Comparing disinfection efficacies of same type sanitizer using a combined microbial reduction/16S rRNA analysis strategy.
Lactic acid (LA) and acetic acid (AA) are independently used to disinfect fresh leaf vegetables. LA has a higher efficacy but costs more than AA. Herein, we compared the disinfection efficacy of LA, AA, and their mixture on lettuce to determine whether the cheaper acid mixture shows similar or more efficacy than LA. Quality analysis indicated that the acid mixture and individual acids did not cause additional loss of instrument color and polyphenolic content compared with that of the control; however, visible defects were observed at AA concentrations exceeding 0.8%. Analysis of Escherichia coli O157:H7, Listeria monocytogenes, and naturally present microbes (aerobic mesophilic and psychrotrophic bacteria, coliforms, molds, and yeasts) showed that the acid mixture led to the highest reduction in microbial count during storage. 16S rRNA sequencing was further employed to understand the effects of the acid mixture and individual acids on lettuce microbial ecology. During storage, the acid mixture and individual acids significantly decreased the abundance of Massilia spp. and Alkanindiges spp. but there was a marked increase in Escherichia-Shigella abundance (LA: 0.003–58.82%; AA: 0.01–55.34%; acid mixture: undetected to 50.71%; control: 0.007–33.09%), indicating that acid disinfection altered the microbial ecology to stimulate Escherichia-Shigella growth. These results enhance our understanding of the relationship between lettuce disinfection and ecological changes.
14In this study, we aimed to determine the organic acids (acetic, lactic, citric, malic, 15 propionic, succinic, and tartaric acids; 1% and 0.5%, w/w or v/v) that were most 16 effective for fresh-cut lettuce disinfection based on analysis of quality (i.e., color, 17 electrolyte leakage, and sensory quality) and microbial examination. The results 18 showed that these acids did not negatively affect the color quality (i.e., L * , a * , b * , 19 whiteness index, and sensory color). Additionally, 0.5% lactic acid led to the lowest 20 electrolyte leakage (0.83%), which was not significantly different (p > 0.05) from that 21 of distilled water (0.46%). Lactic acid (1%) did not affect the sensory quality and led 22 to the highest microbial reduction (1.45 log reduction in aerobic plate counts [APCs]; 23 2.31 log reduction in molds and yeasts [M&Y]) and was therefore recommended as 24 the primary choice for lettuce disinfection. Malic acid (0.5%), with a 1.07% 25 electrolyte leakage rate, 0.73 log reduction in APCs, and 1.40 log reduction in M&Y, 26 was better than the other six acids (0.5%) and was recommended as a pH regulator 27 and a potential synergistic agent for oxidizing sanitizers. Acetic acid (1%) negatively 28 affected the sensory quality and led to the highest electrolyte leakage (2.90%). 29Microbial analysis showed that propionic acid (0.5% and 1%) was ineffective for 30 disinfection of lettuce (p > 0.05); thus, acetic and propionic acids were not 31 recommended. Our results provide insights into the choice of sanitizers and formula 32 design in food safety. 33 IMPORTANCE 34Since chlorine is forbidden in several countries, generally recognized as safe 35 organic acids are used in minimal processing industries and in household sanitizers. 36The disinfection efficacy of organic acids has been studied when used alone or with 37 oxidizing sanitizers. However, since different antibacterial mechanisms, contact time, 38 fresh produce, and concentration have been reported, the acids most effective for 39 single fresh produce disinfection, especially that of lettuce, an important salad 40 vegetable, are not known. Moreover, in developing countries, because of 41 imperfections in field management, cold chain transportation, and minimal processing 42 industry development, the demand for low-cost household sanitizers is greater than 43 that for minimally processed fresh produce. In this work, microbial load in lettuce was 44 determined after disinfecting with seven GRAS organic acids. The changes in quality 45 were also determined. These results provide insights into the choice of minimal 46 processing sanitizers and a formula design for household sanitizers. 47 48
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