Pomology
Salahodin Maslahati fard; Hamid Hassanpoor
Abstract
Introduction
Strawberries with the scientific name Fragaria × ananassa Dutch. It belongs to the Rosaceae family. Strawberry is one of the fruits that has found many fans around the world due to its aroma, taste and nutritional value. The main characteristics of strawberry fruit quality are ...
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Introduction
Strawberries with the scientific name Fragaria × ananassa Dutch. It belongs to the Rosaceae family. Strawberry is one of the fruits that has found many fans around the world due to its aroma, taste and nutritional value. The main characteristics of strawberry fruit quality are flavor (ratio of sugar to acid and volatile compounds) and color. Excellent plants need nitrogen in addition to carbon to meet their growth and food needs. The most vital compounds in plant living cells are proteins, which are made up of amino acid building blocks. Different amino acid sequences cause variation in the resulting proteins. Arginine is a multifunctional amino acid found in living cells and is an important storage and transport form for organic nitrogen in plants. In addition to its function as a major component of protein, it is an essential metabolite for many cellular and growth processes. Studies have shown that arginine increases the synthesis of flowering hormones related to flowering and fruiting. This amino acid is also involved in the activity of various plant enzymes. This amino acid binds to membrane nucleic acids and phospholipids and increases the activity of enzymes such as catalase. Due to the importance of producing organic products and also due to the fact that so far no study has been done on the effect of arginine on the growth and physiological characteristics of strawberry cultivar Albion. Therefore, in this study, the role of arginine on some quantitative and qualitative characteristics of albumin strawberry fruit in hydroponic conditions was investigated.
Materials and Methods
The present study was conducted in the greenhouse of the Faculty of Agriculture, Urmia University, Iran. In this study, the effect of arginine with three levels (0, 100 and 200 mg / l) on the quantitative and qualitative characteristics of Albion strawberry fruit under deficit fertigation conditions with two levels (140 and 180 ml) in a completely randomized design with 4 replications. In this study, traits such as fruit flavor, titratable acidity, soluble solids, fruit firmness, vitamin C, total phenol, total flavonoids, total anthocyanins and total antioxidant capacity were investigated. XTPlus-TA tissue analysis device was used to measure the firmness of fruit texture. Vitamin C content of fruit extract was measured by ascorbic acid based on dye reduction of 2,6 dichlorophenol indophenol (DCPIP). The Titration method was used to measure titratable acidity (TA). ATAGO manual refractometer was used to measure the amount of soluble solids. Also for measuring the taste of fruit by Voca et al. used. The Absorption difference method at different pHs was used to measure total anthocyanin. Total antioxidant capacity was assessed using the DPPH (1,1-diphenyl-2-picrylhydrazyl) method. Folin-ciocalteau method was used to measure the total phenol content. Shin et al. Method was used to measure the total flavonoid content of fruit.
Results and Discussion
The results obtained from the analysis of variance of the data showed that the measured indices were affected by different treatments of arginine and deficit fertigation. Based on the results, arginine treatment on fruit flavor, titratable acidity, soluble solids, fruit firmness, total anthocyanin, vitamin C, phenol, flavonoids and total antioxidant capacity showed a significant difference. The highest amount of soluble solids, fruit flavor and firmness of fruit texture were recorded in arginine treatment with a concentration of 100 mg / l under normal fertigation conditions (180 ml). Also, the highest amount of phenol and total flavonoids was observed at the same level of fertigation, albeit with arginine treatment at a concentration of 200 mg / l. Also, the highest amount of anthocyanin, vitamin C and total antioxidant capacity were recorded in arginine treatment with a concentration of 200 mg / l, in conditions of mild deficit fertigation (140 ml).
Conclusion
Excessive use of chemical fertilizers in agricultural production, especially in hydroponic cultivation in greenhouses, causes fertilizer wastage and as a result increases production costs as well as increases greenhouse drainage. Therefore, it has destructive effects on the environment, so reducing the amount of nutrient solution can be a management option to reduce the harmful effects on the environment and save water. Also, due to the importance of producing organic products and increasing demand, the use of healthy and organic compounds such as amino acids (arginine) to increase the quality and quality of the product, is very necessary. In the present study, arginine treatment increased the quality of strawberry fruit by affecting its photochemical content such as total antioxidant activity, vitamin C, total phenol, anthocyanin, etc. in low solubility conditions. Also, by increasing the firmness of the fruit texture, it improved the appearance quality of the fruit, which is important for attracting the consumer's attention. In general, the results showed that arginine spraying (200 mg / l) in normal solution and mild dissolution conditions can be effective in improving the quality of strawberries cultivated in hydroponic conditions.
Pomology
Parisa Sadeghi; Hamid Hassanpour
Abstract
Introduction
Strawberry with the scientific name Fragaria × ananassa Dutch from the Rosaceae family is an important commercial fruit in the world, which is widely considered in terms of nutrition due to its rich content of vitamins, minerals and phytochemicals. Water scarcity stress is one ...
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Introduction
Strawberry with the scientific name Fragaria × ananassa Dutch from the Rosaceae family is an important commercial fruit in the world, which is widely considered in terms of nutrition due to its rich content of vitamins, minerals and phytochemicals. Water scarcity stress is one of the important sources of abiotic stresses, so that it reduces growth, development and yield during the vegetative, reproductive and maturing stages of the crop. Studies have shown that application of nano-fertilizers can be useful in order to achieve high yield while reducing the amount of fertilizer consumption due to its higher absorption due to its high specific surface area. Despite its low consumption, zinc is involved in chromosome synthesis, carbohydrate metabolism, photosynthesis, sugar-to-starch conversion, protein metabolism, auxin metabolism, pollen grain formation, biological membrane preservation, and resistance to infections by pathogens. Zinc is also needed for chlorophyll production, pollen grain yield, fertility and pollen grain germination. Zinc as a coenzyme is also involved in the activation of many enzymes in the biosynthesis pathway of secondary metabolites. The use of zinc nanoparticles can have very positive effects on the quantitative and qualitative properties of strawberry fruit during low solubility
Materials and Methods
The present study was conducted in the greenhouses of the Department of Horticulture, Urmia University.Sabrina cultivar strawberry seedlings were planted in culture bags containing 50% cocopeat, 25% pithomass and 25% perlite in three rows containing 27 plants and evenly pruned. The first week was used to establish the plants from water, the second week to the sixth week for vegetative growth of half-concentrated Hoagland solution and from the seventh week to the end of the harvest period, depending on the stages of flowering to fruiting, modified Hoagland nutrient solution was used. By calculating the amount of solution output from each nozzle and the amount of each plant need, the time required for solution was calculated and this time was divided into 5 times a day and was automatically pumped to the foot of each plant. To apply low solubility stress, the first row (without stress) was used with solution 5 times a day, the second row with solution 4 times a day and the third row with solution 3 times a day. Foliar application of different concentrations of zinc chelate nanoparticles was performed once a week (5 times) after pruning of primary flowers, from the fourteenth to the eighteenth week. Zinc chelate nanoparticles were used in three levels (0, 1 and 1.5 g / l) and nutrient solution treatment was performed in three levels (90, 110 and 130 ml) daily. Then fruits that were more than 70% colored were harvested and different quantitative and qualitative characteristics were measured. At the end of the experiment, fruit weight was measured using a digital scale, fruit length and width by caliper, fruit acidity by pH meter, titratable acids by titration method and TSS by refractometer. Chlorophyll a, b and total carotenoids were also measured using Dynamica spectrophotometer (HALODB-20) according to Lichtanthaler & wallborn (1985). Also, fresh weight of shoots and roots were measured in the last stage after fruit harvest. For this purpose, the plants were completely removed from the bed and the roots were washed with water and then exposed to air to remove moisture. The aerial parts were then separated from the roots and weighed 0.001 g by digital scale. To measure dry weight, the roots and aerial parts were placed separately in the bag and then placed in a 70 ° oven for 72 hours and then weighed 0.001 g with a digital scale.
Results and Discussion
The results showed that the interaction effect of low solubility treatment and zinc chelate nanoparticles treatment on fruit weight, shoot dry weight and yield was significant, so that the highest amount was in the treatment of 130 ml of nutrient solution and concentration of 1.5 g / l of zinc chelate nanoparticles. Also in fruit length and width, pH, TA, TSS, chlorophyll a and b and carotenoids, the main effects of low solubility treatment and of chelate nanoparticles were significant. As in the treatment of chelate nanoparticles, the highest amount of these traits was observed in the concentration of 1.5 g / l nanoparticles and in the low solubility factor, the highest amount was observed in the control treatment (complete solubility).
Conclusion
Low solubility stress reduced the quantitative and qualitative characteristics of strawberry fruit. The use of different concentrations of nano-chelate zinc improved these properties, so that the greatest effect was related to the concentration of 1.5 g per liter of nanoparticles. This concentration increased the yield of the product more than 1.6 times compared to the control sample in complete solution and more than 1.7 times compared to the low solution. Also, the growth traits studied were significantly increased by the use of nanoparticles. These nanoparticles also improved the taste of the fruit by reducing the acidity and increasing the soluble solids.
Pomology
Salahedin Mslahate fard; Hamid Hassanpour
Abstract
Introduction: The pistachio genus (Pistacia) belongs to Anacardiaceae family. Three species of common pistachio (P. vera, P. khinjuk and P. atlantica) was found in Iran. Bene )P. atlantica (is a dicotyledonous tree with a height of more than 17 meters, is the most important species of Zagros region with ...
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Introduction: The pistachio genus (Pistacia) belongs to Anacardiaceae family. Three species of common pistachio (P. vera, P. khinjuk and P. atlantica) was found in Iran. Bene )P. atlantica (is a dicotyledonous tree with a height of more than 17 meters, is the most important species of Zagros region with valuable main and secondary products. This tree was also used as a rootstocks for edible pistachios and resistant to adverse environmental conditions, so that it grows in different climates in terms of land slope, soil type, different soil fertility levels, altitude (600 to 3000 meters) and temperature range of -25 to 40 °C. Fruit and gum have different uses in food, industry and medicine. Medicinal and oral uses of Bene fruit and gum have long been reported not only in Iran, but also among the natives of all coriander-rich regions, including parts of Algeria, Turkey and Iraq. Bene fruit can be harvested at three stages; First, the unripe stage (in the form of small hollow spheres without a kernel), its skin is brittle and its color is pale green. The second stage, the kernel is completely hardened, but the shell has an ocher red color that tastes sour. The last, the ripe stage, the kernel is completely hardened and the color of the skin is blue-green.
Materials and Methods: This study was conducted to evaluate the diversity and determine some quantitative and qualitative characteristics of different Bene) P. atlantica (genotypes at the green fruit stage. For this purpose, 11 genotypes were randomly selected in an area near the city of Mirabad, West Azerbaijan Province, Iran. The fruits were harvested from each genotype and transferred to the laboratory. In this study, some quantitative traits of fruit and cluster as well as total phenol, total flavonoids and total antioxidant capacity were analyzed. Digital calipers were used to measure the length and width of fruit and clusters (mm). Also, a digital scale with an accuracy of 0.001 g was used to measure the weight of fruit and cluster. Fruit size index was calculated by multiplying the measured width by the measured length and expressed as mm2. Total antioxidant capacity was assessed using the DPPH (1, 1-diphenyl-2-picrylhydrazyl) method. Folin–Ciocalteu method was used to measure the total phenol content.
Results and Discussion: The results showed that cluster weight had the highest diversity and fruit width had the least diversity among the studied traits. Traits such as cluster width, cluster length, total phenol and flavonoid content were also highly varied among genotypes. In this study, the maximum weight, length and width of fruit were 1.28 g, 8.32 and 8.62 mm, respectively. Also, the results of this study showed that there is a significant difference between genotypes in terms of all parameters measured except cluster length at the 1% and 5% of probability level. Overall, the results of this study showed high variability in the majority of traits. The highest length, width and weight of the cluster as well as the width and weight of the fruit were seen in P10 genotype and the lowest was observed in P5 and P6 genotypes. In terms of biochemical characteristics, P3 genotype had the highest total phenol (1034.5 mg gallic acid per gram of FW), total flavonoid (143.82 mg quercetin per gram FW) and antioxidant capacity (93%) and also, the lowest total phenol (370.08 mg gallic acid per gram of FW), total flavonoids (62.25 mg catechin per gram FW) was observed in P7 genotype. According to results of this study, P3 and P10 genotypes can be used for medicinal, food, industrial purposes as well as breeding purposes compared to the other genotypes.
Conclusion: In this study, it was shown that there is a high diversity in the majority of measured traits among different genotypes. The highest morphological traits were observed in P10 genotype. Also, in terms of biochemical characteristics, genotype P3 had the highest total phenol, total flavonoid content and total antioxidant capacity. According to the results, it can be concluded that the morphological characteristics as well as phenolic, flavonoid compounds and antioxidant capacity depend on various factors, including genetic factors and environmental and ecological conditions. Therefore, the observed diversity can be related to genetic structure of genotypes, which can also be considered as a kind of adaptation and physiological response of trees to environmental conditions.
Zahra Hassanzadeh; Hamid Hassanpour
Abstract
Introduction: Oleaster (Elaeagnus angustifolia L.), belonging to the Elaeagnaceae family, is usually a shrub or small spiny tree with a height of 2– 5 m. Branches of oleaster are silvery green and the leaves are egg-shaped or bayonet and the flowers are bell -shaped, very fragrant, cream color, and ...
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Introduction: Oleaster (Elaeagnus angustifolia L.), belonging to the Elaeagnaceae family, is usually a shrub or small spiny tree with a height of 2– 5 m. Branches of oleaster are silvery green and the leaves are egg-shaped or bayonet and the flowers are bell -shaped, very fragrant, cream color, and single or clustered. The fruits are oval-shaped with a length of 1.5 –2 cm and their colors are reddish-brown. Oleaster (Elaeagnus angustifolia L.) is one of the most valuable fruit tree is grown wildly in northwestern of Iran. The oleaster was distributed in East Asia, Southeast Asia, and Queensland in northeastern Australia. This tree was extended along the rivers in many arid and semi-arid regions. It also plays a very important role in maintaining the ecosystem of dry areas, due to high drought tolerance and high salinity and alkalinity tolerance in soil. The evaluation of fruit and seed properties can be useful in selection of superior genotypes for commercially culture. Therefore, the aim of this study was to investigate the physical properties of seed and fruit of some Elaeagnus angustifolia genotypes in east and west Azerbaijan provinces.
Materials and Methods: In this study, thirty-eight genotypes of Elaeagnus angustifolia L., according to free of pest and disease characteristics were selected and labeled from east and west Azerbaijan provinces, Iran. The fully matured fruits were collected from studied genotypes and then transferred to the lab and different parameters such as physicochemical characterizations of fruit and seed such as weight, length and width of fruit and seed and fruit color parameter were measured. Fruit color was determined by Chroma meter CR-400 (Konica Minolta, Japan). After collected data, to calculate descriptive statistics, correlation and cluster analysis based on Ward’s method was used SPSS Software (Version 22). The factor analysis was also performed using varimax rotation method.
Results and Discussion: The results showed that there was high diversity in some of the attributes such as leaf width, leaf length/leaf width ratio and flesh weight. The highest diversity was observed in leaf width (37.56 %) and the fruit surface area had lowest diversity (2.09 %). The mean of fruit length, fruit width and fruit width, fruit geometric mean diameter and sphericity were 22.99, 16.09 cm, 1.69 g, 18.09 mm and 79.22 %, respectively. Ersoy et al. (2013) revealed that length, width, thickness and weight of fruit were 2.86 cm, 1.88 cm, 1.87 cm and 2.90 g respectively. The mean of seed length, width, thickness and weight were 2.42 cm, 0.508 cm, 0.503 cm and 0.38 g, respectively. Leaf length was positively correlated with leaf width, fruit length/fruit width ratio, and seed length and seed length/seed width ratio and negatively with fruit sphericity. In the present study, the mean of traits related to fruit color including L*, a*, b*, hue and chroma were 48.09, 13.99, 18.51, 52.18, and 28.23, respectively. In the study of Zare et al. (2012), the mean of L*, a*, b* were 12.42, 2.73 and 2.39, respectively. In the present study, the mean of traits related to fruit color was higher than the mean mentioned in Zare et al. (2012) study, and this discrepancy can be due to different environmental conditions and studied genotypes. In this study, based on factor analysis, the eight main factors were explained a total of 85.92 % of the variance, which 20.59% were related to the first factor and 18.69% to the second factor. The two-dimensional scatter plot was constructed for graphical overview of the relationships among genotypes. According to scatter plot created by two first factors, all studied genotypes were located in two groups. The scatter plot revealed geometrical distances among genotypes reflecting phenotypic and in this regard presumably genetic dissimilarity among them. According to the cluster analysis, genotypes were divided into two main groups. Genotypes in group first had the highest average fruit and seed length, width and weight. The traits related to color such as L*, a*, b*, hue, chroma had a significant role in separation of second group. Therefore, the presence of genotypes in different clusters represented high diversity in terms of evaluated traits among the all genotypes.
Conclusions This research is a preliminary study that can be based to select the desired genotypes. The study also provides important information on the physical characteristics and fruit color of some Elaeagnus angustifolia genotypes in the east and west Azerbaijan provinces. In general, the results of this study showed that there is high diversity among the studied genotypes.The results obtained might be helpful for breeding programs and introducing of cultivar in Elaeagnus angustifolia.
Hamid Hassanpour
Abstract
Introduction: Cornus is a very large genus which comprises 40 species of shrubs and trees native to Central and Southern Europe and parts of Western Asia. Many species are grown as ornamentals. Only a few species are grown for their fruits, chief among which is the cornelian cherry (Cornus mas L.). Study ...
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Introduction: Cornus is a very large genus which comprises 40 species of shrubs and trees native to Central and Southern Europe and parts of Western Asia. Many species are grown as ornamentals. Only a few species are grown for their fruits, chief among which is the cornelian cherry (Cornus mas L.). Study on the nutritional value of the cornelian cherry has focused on nutrients which play a role in preventing diseases such as scurvy. Fresh cornelian cherry fruits contain twice as much vitamin C as oranges. The aim of this study was to investigate the distribution and physicochemical properties of cornelian cherry (Cornus mas L.) fruits in Iran.
Materials and Methods: Distribution of cornelian cherry was traced on the map according to the visitation of the different provinces. In order to study the characteristics of the fruit, samples were taken from five different areas and various parameters were evaluated. Fruit and seed weight (g) were measured by a digital balance with a sensitivity of 0.001 g (Scaltec Company, Gottingen, Germany; model SPB31). Fruit length (mm), fruit diameter (mm), seed diameter (mm) and seed length (mm) were measured using a digital vernier caliper with a sensitivity of 0.01 mm. TSS was determined by refrectometry of one drop extracted juice of each fruit at 25°C (Kyoto Electronics Manufacturing Co. Ltd., Japan, and Model RA-250HE). TA was determined by titration and the pH value was indicated by pH meter (HBJ-260). In addition, total ascorbic acid content was determined by the dinitrophenylhydrazine (DNPH) method. Data were subjected to calculate of descriptive statistics by SPPSS and means were separated by Duncan’s multiple range test at p