Pomology
Javad Fattahi Moghadam; Seyyedeh Elham Seyedghasemi; Tahereh Raiesi
Abstract
Introduction: The foreign and domestic markets are demanding for high quality citrus varieties. The physical and chemical properties of the newly released cultivars are also important for fresh market or processing. The fruit quality is a complex combination of size, firmness, taste, texture, pleasant ...
Read More
Introduction: The foreign and domestic markets are demanding for high quality citrus varieties. The physical and chemical properties of the newly released cultivars are also important for fresh market or processing. The fruit quality is a complex combination of size, firmness, taste, texture, pleasant aromas caused by a chemical compounds (soluble solid content, sugars, organic acids, aromas) and bioactive properties. Therefore, it is important to consider these indices for the introduction of a new cultivar. In this regard, the Citrus and Subtropical fruits Research Center has focused on improving its appearance, internal and organoleptic quality in releasing the new Jahangir cultivar compared to the Clementine as control.Materials and Methods: In this study, Jahangir fruits a hybrid between Clementine mandarin (female parent) and Salustiana orange (male parent) (Citrus clementina Hort. Ex Tanaka × C. sinensis (L.) Osbeck cv. Salustiana) was used for comparison with Clementine (Citrus clementina Hort. Ex) Tanaka) as control during the last two years lead to the cultivar introduction. Fruits were randomly selected from different locatiosn on the tree (15 fruits from three trees) and evaluated at harvesting time (zero storage point). Then 30 fruits per box selected and placed in cold storage (5 °C, 85% RH). Different physico-biochemical and sensory characteristics of fruits were evaluated at 0, 20 and 40 days intervals during storage. Characteristics evaluation were including fruit lenght, width, thickness, arithmetic, geometric, equivalent and harmonic means, fruit aspect ratio, sphericity, surface area, true volume, apparent volume, volume error, density, peel and pulp firmness, peel thickness, weight, juice percentage, seed number, peel color indices (L*, a*, b*, hue angle, chroma and CCI), total soluble solid (TSS), titratable acidity (TA), technological index (TI), pH, electrical conductivity (EC), total phenol, ascorbic acid and antioxidant capacity during experiment.Results and Discussion: Results showed that fruit size (length and two diameters), weight, means of arithmetic, geometric, equivalent and harmonic diameters, surface area and true volume of Jahangir mandarin were significantly higher than Clementine. The different mean diameters of each cultivar was the same as that equivalent diameter that is the most real mean fruit diameter. The higher spherical coefficient (>1) also indicated that Jahangir fruit was longer than the control. Additionally, aspect ratio of Jahangir was also higher than Clementine, which means that Jahangir fruit was a few flat than control. Jahangir had higher levels of L*, b*, C and hue than the control of clementine. In contrast, Jahangir's a* and CCI indices were lower than those of clementine. Therefore, except for L* which is slightly lower than citrus standard (65-70), other indices in both cultivars were conformity within the citrus standard range. Seeds of Jahangir were more than control but both were in the mid seed group (9-15 seeds) of citrus. Jahangir peel was also less easily peeled than control. The weight loss of Jahangir fruit was significantly (almost half) lower than that of clementine at each sampling but increased during storage. It seems Jahangir has a peel with higher density and adhesion than to clementine, which partly prevents the fruit from dehydration. The amount of TSS of fruit juice was higher than that of clementine at harvest and storage but increased in both cultivars during storage. In addition, TA (0.34%) was lower in Jahangir fruit than Clementine (0.45%). Therefore, the ratio of TSS to TA was much higher in Jahangir mandarin (44.25) than clementine (26.16). Juice percentage of Jahangir fruit (44.87%) was significantly higher than Clementine (40.12%). The high percentage of Jahangir fruit juice is a positive trait for this cultivar. Technology index changed depending on cultivar and also during storage. This index was higher in Jahangir fruit than in Clementine with 6.45 and 4.67, respectively. The antioxidant capacity only affected significantly by storage time which showed a decreasing trend during storage. Ascorbic acid content was only affected by cultivar and was higher in control than Jahangir. Lower levels of ascorbic acid in the Jahangir may be due to increased respiration that results in the elimination of ascorbic acid. The phenolic content of Jahangir fruit was higher (0.43 mg/g) than clementine (0.4 mg/g). PCA analysis showed that most of the Jahangir samples placed in the left part of the PCA graph which were dominated by the traits such as taste, sweetness, good peel and pulp appearance and overall acceptance and were more accepted by the sensory evaluators.Conclusion: In this study, different qualitative characteristics of Jahangir fruit compared to Clementine which are important for the producers. Accordingly, the Jahangir fruit was larger in size but slightly flatter than the Clementine fruit. Jahangir fruit peel color indices were within the standard range of citrus fruits. Jahangir fruit is favored among commercial available mandarins due to ease of peeling, high juice percentage, technology index, vitamin C, phenol and antioxidant capacity. It also had better storability than Clementine because of less water loss and decline of organoleptic properties.
Javad Fattahi Moghadam; Seyyedeh Elham Seyedghasemi; Kazem Najafi
Abstract
Introduction: According to a breeding program that was carried out in Citrus and Subtropical Fruits Research Center, Noushin (C. reticulata cv Clementine × C. sinensis cv. Salustiana) and Shahin (C. reticulata cv Clementine × C. sinensis cv. Hamlin) mandarins were released by using crossing method ...
Read More
Introduction: According to a breeding program that was carried out in Citrus and Subtropical Fruits Research Center, Noushin (C. reticulata cv Clementine × C. sinensis cv. Salustiana) and Shahin (C. reticulata cv Clementine × C. sinensis cv. Hamlin) mandarins were released by using crossing method in 20-year program. In general, mandarins do not have the ability of being kept in common or cold storage for long time compared to oranges. The main problem is the change of fruit taste during storage, therefore, it is an attracted subject for researchers. Furthermore, storage temperature plays an important role in the quality of the taste of mandarins. The new released mandarins, which hve not been yet studied completely for their storability, need to be evaluated. Therefore, the aim of this study was to investigate fruit physico-chemical and sensory characteristics of Noushin and Shahin varieties in common and cold storages for two years.
Materials and Methods: In this study, fruits of Noshin and Shahin mandarins were harvested at seasonal harvesting time and then placed in could storage (5 oC and 85% RH) and common storage (7-10 oC and 60-70 %RH) based on completely randomized design with three replications for 60 days every year. Fruits on days 0 (at harvesting time), 20, 40 and 60 of storage were sampled. Various physico-chemical and sensory characteristics were evaluated including iuice percentage, weight loss, peel color indices (L*, a*, b*, hue angle, chroma and CCI), total soluble solid (TSS), titratable acidity (TA), technological index (TI), skin disorder index (SDI), pH, electrical conductivity (EC), total phenolic, ascorbic acid, antioxidant capacity and sensory parameters during experiment. Statistical analysis of the data was performed using statistical software MSTAT-C. Analysis of variance combined in a randomized complete design (two years) with three replications for each variety.
Results and Discussion: The results showed that the amount of fruit weight loss and juice percentage did not show significant changes during storage. The ranges of weight loss in Noushin and Shahin varieties were 7-8% and 3.45-5.1%, respectively. Generally, peeling in Shahin was harder than Noushin but it gradually decreased until the end of storage. With the exception of citrus color index (CCI) in Noushin that was high at the beginning of storage, other color indices had no significant differences according to the type of variety and storage. Totally, TSS: TA ratio increased during storage depending on the type of storage, so that the ratio was higher (Noushin with 39.64 and Shahin with 13.34) in common storage than cold storage (Noushin with 31.04 and Shahin with 13.62) at the end of storage. Amount of electrical conductivity (EC) and technological index (TI) increased significantly in both varieties and storages. Shahin variety with 3.74 and 26.19% was so sensitive to rind disorder index and rind disorder percentage, respectively. Phenolic compounds in both varieties declined during both cold and common storages. The amount of reduction depends on the type of mandarin, with Shahin showing higher decline than Noushin variety. Besides, the content of ascorbic acid and antioxidant capacity in both peel and pulp showed a decreasing pattern with the passing of harvesting time during storage. According to sensory analysis, Noushin fruit can be stored in common storage for 20 days and in cold storage for 40 days. Moreover, results revealed that Shahin fruits did not have storability more than 40 days in common and cold storages.
Conclusion: Generally, Noushin variety was sensitive to low moisture of the storage and fruits lost extra moisture during storage. Since Noshin was an early ripening variety, TSS: TA ratio increased rapidly at the end of storage. Although Noushin had the lowest ascorbic acid content but its fruit antioxidant capacity was higher than shahin at the end of storage. On contrast, Shahin was a mid-ripening variety with higher ascorbic acid content. On the other hand, shahin peel was so sensitive to skin disorder index (SDI), therefor it should not be maintained in low moisture and temperature storage. Based on sensory analysis and physicochemical measurements, Noushin can be stored for 20 days and shahin for 40 days in common and cold storage. Finally, we found that Noushin and Shahin cannot be maintained in storage longer than other mandarins.