Fares Alhaj Alali; Mohammad Ali Askari Sarcheshmeh; Mesbah Bababalar
Abstract
Peach fruit (Prunus persica L.) was harvested at the stage of commercial harvest and was then treated with 0, 1, 2, 3 mM citric acid (CiA). A factorial model was planned on a completely randomized block design with three replications. Two factors were used in the experimental design, i.e. 4 storage durations ...
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Peach fruit (Prunus persica L.) was harvested at the stage of commercial harvest and was then treated with 0, 1, 2, 3 mM citric acid (CiA). A factorial model was planned on a completely randomized block design with three replications. Two factors were used in the experimental design, i.e. 4 storage durations × 4 concentrations of CiA. The impact of CiA was evaluated on postharvest quality parameters, decay incidence (DI), vitamin C, total phenolic compounds, and antioxidant capacity, as the peach fruits were maintained in cold storage at 0 ± 0.5 ˚C and 85-90% relative humidity (RH) for 40 days. By the end of the storage time, peach fruits that were treated with 3 mM CiA showed statistical significance and resulted in the highest values of fruit firmness (FF) (1.75 N), titratable acidity (TA) (0.24%), vitamin C (VC) (3.58 mg.100g-1 FW), total phenolic compounds (TPC) (58.49 mg GAE.100g-1 WF) and antioxidant capacity (AC) (52.96%). CiA treatments significantly controlled the DI by about 30.17 % and remarkably extended the shelf life by about 11.66 days, compared to the control samples during the cold storage. Our findings suggested that using CiA, especially at 3 mM, could be a promising treatment in helping to maintain edibility and to inhibit decay in peach fruits. While these can play an important role in the marketing and export of peach fruits, other benefits include a low cost of the chemical inputs and more safety for human consumption. AbbreviationsCitric acid (CiA), Decay incidence (DI), Vitamin C (VC), Total phenolic compounds (TPC), Antioxidant capacity (AC), Fruit Weight loss (FWL), Fruit firmness (FF), Titratable acidity (TA), Total soluble solid (TSS), Relative humidity (RH)
Hamed Shokri Heydari; Mohammad Ali Askari Sarcheshmeh; Mesbah Babalar; Taha Ranjbar Malidarreh; Ahmad Ahmadi
Abstract
Peach is a highly corrosive fruit with a short shelf life (less than 7 days at room temperature)susceptible to diseases, pathogens and physical damage. The storage or marketable life ofhorticultural crops can be extended by various treatments applied to them after and/or beforeharvesting. Fruits are ...
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Peach is a highly corrosive fruit with a short shelf life (less than 7 days at room temperature)susceptible to diseases, pathogens and physical damage. The storage or marketable life ofhorticultural crops can be extended by various treatments applied to them after and/or beforeharvesting. Fruits are usually treated with a range of materials [(e.g. salicylic acid (SA)] toimprove their appearance or delay deterioration. In the present study, effects of pre-harvesttreatment of SA (1, 2, and 4 mM) and iron sequestrine (Fe) (5 and 10 mg L-1) on antioxidantcapacity, ion leakage, ethylene production, ascorbic acid and carotenoids content of peachfruit (Prunus persica L. Batsch cv. Za'ferani) were examined. The results showed that Fe andSA treatments are effective methods for alleviating ion leakage, weight loss and ethyleneproduction in peach fruit during cold storage. Application of 4.0 mM SA and 10.0 mg L-1 Fewere the most effective treatments to maintain fruits quality parameters. SA and Fe treatmentsmaintained peach fruits quality parameters until 40 days. These results suggest that the SAand Fe treatment are useful materials with potential postharvest application for reducingethylene production, maintain quality, and improve the health benefits of peach fruit byincreasing its antioxidant capacity.