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臭氧氧化作为一种非生物诱导方法,可提高植物产品的健康促进特性——综述。

Ozonation as a Method of Abiotic Elicitation Improving the Health-Promoting Properties of Plant Products-A Review.

机构信息

Department of Chemistry, Faculty of Food Sciences and Biotechnology, University of Life Sciences in Lublin, 20950, Lublin, Poland.

Department of Food Science and Technology, University of the Peloponnese, 24100 Antikalamos, Kalamata, Greece.

出版信息

Molecules. 2020 May 22;25(10):2416. doi: 10.3390/molecules25102416.

DOI:10.3390/molecules25102416
PMID:32455899
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7288181/
Abstract

In this review, the primary objective was to systematize knowledge about the possibility of improving the health-promoting properties of raw plant products, defined as an increase in the content of bioactive compounds, by using ozone. The greatest attention has been paid to the postharvest treatment of plant raw materials with ozone because of its widespread use. The effect of this treatment on the health-promoting properties depends on the following different factors: type and variety of the fruit or vegetable, form and method of ozone treatment, and dosage of ozone. It seems that ozone applied in the form of ozonated water works more gently than in gaseous form. Relatively high concentration and long contact time used simultaneously might result in increased oxidative stress which leads to the degradation of quality. The majority of the literature demonstrates the degradation of vitamin C and deterioration of color after treatment with ozone. Unfortunately, it is not clear if ozone can be used as an elicitor to improve the quality of the raw material. Most sources prove that the best results in increasing the content of bioactive components can be obtained by applying ozone at a relatively low concentration for a short time immediately after harvest.

摘要

在本次综述中,主要目的是系统地了解通过臭氧来提高原始植物产品(定义为生物活性化合物含量增加)的促进健康属性的可能性。由于臭氧的广泛应用,人们对植物原料的采后处理给予了最大的关注。这种处理对促进健康属性的影响取决于以下不同因素:水果或蔬菜的类型和品种、臭氧处理的形式和方法、臭氧的剂量。臭氧以臭氧水的形式应用似乎比以气体形式应用更为温和。同时使用相对较高的浓度和较长的接触时间可能会导致氧化应激增加,从而导致质量下降。大多数文献表明,臭氧处理会导致维生素 C 降解和颜色恶化。不幸的是,目前尚不清楚臭氧是否可以用作改善原料质量的诱导剂。大多数来源证明,通过在收获后立即短时间内以相对较低的浓度应用臭氧,可以获得提高生物活性成分含量的最佳效果。

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