Immature, vegetable-like fruits are produced by crops of great economic importance, including cucumbers, zucchini, eggplants and bell peppers, among others. Because of their high respiration rates, associated with high rates of dehydration and metabolism, and their susceptibility to chilling injury (CI), vegetable fruits are highly perishable commodities, requiring particular storage conditions to avoid postharvest losses. This review focuses on the oxidative stress that affects the postharvest quality of vegetable fruits under chilling storage. We define the physiological and biochemical factors that are associated with the oxidative stress and the development of CI symptoms in these commodities, and discuss the different physical, chemical and biotechnological approaches that have been proposed to reduce oxidative stress while enhancing the chilling tolerance of vegetable fruits.
Zucchini fruit is susceptible to develop chilling injuries (CI) when stored at low temperature. In this study, the effects of a preconditioning treatment during cold storage and its relation with the physiological response to chilling tolerance have been investigated. The commercial variety Sinatra, whose fruit are very sensitive to cold storage, has been used. After harvest, fruit were kept at 4 ∘ C or preconditioned during 48 h at 15 ∘ C before cold storage. Weight loss, electrolyte leakage and lipid peroxidation were lower in preconditioned at the end of storage time, and CI index was significantly reduced in preconditioned compared to control fruit. The preconditioning treatment improved the energy status of the fruit increasing the pool of ATP, and maintaining the energy charge. The preconditioned fruit improved their antioxidant status with lower H 2 O 2 content and induction of ascorbate peroxidase (APX) and catalase (CAT) activities. A reduction in putrescine was detected in preconditioned fruit along with a lower expression of arginine decarboxylase (ADC) and ornithine decarboxylase (ODC) and a rise in activity of diamine oxidase (DAO). The concentrations of glutamate and -aminobutyrate (GABA) were lower during preconditioning, while that of proline was higher. In summary, preconditioning treatment induces chilling tolerance in zucchini fruit triggering a defence-response against oxidative stress and increasing ATP pool and proline content.
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