A novel postharvest preservation technology of fruit—Intermittent high oxygen treatment: A case study on “Lingwu” long jujube

Abstract

Fresh “Lingwu” long jujube (Ziziphus jujuba cv. Mill) fruit is susceptible to softening, water loss, and flavor change during storage. The effect of intermittent high oxygen treatment (IHOT) on the quality of jujube was investigated, which was immersed in the oxygen concentration of 50% and 90% for 30 min every week along with 8 weeks of storage at 0 ± 1°C. Significantly, the firmness, weight loss, soluble solids content (SSC), and membrane integrity were significantly retarded in 50% and 90% IHOT. Meanwhile, the activities of peroxidase (POD) were maintained a higher level after 35 d storage in 50% IHOT. And the activities of alcohol dehydrogenase (ADH) were significantly inhibited, and the peak was delayed by 50% IHOT. Furthermore, polyphenol oxidase (PPO) activity was barely changed during the first 28 days of storage, and the lowest enzymatic activity was shown later in the 50% IHOT. These results indicated that the short-term HOIT with appropriate concentration (50%) delayed the softening, maintained the moisture content and membrane integrity, and modulated key metabolic pathways of jujube fruit. As a whole, the applicability of IHOT could prolonged the shelf life of fresh jujube, which shows a great potential, in the application of fruit preservation. Practical applications Evaluation of different oxygen concentrations and treated models on jujube fruit helps the development of preservation technology for extending the shelf life of fruits. The application of intermittent high oxygen treatment to the fruits and vegetables was helpful to a novel postharvest preservation technology and the development of the fresh jujube fruit market.