sixty-four times more likely if irrigated by pond water.

A team of researchers from Texas and Colorado has identified a variety of factors that influence the likelihood of E. coli contamination of spinach on farms prior to harvest. Their research is published in the July 2013 issue of the journal Applied and Environmental Microbiology.

“Microbial contamination of produce seems strongly influenced by the time since the last irrigation, the workers’ personal hygiene and the field’s use prior to planting of produce,” says first author Sangshin Park of Texas A&M University, College Station. “These factors, together with the role of weather in produce contamination should be the targets of future research efforts to design cost-effective strategies for control of produce contamination.”

An American Society for Microbiology release reports that E. coli contamination of spinach on farms in Colorado and Texas was 172 times more likely if the produce field was within ten miles of a poultry farm, and sixty-four times more likely if irrigated by pond water, says Park.

As E. coli is commonly used as an indicator of fecal contamination with food-borne pathogens, the practice of hygiene — availability of portable toilets and hand-washing stations for workers in the fields — and the absence of grazing or hay production on the fields prior to planting spinach, reduced the risk seven-fold.

Other potential risk factors tested in the study included numbers of workers, farm size, organic vs. conventional production, the use of chemical fertilizers, compost, and manure, says Park. The researchers assayed 955 spinach samples from twelve farms in the two states, finding that generic E. coli was present on 63 of them (6.6 percent).

Of particular note, the researchers tested their statistical model for spinach contamination to determine how accurately it was able to pinpoint the level of contamination. “The assessment of the predictive performance of a developed statistical model is largely omitted from food safety studies,” says Park. Their methodology may serve as a useful template for future investigations of contamination on farms, he says.

“Because produce is commonly consumed raw, it would be best to prevent pre-harvest contamination by food-borne pathogens all together or at least to reduce it,” says Park.

— Read more in Sangshin Park et al., “Generic Escherichia coli Contamination of Spinach at the Preharvest Stage: Effects of Farm Management and Environmental Factors,” Applied and Environmental Microbiology 79, no. 14 (July 2013): 4347–58 (DOI: 10.1128/AEM.00474-13)