Every year 15-50% of cereals all around the world are lost due to fungal contamination and deterioration. In addition, 25% of crops, which are used for human and animal consumption, are contaminated with mycotoxins. It is obvious, that more effective and sustainable technologies for better microbial control of crops are required. For this purpose we evaluated antibacterial and antifungal activity of ZnO nanoparticles (NPs) (10-3-5 × 10-3M) activated with visible light (405 nm, 18-30 J/cm2). Obtained data indicated that this treatment can inactivate human pathogen E. coli B by 6 log CFU without any possibility to regrowth after treatment. Wheat pathogen Fusarium oxysporum was inactivated by 51.7%. Results indicated that reactive oxygen species took place in the mechanisms of inactivation. Moreover, visible light activated ZnO NPs reduced the population of mesophiles on the surface of grains by 2.5 log CFU/g, inoculated E. coli- by 2.0 log CFU/g and naturally distributed fungi-by 2.1 log CFU/g. This treatment had no impact on visual quality of grains, did not inhibit grain germination rate and slightly promoted grain seedling growth. Concluding, the use of visible light driven photocatalysis in ZnO nanoparticles has huge potential to control plant pathogens, reduce food-borne diseases and subsequently enhance the sustainability in agriculture, meeting the increasing demands of a growing world population.
Keywords: Microbial safety; Visible light; Wheat grains; ZnO nanoparticles.
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