Abstract
ABSTRACT Studies related with the storage of peach fruits have received great relevance in Egypt. In this study, the effect of pre-harvest sprays of calcium chloride and chitosan, separately and in combination, on quality attributes and storability of peach fruits stored at 0±1 °C was studied. ‘Early Swelling’ peach trees were sprayed twice with 1% or 2% calcium chloride. The first spraying was at pea stage, while the second one was performed at 10 days before harvesting. Chitosan sprays were performed at 0.5 or 1%, alone or in combination with 1 and 2% calcium chloride, at 10 days before harvesting. Untreated trees served as control. Fruits were harvested at maturity stage, then packaged and stored at 0±1 °C and 85-90% of relative humidity. Fruit physical and chemical properties were evaluated at 7-day intervals. Results showed that pre-harvest application with 2% CaCl2+1% chitosan was most effective in minimizing weight loss (%) and decay (%), as well as in maintaining maximum firmness and lengthening shelf life. Fruit color was not affected by any of the treatments, while untreated fruits and calcium chloride treatment alone, at both applied concentrations, maintained higher total soluble solids (TSS, %), total phenolic content, and lower titratable acidity percentage.
Highlights
Peach (Prunus persica (L.) Batsch) belongs to the family Rosaceae and is one of the most popular fruits in the world because of its high nutrient value and pleasant flavor
With regard to the effect of the tested pre-harvest treatments, considering mean values at the end of the analyzed period of time, in both seasons the highest significant weight loss percentage was obtained by untreated fruits, while treatments with chitosan and CaCl2 recorded the lowest significant weight loss
The lowest fruit weight loss (%) was obtained in fruits treated with 1% CaCl2 + 1% chitosan after 7 days of storage
Summary
Peach (Prunus persica (L.) Batsch) belongs to the family Rosaceae and is one of the most popular fruits in the world because of its high nutrient value and pleasant flavor. An increased concern among consumers about food safety and the potentially harmful health effects of chemical residues encouraged research to find safe alternative chemicals which can maintain the marketable quality throughout prolonged storage period of fruits, including peach. In this sense, pre- and post-harvest application of calcium may delay senescence in fruits with no detrimental effect on consumer acceptance. The mobility of calcium in trees is low, and the root uptake from fertilized soils is poorly effective in increasing the calcium content in fruits In this context, Ghani, Awang and Sijam (2011), reported that the direct application of liquid source of calcium on leaves and fruits may offer an alternative solution. Calcium may have a potential use as an alternative method in integrated disease management (Biggs; Hogmire; Collins, 2000)
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