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  • Title: Effectiveness of alginate coating on antioxidant enzymes and biochemical changes during storage of mango fruit.
    Author: Rastegar S, Hassanzadeh Khankahdani H, Rahimzadeh M.
    Journal: J Food Biochem; 2019 Nov; 43(11):e12990. PubMed ID: 31389029.
    Abstract:
    The climacteric nature of mango makes it ripen quickly and increases its postharvest losses. The objective of the present search was to evaluate the efficacy of 1%-3% sodium alginate edible coating for maintaining the postharvest nutritional quality and increasing the marketability of the mango fruit during storage at 15 ± 1°C and 85 ± 1% relative humidity. Results revealed that the quality characteristics including acidity and ascorbic acid content were not affected by the alginate treatments. In contrast, treatment with 3% alginate significantly reduced weight loss and maintained higher firmness (2-fold), total phenols (1.3-fold), and flavonoids content (1.7-fold), as compared with the control. Higher antioxidant capacity was observed in the 3% alginate treatments than the control. Polyphenolxoidase activity in the coated mango remained below 30 U/g FW, while it was increased continuously in the uncoated samples during the storage. Fruits coated with alginate exhibited a higher antioxidant enzyme activity during storage. Sodium alginate had no significant effects on the external color parameters except the a* value. Generally, it was concluded that the mango storage life and its valuable nutritional characteristics were increased by applying the alginate edible coating. PRACTICAL APPLICATIONS: Recently, the edible coatings by natural sources have been widely demanded by consumers due to its nontoxic and biodegradable characteristics. Mango fruits as a climacteric high-nutritional tropical fruit being climatic have a limited shelf life and the maintenance of its quality is still a major challenge for the consumers. The results of this study showed that using sodium alginate coating at 3% concentration had a significant effect on preventing water loss, color changes and preserving antioxidant properties, phenol and flavonoids compounds of mango fruit during storage. Therefore, alginate coating as a biodegradable compound can be used to maintain the quality during the shelf life of fruits and vegetables.
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