Ghasem Sartip; Jafar Hajilou
Abstract
To determine the effects of pre-harvest salicylic acid (SA) treatments on postharvest life and quality of apricot fruits, four different concentrations (one, 1.5, three and 4.5 mM) were applied six days before harvesting of apricot fruits cv. ‘Shamlou’. Fruits harvested at commercial maturity ...
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To determine the effects of pre-harvest salicylic acid (SA) treatments on postharvest life and quality of apricot fruits, four different concentrations (one, 1.5, three and 4.5 mM) were applied six days before harvesting of apricot fruits cv. ‘Shamlou’. Fruits harvested at commercial maturity stage and stored at 2ºC with 90 percent RH on the same day for a period of three weeks. The fruit was evaluated for weight loss, flesh firmness, total soluble solid (TSS) contents, titratable acidity (TA), ascorbic acid contents, total phenolic contents and total flavonoids in treated and nontreated fruits. Results showed that salicylic acid treatments significantly exhibited weight loss and flesh firmness compared with control. At the end of storage, the highest ascorbic acid content and total phenolic content was observed in 4.5 mM SA treated fruits. The highest flesh firmness, titratable acidity and flavonoids were observed at three mM SA treated fruits and at the end stage of storage. The lowest weight loss, TSS and pH were recorded at 3mM SA treated fruits.
Maryam Hadian-Deljou; Hasan Sarikhani
Abstract
Fruit browning and tissue softening due to damages during handling, quality losses and water loss are the major limiting factors reducing postharvest life of early ripening apples. In this study, the effect of salicylic acid (SA) on fruit quality of apple cv ‘Golabe-Kohanz’ during postharvest ...
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Fruit browning and tissue softening due to damages during handling, quality losses and water loss are the major limiting factors reducing postharvest life of early ripening apples. In this study, the effect of salicylic acid (SA) on fruit quality of apple cv ‘Golabe-Kohanz’ during postharvest life were investigated. Harvested fruits were immersed in zero, one, two and four mM SA and were maintained for 43 days at zero ?C. SA decreased the soluble solids content at last stages of storage. In addition, SA reduced softening rate and water loss. At the end of storage, the highest firmness was observed in one and two mM SA treated fruits and the highest water loss was measured in control. Treatment of fruits by all three concentrations of SA showed a little browning. The highest browning was observed in those of control. Also SA delayed reduction of the total phenolic. The results demonstrate that SA postharvest treatment of apple cv. ،Golabe-Kohanz, through reducing browning and maintaining fruit quality increased postharvest life.