INFIVE   05416
INSTITUTO DE FISIOLOGIA VEGETAL
Unidad Ejecutora - UE
artículos
Título:
Physiological effects of postharvest UV treatments: recent progress
Autor/es:
CIVELLO MARCOS; VILLARREAL NATALIA; GOMEZ LOBATO MARÍA EUGENIA; MARTÍNEZ, GUSTAVO ADOLFO
Revista:
Stewart Postharvest Review
Editorial:
SPS Ltd
Referencias:
Año: 2014 vol. 10 p. 1 - 1
ISSN:
1745-9656
Resumen:
Purpose of review: The goal of this review is to summarize the recent progress on the effects of UV radiation on fruits and vegetables metabolism. Main findings: Effective UV irradiation treatments can delay ripening and senescence, decrease decay and ameliorate the effects of chilling injury. The effects of the treatment on metabolism depend highly on irradiation intensity, and not only on the UV dose applied. Irradiation causes a temporary stress that significantly modifies the metabolism of fruits and vegetables, affecting the level of enzyme activities and gene expression. A complex defense response against pathogens arises in the irradiated tissue, which includes the induction of a wide range of genes and the modification of enzyme activities, as well as de novo synthesis of pathogenesis related proteins (PR) and the increase of secondary metabolites. Particularly, UV treatment affects oxidative metabolism and enhances the antioxidant capacity of the product, which could contribute significantly to delaying vegetable senescence, generating defense responses, and reducing chilling injury. In some cases, the radiation stimulates the synthesis of bioactive compounds that can increase the beneficial properties of fruits, vegetables and their by-products. Limitations/implications: As the knowledge of mode of action of UV treatments increases, more efficient postharvest irradiation treatments can be designed. The finding of adequate irradiation parameters (dose, irradiation intensity) for each product, will allow applying shorter effective treatments, which are feasible for application on a commercial scale. Directions for future research: Better understanding of the mode of action of UV radiation on plant metabolism will help to design more effective treatments. Transcriptomic and proteomic analyses of UV irradiated fruits and vegetables may contribute to identifying key steps and pathways involved in tissue responses and ultimately help to maximize the beneficial effects of UV radiation on fresh produce.
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