Effect of Low-Pressure Cold Plasma Treatment on Microbiological and Physicochemical Properties of Black Peppercorns

2021 From Innovation To Impact (FITI) Pub Date : 2021-12-08 DOI:10.1109/fiti54902.2021.9833050

G. De Silva, Samith Amarasena, Neville Amunugoda, S. Gunawardena, A. D. de Alwis

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Abstract

Spices contaminated with microorganisms can cause food spoilage and food borne diseases. Cold plasma is an emerging nonthermal sterilization method that can be used in place of wet or dry heat sterilization. This study was carried out to evaluate the efficacy of Low-Pressure Cold Plasma (LPCP) as a sterilization method and the potential changes in quality of black peppercorns after the treatment. LPCP (300 W, 30-liter, 0.3 mbar, 13.56 MHz) generated from oxygen fed at 2 cm3/s was used to treat commercially available peppercorns for 10 and 20 min at 150 and 250 W. Log reduction in Aerobic Plate Count and Yeasts & Moulds Count after treatment were 0.88 and 3.66, respectively. Water activity of peppercorn was significantly reduced due to treatment. The highest level of decontamination was observed at 250 W for 20 min; however, there was no change in the quality of volatile oils in black peppercorn. SEM images confirmed modifications of the surface of peppercorns and ATR-FTIR spectra confirmed there were no chemical changes in the functional groups on the surface of peppercorns with respect to piperine content. This study shows the potential in reducing natural fungal counts of black peppercorns using LPCP with minimum adverse effects to its quality.

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低压冷等离子体处理对黑胡椒微生物学和理化性质的影响

被微生物污染的香料会导致食物变质和食源性疾病。冷等离子体是一种新兴的非热灭菌方法，可用于代替干热或湿热灭菌。本研究旨在评价低压冷等离子体(LPCP)灭菌黑胡椒的效果及处理后黑胡椒品质的潜在变化。lcp (300 W, 30 l, 0.3 mbar, 13.56 MHz)由2 cm3/s供氧产生，在150和250 W下处理市售胡椒10和20分钟。处理后好氧平板菌数和酵母霉菌数的对数降低率分别为0.88和3.66。处理显著降低了胡椒的水分活性。最高去污水平为250 W，持续20 min;黑胡椒中挥发油的质量没有变化。SEM图像证实了胡椒表面的修饰，ATR-FTIR光谱证实了胡椒表面的官能团与胡椒碱含量没有化学变化。本研究表明，LPCP在降低黑胡椒天然真菌数量的同时，对黑胡椒品质的不良影响最小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 From Innovation To Impact (FITI)

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