A recent review has established pathogen-specific foodborne illness burden estimates for leafy greens in the U.S. by combining three outbreak-based attribution models with illness incidence and economic cost models.
The European Commission recently made changes to the maximum levels of the mycotoxin deoxynivalenol (DON) in food with Commission Regulation (EU) 2024/1022, amending Regulation (EU) 2023/915.
The Peanut and Tree Nut Processors Association (PTNPA) recently returned from a milestone international trade visit in Côte d'Ivoire (Ivory Coast), where the nut industry is hopeful to meet U.S. food safety standards to enter the U.S. market.
The intensification of indoor agricultural systems must be achieved by specific processes that minimize negative impacts on the environment and place food safety front and center
Controlled environment agriculture can help meet food requirements of the future, but this objective must be achieved by specific processes that minimize negative impacts on the environment and place food safety front and center.
With funding from the Center for Produce Safety, a researcher from the University of Arizona is exploring the usefulness of a handheld genetic sequencing device for in-field microbial characterization of irrigation water by the produce industry.
PFAS are sometimes used in pesticides as active substances or co-formulants. An analysis of EU pesticide residue monitoring data by Pesticide Action Network Europe shows that the average proportion of produce containing PFAS pesticide residues in the EU has nearly tripled over the last decade.
The Environmental Working Group (EWG) has published its Dirty Dozen list for 2024, describing the 12 fruits and vegetables most contaminated with pesticide residues, alongside its Clean Fifteen list, which contains the 15 commodities with the lowest amounts of pesticide residue.
Researchers have created a coating for galvanized steel food containers that repels bacteria and fungi, is mud-resistant, and reduces the risk of corrosion.
A recent study has identified factors that determine the susceptibility of different leafy greens to foodborne Escherichia coli, including storage temperatures, leaf roughness, and natural wax coating. The researchers also found that the juices of kale and collard leaves have a natural antimicrobial effect.