P2-143 Efficacy of Commercial Citrus-based Disinfectants to Inhibit Growth, Swarming, and Biofilm Formation of Salmonella and Decontaminate Parsley

Tuesday, July 30, 2013
Exhibit Hall (Charlotte Convention Center)
Alam Garcia, Universidad Autónoma de Nuevo Leon, San Nicolas, N.L., Mexico
Nydia Orue, Universidad Autónoma de Nuevo Leon, Guadalupe, Mexico
Norma Heredia, Universidad A. de Nuevo Leon, Monterrey, Mexico
Santos Garcia, Universidad A. de Nuevo Leon, San Nicolas, Mexico
Introduction: Biofilms allow bacteria to adhere to biological or nonbiological surfaces and are difficult to remove, whereas swarming enables the rapid colonization of nutrient-rich environments. Synthetic compounds have been widely used by the produce industry to reduce microbial contamination; however, there is a consumer-driven trend toward fewer synthetic food additives and more natural products.

 Purpose: The efficacy of six commercial citric-based antimicrobial formulations to control growth, biofilm production, and swarming of Salmonella was determined. Furthermore, the efficacy of Citrik Agro to disinfect contaminated parsley was established.

 Methods: Minimum bactericidal concentrations (MBCs) of the disinfectants against five Salmonella strains were evaluated by the microplate-dilution method. For the swarm motility test, subinhibitory concentrations of the disinfectants were mixed with Luria–Bertani agar. Biofilm formation was quantified in microplates with broth after staining with safranin. Parsley was artificially contaminated with Salmonella, then washed with the product and the presence of Salmonella was determined after several days.

 Results: The MBCs of the disinfectants ranged from 81 to 922 µg/ml. The product was the most effective inhibitor of Salmonella growth (MBC: 81–105 µg/ml). Most disinfectants inhibited biofilm formation at 75% of the MBC, and a reduction was observed at lower concentrations. However, the product inhibited biofilm formation even at 25% of the MBC, and it also produced a higher (P < 0.05) swarming reduction (75%) when 75% of the MBC was used, compared to the other disinfectants. In addition, the product reduced more than 2 logs of Salmonella in parsley. This reduction was higher (P <  0.05) than that observed by the chlorine treatment.

 Significance: Citric extract-based products could be a natural alternative to reduce the risk of Salmonella contamination in fresh produce.