Deep Impact: Shifts of Native Cultivable Microbial Communities on Fresh Lettuce After Treatment with Plasma-Treated Water

Overview

Journal Foods

Specialty Biotechnology

Date 2024 Jan 23

PMID 38254583

Authors

Hauke Winter

Robert Wagner

Jorg Ehlbeck

Tim Urich

Uta Schnabel

Affiliations

Soon will be listed here.

Abstract

Foods consumed raw, such as lettuce, can host food-borne human-pathogenic bacteria. In the worst-case, these diseases cause to death. To limit illness and industrial losses, one innovative sanitation method is non-thermal plasma, which offers an extremely efficient reduction of living microbial biomass. Unfortunately, the total viable count (TVC), one of the most common methods for quantifying antimicrobial effects, provides no detailed insights into the composition of the surviving microbial community after treatment. To address this information gap, different special agars were used to investigate the reduction efficiency of plasma-treated water (PTW) on different native cultivable microorganisms. All tested cultivable microbial groups were reduced using PTW. Gram-negative bacteria showed a reduction of 3.81 log, and Gram-positive bacteria showed a reduction of 3.49 log. Fungi were reduced by 3.89 log. These results were further validated using a live/dead assay. MALDI-ToF (matrix-assisted laser-desorption-ionization time-of-flight)-based determination was used for a diversified overview. The results demonstrated that Gram-negative bacteria were strongly reduced. Interestingly, Gram-positive bacteria and fungi were reduced by nearly equal amounts, but could still recover from PTW treatment. MALDI-ToF mainly identified spp. and groups of on the tested lettuce. These results indicate that the PTW treatment could efficiently achieve a ubiquitous, spectrum-wide reduction of microbial life.

Citing Articles

Plant Microbe Interaction-Predicting the Pathogen Internalization Through Stomata Using Computational Neural Network Modeling.

Li L, Ahmed S, Abdulraheem M, Hussain F, Zhang H, Wu J Foods. 2024; 13(23).

PMID: 39682918 PMC: 11640189. DOI: 10.3390/foods13233848.

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