Shahid Chamran University of AhvazPlant Productions2588-543X40220170823The Effects of Silver Nitrate, Thymol, Green Silver Nanoparticles and Chitosan on Vase Life of Carnation Cut Flowers cv. White LibertyThe Effects of Silver Nitrate, Thymol, Green Silver Nanoparticles and Chitosan on Vase Life of Carnation Cut Flowers cv. White Liberty1121311210.22055/ppd.2017.13112FAMousaSolgiAssistant Professor, Department of Horticultural Engineering, Faculty of Agriculture and Natural Resources, Arak University, Arak, IranM.TaghizadehAssistant Professor, Department of Horticultural Engineering, Faculty of Agriculture and Natural Resources, Arak University, Arak, Iran0000-0002-4639-9630Journal Article20151020<strong>Background and Objectives</strong> <br />Carnation (<em>Dianthus caryophyllus</em>) is one of the most important and consumption cut flowers in the world. Carnation cut flowers are sensitive to microbial contaminations at the stem end or in the vase solutions that make their vase life shorter. Numerous studies have reported that three genera of bacteria are the main bacteria which were recognized in the preservative solution of cut flowers. Nowadays, the finding of new compounds as alternatives to common chemicals is important in postharvest of cut flowers. The aim of this study was to investigate the effects of new compounds including chitosan, thymol and green silver nanoparticles on vase life of cut carnation flowers. <br /><strong>Material and Methods</strong> <br />The effects of green silver nanoparticles (25, 50 and 100 mg L<sup>-1</sup>), thymol (25, 50 and 100 mg L<sup>-1</sup>) and chitosan (25, 50 and 100 mg L<sup>-1</sup>) were investigated against of silver nitrate (25, 50 and 100 mg L<sup>-1</sup>) and control (2% sucrose) on vase life of carnation cut flowers "White Liberty", in this research. All treatments included 2% sucrose. Cut flowers were held in treatments for 24 hours, then replaced with distilled water. The experiment was carried out as completely randomized design with three replications. Evaluated characteristics were vase life, relative fresh weight (on days 2, 3, 4, 7, 9 and 10), solution uptake (on days 1, 2, 3, 4, 7, 8, 9 and 10), ion leakage of petals (on day 11) and chlorophyll contents (on days 2, 4 and 8). <br /><strong>Results</strong> <br />Results showed that the effects of different treatments on vase life were significant and thymol 25 (13 days), green silver nanoparticles and chitosan 25 (12.5 days) had the highest vase life in comparison with control. The effects of different treatments on relative fresh weight and solution uptake were significant in the evaluated days. Although, the chlorophyll content of leaves and ion leakage of petals were not significant. <br /><strong>Discussions</strong> <br />In the present study, it was found that pulse treatment by chitosan, thymol and green silver nanoparticles (25 mg L<sup>-1</sup>) significantly increased the vase life of cut carnations cv. "White Liberty". The presence of two sections of sucrose as nutrition source and antimicrobial agents seems to be necessary for carnation cut flowers. The antimicrobial effects of these compounds have been demonstrated in several studies. The application of thymol and chitosan as non-toxic compounds in the preservative solutions showed positive prospects for using these in extending carnation cut flowers.<strong>Background and Objectives</strong> <br />Carnation (<em>Dianthus caryophyllus</em>) is one of the most important and consumption cut flowers in the world. Carnation cut flowers are sensitive to microbial contaminations at the stem end or in the vase solutions that make their vase life shorter. Numerous studies have reported that three genera of bacteria are the main bacteria which were recognized in the preservative solution of cut flowers. Nowadays, the finding of new compounds as alternatives to common chemicals is important in postharvest of cut flowers. The aim of this study was to investigate the effects of new compounds including chitosan, thymol and green silver nanoparticles on vase life of cut carnation flowers. <br /><strong>Material and Methods</strong> <br />The effects of green silver nanoparticles (25, 50 and 100 mg L<sup>-1</sup>), thymol (25, 50 and 100 mg L<sup>-1</sup>) and chitosan (25, 50 and 100 mg L<sup>-1</sup>) were investigated against of silver nitrate (25, 50 and 100 mg L<sup>-1</sup>) and control (2% sucrose) on vase life of carnation cut flowers "White Liberty", in this research. All treatments included 2% sucrose. Cut flowers were held in treatments for 24 hours, then replaced with distilled water. The experiment was carried out as completely randomized design with three replications. Evaluated characteristics were vase life, relative fresh weight (on days 2, 3, 4, 7, 9 and 10), solution uptake (on days 1, 2, 3, 4, 7, 8, 9 and 10), ion leakage of petals (on day 11) and chlorophyll contents (on days 2, 4 and 8). <br /><strong>Results</strong> <br />Results showed that the effects of different treatments on vase life were significant and thymol 25 (13 days), green silver nanoparticles and chitosan 25 (12.5 days) had the highest vase life in comparison with control. The effects of different treatments on relative fresh weight and solution uptake were significant in the evaluated days. Although, the chlorophyll content of leaves and ion leakage of petals were not significant. <br /><strong>Discussions</strong> <br />In the present study, it was found that pulse treatment by chitosan, thymol and green silver nanoparticles (25 mg L<sup>-1</sup>) significantly increased the vase life of cut carnations cv. "White Liberty". The presence of two sections of sucrose as nutrition source and antimicrobial agents seems to be necessary for carnation cut flowers. The antimicrobial effects of these compounds have been demonstrated in several studies. The application of thymol and chitosan as non-toxic compounds in the preservative solutions showed positive prospects for using these in extending carnation cut flowers.Shahid Chamran University of AhvazPlant Productions2588-543X40220170823Interaction Effects of Oxalic Acid and Storage Time on Some Qualitative Characteristics of Plum Fruit cv. Santa RosaInteraction Effects of Oxalic Acid and Storage Time on Some Qualitative Characteristics of Plum Fruit cv. Santa Rosa15241311310.22055/ppd.2017.13113FAH.KhosroabadiM.Sc. Student of Pomology, Department of Horticultural Sciences, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, IranF.VarastehAssistant Professor, Department of Horticultural Sciences, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, IranE.SeifiAssociate Professor, Department of Horticultural Sciences, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, IranJournal Article20160419<strong>Background and Objectives</strong> <br />Plum as a climacteric fruit has high ethylene production and respiration rate at the ripening stage which is the reason for its short postharvest life. In order to evaluate the effect of oxalic acid treatment on postharvest storage life and maintain qualitative characteristics of plum fruit cv. Santa Rosa, an experiment was performed based on factorial in completely randomized design with two factors, oxalic acid concentration and storage time, in three replications. <br /><strong>Material and Methods</strong> <br />Plum fruits were harvested at the commercial harvest stage from a commercial orchard located in Golestan Province, Iran. On the same day, harvested fruits were transported to the laboratory and selected for the uniformity in size, shape and color. The selected fruit samples were distributed into four groups of 60 (each replicate contained 5 fruits). The selected fruits were immersed in oxalic acid solutions (0, 2, 4 and 6 mM) for 3 minutes and after removing the surface moisture at room temperature stored at 4 <sup>◦</sup>C and 80 % relative humidity. The quantitative and qualitative traits of the fruit were evaluated every two week intervals during 42 days of storage. The obtained data were subjected to analysis of variance using SAS (9.1) software, and LSD values were calculated for the mean comparisons. <br /><strong>Results</strong> <br />The results showed that oxalic acid had a significant effect on soluble solids content, titratable acidity, vitamin C, peel anthocyanins and browning index, whilst weight loss, soluble solids content, titratable acidity, vitamin C, fruit flavor index, pH, flesh and peel anthocyanins, total chlorophyll and chlorophyll a, b, total carotenoids, phenols and flavonoids, antioxidant activity, electrolyte leakage and browning index were significantly influenced by storage time. The increment of the oxalic acid concentration led to increase of soluble solids content by the late week 4 of storage. The highest (1.21%) and lowest (0.38%) titratable acidity was recorded for 6 mM oxalic acid in week 2 and 2 mM oxalic acid in week 6 of storage, respectively. At the end of the storage, 6 mM oxalic acid caused to preserve the maximum Vit C content (11.63 mg/100g) compared to control. Oxalic acid had no significance on total phenols and flavonoids; however, the interaction between storage time and oxalic acid had also a significant effect on soluble solids content, titratable acidity, vitamin C, fruit flavor index, peel anthocyanins, phenols, flavonoids and browning index. The weight loss reached 9.96% by late week 6. The electrolyte leakage percent and browning index increased during storage period and the minimum browning index without any significant difference was observed in 2 mM (41.11%) and 4 mM (43.89%) oxalic acid treatments. <br /><strong>Discussions</strong> <br />In conclusion, oxalic acid significantly increased titratable acidity, vitamin C, plum peel anthocyanins and soluble solids compared to the control. The treated fruits had a lower browning index than the control. As a whole, regarding the results of this research, post-harvest application of 4 mM oxalic acid treatment could be used to maintain plum fruit qualitative properties and increase the time of storage.<strong>Background and Objectives</strong> <br />Plum as a climacteric fruit has high ethylene production and respiration rate at the ripening stage which is the reason for its short postharvest life. In order to evaluate the effect of oxalic acid treatment on postharvest storage life and maintain qualitative characteristics of plum fruit cv. Santa Rosa, an experiment was performed based on factorial in completely randomized design with two factors, oxalic acid concentration and storage time, in three replications. <br /><strong>Material and Methods</strong> <br />Plum fruits were harvested at the commercial harvest stage from a commercial orchard located in Golestan Province, Iran. On the same day, harvested fruits were transported to the laboratory and selected for the uniformity in size, shape and color. The selected fruit samples were distributed into four groups of 60 (each replicate contained 5 fruits). The selected fruits were immersed in oxalic acid solutions (0, 2, 4 and 6 mM) for 3 minutes and after removing the surface moisture at room temperature stored at 4 <sup>◦</sup>C and 80 % relative humidity. The quantitative and qualitative traits of the fruit were evaluated every two week intervals during 42 days of storage. The obtained data were subjected to analysis of variance using SAS (9.1) software, and LSD values were calculated for the mean comparisons. <br /><strong>Results</strong> <br />The results showed that oxalic acid had a significant effect on soluble solids content, titratable acidity, vitamin C, peel anthocyanins and browning index, whilst weight loss, soluble solids content, titratable acidity, vitamin C, fruit flavor index, pH, flesh and peel anthocyanins, total chlorophyll and chlorophyll a, b, total carotenoids, phenols and flavonoids, antioxidant activity, electrolyte leakage and browning index were significantly influenced by storage time. The increment of the oxalic acid concentration led to increase of soluble solids content by the late week 4 of storage. The highest (1.21%) and lowest (0.38%) titratable acidity was recorded for 6 mM oxalic acid in week 2 and 2 mM oxalic acid in week 6 of storage, respectively. At the end of the storage, 6 mM oxalic acid caused to preserve the maximum Vit C content (11.63 mg/100g) compared to control. Oxalic acid had no significance on total phenols and flavonoids; however, the interaction between storage time and oxalic acid had also a significant effect on soluble solids content, titratable acidity, vitamin C, fruit flavor index, peel anthocyanins, phenols, flavonoids and browning index. The weight loss reached 9.96% by late week 6. The electrolyte leakage percent and browning index increased during storage period and the minimum browning index without any significant difference was observed in 2 mM (41.11%) and 4 mM (43.89%) oxalic acid treatments. <br /><strong>Discussions</strong> <br />In conclusion, oxalic acid significantly increased titratable acidity, vitamin C, plum peel anthocyanins and soluble solids compared to the control. The treated fruits had a lower browning index than the control. As a whole, regarding the results of this research, post-harvest application of 4 mM oxalic acid treatment could be used to maintain plum fruit qualitative properties and increase the time of storage.Shahid Chamran University of AhvazPlant Productions2588-543X40220170823The Effects of Ethylene and 1-MCP on Storability of Pomegranate Fruit cv. ‘Malase Yosef Khani’The Effects of Ethylene and 1-MCP on Storability of Pomegranate Fruit cv. ‘Malase Yosef Khani’25361311410.22055/ppd.2017.13114FAO.KhademiAssistant Professor, Department of Horticulture, Shahed University, Tehran, IranS.M.Hosseini MollaGraduated M.Sc. of Horticulture, Department of Horticulture, Shahed University, Tehran, IranD.TaleiAssistant Professor, Medicinal Herbs Research Center, Shahed University, Tehran, IranE.SepahvandM.Sc. Department of Horticultural Science, University of Tehran, Karaj, IranJournal Article20160614<strong>Background and Objectives</strong> <br />Pomegranate is classified as a non-climacteric fruit, so it is considered as insensitive to ethylene. However, in some other non-climacteric fruit it has been shown that ethylene accelerates senescence or increase chilling injury symptoms during postharvest life. In this study, to determine the sensitiveness of pomegranate fruit to ethylene, the effects of ethylene and 1-MCP (as an ethylene inhibitor material) treatments were investigated on the pomegranate storability. <br /><strong>Material and Methods</strong> <br />Pomegranate fruit cv. ‘Malase Yousef Khani’ was harvested at the ripening stage (full aril coloring) from an orchard near Saveh city, and treated following treatments; 2 μL/L ethylene for 48 hours, 1 μL/L 1-MCP for 24 hours, and 2 μL/L 1-MCP for 24 hours as well as a combination of 2 μL/L 1-MCP and μL/L ethylene treatments. Fruit without any treatment was put as control. The treatments were applied inside the polyethylene container. Then the treated fruits were stored at 4°C and 90% RH for up to 3 month. The fruits were removed from storage in 1, 2 and 3 months of storage and after 3 days keeping at room temperature as shelf life was analyzed. The experiment was conducted as a factorial based on a completely randomized design with 3 replications at Shahed University in 2016. <br /><strong>Results</strong> <br />Results showed that ethylene treated fruits, as compared to 1-MCP treated fruit (even in presence of ethylene in combination treatment) had less fruit and aril marketability, as well as less firmness, ion leakage, total phenol content and antioxidant capacity, whilst this fruit had more weight loss than 1-MCP treated fruits. Ethylene treated fruit had also less fruit and aril marketability, and less antioxidant capacity than control fruit. The control fruit had less fruit and aril marketability, ion leakage, total phenol content and antioxidant capacity than 1-MCP fruits. <br /><strong>Discussions</strong> <br />According to these results, pomegranate fruit was sensitive to ethylene and its postharvest loss, such as chilling injury symptoms, electro leakage, and antioxidants reduction was accelerated by presence of ethylene around the fruit. On the other hand, since in the most measured characteristics, control fruit had a lower quality than 1-MCP treated fruit, it seems that pomegranate is very sensitive to ethylene and even low level of internal ethylene is enough to accelerate the postharvest loss of this fruit. Therefore, removal of ethylene from the pomegranate storage, or using the anti ethylene materials such as 1-MCP can be effective in increasing posthrevst life of pomegranate fruit.<strong>Background and Objectives</strong> <br />Pomegranate is classified as a non-climacteric fruit, so it is considered as insensitive to ethylene. However, in some other non-climacteric fruit it has been shown that ethylene accelerates senescence or increase chilling injury symptoms during postharvest life. In this study, to determine the sensitiveness of pomegranate fruit to ethylene, the effects of ethylene and 1-MCP (as an ethylene inhibitor material) treatments were investigated on the pomegranate storability. <br /><strong>Material and Methods</strong> <br />Pomegranate fruit cv. ‘Malase Yousef Khani’ was harvested at the ripening stage (full aril coloring) from an orchard near Saveh city, and treated following treatments; 2 μL/L ethylene for 48 hours, 1 μL/L 1-MCP for 24 hours, and 2 μL/L 1-MCP for 24 hours as well as a combination of 2 μL/L 1-MCP and μL/L ethylene treatments. Fruit without any treatment was put as control. The treatments were applied inside the polyethylene container. Then the treated fruits were stored at 4°C and 90% RH for up to 3 month. The fruits were removed from storage in 1, 2 and 3 months of storage and after 3 days keeping at room temperature as shelf life was analyzed. The experiment was conducted as a factorial based on a completely randomized design with 3 replications at Shahed University in 2016. <br /><strong>Results</strong> <br />Results showed that ethylene treated fruits, as compared to 1-MCP treated fruit (even in presence of ethylene in combination treatment) had less fruit and aril marketability, as well as less firmness, ion leakage, total phenol content and antioxidant capacity, whilst this fruit had more weight loss than 1-MCP treated fruits. Ethylene treated fruit had also less fruit and aril marketability, and less antioxidant capacity than control fruit. The control fruit had less fruit and aril marketability, ion leakage, total phenol content and antioxidant capacity than 1-MCP fruits. <br /><strong>Discussions</strong> <br />According to these results, pomegranate fruit was sensitive to ethylene and its postharvest loss, such as chilling injury symptoms, electro leakage, and antioxidants reduction was accelerated by presence of ethylene around the fruit. On the other hand, since in the most measured characteristics, control fruit had a lower quality than 1-MCP treated fruit, it seems that pomegranate is very sensitive to ethylene and even low level of internal ethylene is enough to accelerate the postharvest loss of this fruit. Therefore, removal of ethylene from the pomegranate storage, or using the anti ethylene materials such as 1-MCP can be effective in increasing posthrevst life of pomegranate fruit.Shahid Chamran University of AhvazPlant Productions2588-543X40220170823Effect of Seed Deterioration on Physiological and Biochemical Traits of Oil Flax (Linum usitatissimum L. Norman var.) SeedEffect of Seed Deterioration on Physiological and Biochemical Traits of Oil Flax (Linum usitatissimum L. Norman var.) Seed37521311610.22055/ppd.2017.13116FAH.BalouchiAssociate Professor, Department of Agronomy and Plant Breeding, Faculty of Agriculture, Yasouj University, Yasouj, Iran0000-0001-8015-3215R.Ostadian BidgolyM.Sc. Student of Seed Science and Technology, Department of Agronomy and Plant Breeding, Faculty of Agriculture, Yasouj University, Yasouj, IranJournal Article20160425<strong>Background and Objectives</strong> <br />Seed deterioration is a natural phenomenon that occurs in all seeds and leads to gradual decline of seed viability during storage. However, the rate of seeds age depends upon their physiological status, genetic constitution and storage conditions. The lipid peroxidation through the production of free radical plays an important role in the loss of seed viability during seed storage. <br /><strong>Material and Methods</strong> <br />In order to investigate the effect of deterioration on germination indices and enzymes activity of the flax oil seed, a factorial experiment was conducted based on a Completely Randomized Design with four replications in the seed laboratory of Yasouj University in 2015. The factors included 4 levels of temperature (15, 25, 35 and 45<sup>o</sup>C) and moisture content (5, 9, 13 and 17%). With relation intended seed moisture, Hampton and Teckrony (1995) was calculated. After determining the moisture content of the seeds in envelopes of aluminum foil was placed, then the amount of water the need added and to ensure that the packaging and moisture exchange with the outside world for 24 hours at 15 °C were identical to the seed moisture and then for 6 months in storage conditions at temperatures of 15, 25, 35 and 45<sup>o</sup>C were kept. <br /><strong>Results</strong> <br />Analysis of variance showed that the single effects including temperature and seed moisture content experimental treatments for traits including germination percentage, germination rate, seedling vigor index (weight), activity enzymes antioxidant catalase, superoxide dismutase and ascorbate peroxidase, soluble proteins, electrical conductivity and oil percentage were significant (P≤0.01). Also, the interaction temperature and seed moisture content of all treatments except for enzyme, activity of superoxide dismutase and ascorbate peroxidase were significant (P≤0.01) but were significant (P≤0.05) for the activity of superoxide dismutase and ascorbate peroxidase. The results showed that with increasing temperature and moisture content, all the physiological and biochemical traits, except for electrical conductivity, decreased. The decrease in germination was also associated with a decrease in the activity of antioxidant catalase, superoxide dismutase and ascorbate peroxidase and as a result the antioxidant system was not sufficient to protect seeds against free radical damage. With the increase in reactive oxygen species, lipids peroxidation increased, probably due to the destruction of cell membranes, increased electrical conductivity seed the negative correlation between the electrical conductivity and the activity of the enzymes antioxidant indicator of the issue. <br /><strong>Discussions</strong> <br />Thus, oil flax seed deterioration was closely related to decrease in the activities of free radical detoxifying enzymes and increased lipid peroxidation. In general, the best flax seed storage condition is at 15°C and 5 percent moisture content.<strong>Background and Objectives</strong> <br />Seed deterioration is a natural phenomenon that occurs in all seeds and leads to gradual decline of seed viability during storage. However, the rate of seeds age depends upon their physiological status, genetic constitution and storage conditions. The lipid peroxidation through the production of free radical plays an important role in the loss of seed viability during seed storage. <br /><strong>Material and Methods</strong> <br />In order to investigate the effect of deterioration on germination indices and enzymes activity of the flax oil seed, a factorial experiment was conducted based on a Completely Randomized Design with four replications in the seed laboratory of Yasouj University in 2015. The factors included 4 levels of temperature (15, 25, 35 and 45<sup>o</sup>C) and moisture content (5, 9, 13 and 17%). With relation intended seed moisture, Hampton and Teckrony (1995) was calculated. After determining the moisture content of the seeds in envelopes of aluminum foil was placed, then the amount of water the need added and to ensure that the packaging and moisture exchange with the outside world for 24 hours at 15 °C were identical to the seed moisture and then for 6 months in storage conditions at temperatures of 15, 25, 35 and 45<sup>o</sup>C were kept. <br /><strong>Results</strong> <br />Analysis of variance showed that the single effects including temperature and seed moisture content experimental treatments for traits including germination percentage, germination rate, seedling vigor index (weight), activity enzymes antioxidant catalase, superoxide dismutase and ascorbate peroxidase, soluble proteins, electrical conductivity and oil percentage were significant (P≤0.01). Also, the interaction temperature and seed moisture content of all treatments except for enzyme, activity of superoxide dismutase and ascorbate peroxidase were significant (P≤0.01) but were significant (P≤0.05) for the activity of superoxide dismutase and ascorbate peroxidase. The results showed that with increasing temperature and moisture content, all the physiological and biochemical traits, except for electrical conductivity, decreased. The decrease in germination was also associated with a decrease in the activity of antioxidant catalase, superoxide dismutase and ascorbate peroxidase and as a result the antioxidant system was not sufficient to protect seeds against free radical damage. With the increase in reactive oxygen species, lipids peroxidation increased, probably due to the destruction of cell membranes, increased electrical conductivity seed the negative correlation between the electrical conductivity and the activity of the enzymes antioxidant indicator of the issue. <br /><strong>Discussions</strong> <br />Thus, oil flax seed deterioration was closely related to decrease in the activities of free radical detoxifying enzymes and increased lipid peroxidation. In general, the best flax seed storage condition is at 15°C and 5 percent moisture content.Shahid Chamran University of AhvazPlant Productions2588-543X40220170823Effect of Rosemary and Artemisia Essential Oil on Decay Control and Quality Characters of Mango Fruit During StorageEffect of Rosemary and Artemisia Essential Oil on Decay Control and Quality Characters of Mango Fruit During Storage53621311810.22055/ppd.2017.13118FAA.GolestaniM.Sc. Student of Post-Harvest, Department of Horticultural Science, College of Agriculture, University of Hormozgan, Hormozgan, IranS. RastegarRastegarAssistant Professor, Department of Horticultural Science, College of Agriculture, University of Hormozgan, Hormozgan, IranJournal Article20170904<strong>Background and Objectives</strong> <br />Postharvest diseases are one of the major causes of storage losses of mango. The incidence of postharvest diseases can affect the quality and limits the shelf life of the horticultural fresh products. Generally, there is a great interest in using essential oils (EOs) as biological control to increasing shelf life of fruits. Mango is one of the most important tropical fruits. The aim of this study was to evaluate in vivo effectiveness of<em> Artemisia persica </em>and <em>Rosmarinus officinalis </em>essential oils against <em>Aspergillus niger, </em>which are one of the most important postharvest diseases of mango. <br /><strong>Material and Methods</strong> <br />Inoculation of artificial fungal was done at room temperature. One day after inoculation, fruits were treated with different concentrations of EOs. The fruits were placed into boxes and kept in 25°C for three weeks. Then decay, weight loss, firmness, ascorbic acid and values of surface color were determined during storage. Fruits surface color was measured using a chromameter (CR 400, Minolta) which provided (CIE L*, a*, and b*). Firmness values were measured by using a texture analyzer. <br /><strong>Results</strong> <br />Results showed that all treatments had significant effects in preventing fruits decay during storage. Rosemary essential oil at low concentration (500 μl/l) (13.3%) significantly reduced deterioration of mango fruits<strong>,</strong> followed by <em>Artemisa persica</em> (1000 μl/l) (12%). Quality of fruits was also affected by essential oil. Fruit treated by <em>Rosmarinus officinalis </em>showed the highest firmness (3.7 kg/cm<sup>2</sup>) rather than other treatments. Different treatments showed more firmness rather than control and different concentrations of treatment did not show any significant difference. <br /><strong>Discussions</strong> <br />Modifications induced by EOs might be due to theirs components interactions with cell wall synthesis, which affects fungal growth and morphology. Moreover, the presence of an aromatic nucleus and one hydroxyl group is important for their antimicrobial activity. Some reported that efficacy of plant EOs depends on their composition<strong>Background and Objectives</strong> <br />Postharvest diseases are one of the major causes of storage losses of mango. The incidence of postharvest diseases can affect the quality and limits the shelf life of the horticultural fresh products. Generally, there is a great interest in using essential oils (EOs) as biological control to increasing shelf life of fruits. Mango is one of the most important tropical fruits. The aim of this study was to evaluate in vivo effectiveness of<em> Artemisia persica </em>and <em>Rosmarinus officinalis </em>essential oils against <em>Aspergillus niger, </em>which are one of the most important postharvest diseases of mango. <br /><strong>Material and Methods</strong> <br />Inoculation of artificial fungal was done at room temperature. One day after inoculation, fruits were treated with different concentrations of EOs. The fruits were placed into boxes and kept in 25°C for three weeks. Then decay, weight loss, firmness, ascorbic acid and values of surface color were determined during storage. Fruits surface color was measured using a chromameter (CR 400, Minolta) which provided (CIE L*, a*, and b*). Firmness values were measured by using a texture analyzer. <br /><strong>Results</strong> <br />Results showed that all treatments had significant effects in preventing fruits decay during storage. Rosemary essential oil at low concentration (500 μl/l) (13.3%) significantly reduced deterioration of mango fruits<strong>,</strong> followed by <em>Artemisa persica</em> (1000 μl/l) (12%). Quality of fruits was also affected by essential oil. Fruit treated by <em>Rosmarinus officinalis </em>showed the highest firmness (3.7 kg/cm<sup>2</sup>) rather than other treatments. Different treatments showed more firmness rather than control and different concentrations of treatment did not show any significant difference. <br /><strong>Discussions</strong> <br />Modifications induced by EOs might be due to theirs components interactions with cell wall synthesis, which affects fungal growth and morphology. Moreover, the presence of an aromatic nucleus and one hydroxyl group is important for their antimicrobial activity. Some reported that efficacy of plant EOs depends on their compositionShahid Chamran University of AhvazPlant Productions2588-543X40220170823Study on the effects of dust on date palm (Phoenix dactylifera L.) pollination and fruit setStudy on the effects of dust on date palm (Phoenix dactylifera L.) pollination and fruit set63741312010.22055/ppd.2017.19084.1374FAA.TorahiPh.D. Student of Pomology, Department of Horticultural Science, Tarbiat Modares University (TMU), Tehran, IranK.ArzaniProfessor, Department of Horticultural Science, Tarbiat Modares University (TMU), Tehran, IranJournal Article20160826Background and Objectives<br />In the recent years the phenomenon of dust increased in the environment, so has affected most agricultural products such as date palm. This study has been conducted in order to study on the effects of dust on date palm (Phoenix dactylifera L.) pollination and fruit set. The experiment was carried out in two growing seasons 2014 and 2015 in order to evaluate the effect of combined treatments including dust, rain and pollination on fruit set, parthenocarpic fruits and fruit abscission of 8-years old `Estamaran’ (‘Sayer’) date palms in the field. In addition, dust sediment manner on the flower and stigmatic surface in the simulated environment at the laboratory was studied. <br /><br />Materials and methods<br />In each combined treatment in the field, all bunches of experimental trees was treated as replications. At the laboratory, simulation operation has been done by placing the flowers under binocular camera and operating the combined treatments using soft brush for dusting and pollination on the stigma, also manual hand spray was applied. A month after treatments, traits such as fruit set, parthenocarpic fruit and abscission percentage and dust sedimentation manner on the flower and stigma was studied. The data were analyzed statistically using the analysis of variance using MINITAB17 software.<br /><br />Results and Discussion <br />Results showed that treatments had significant effects on the studied traits. Maximum obtained from pollination (66.11%) and minimum fruit set obtained from non-pollinated treatment (0.5%). In the other applied treatments, in spite of pollination, existence of one or two other factors and their operation order had different effects on fruit set. Combined treatments that included dust caused significant reduction in fruit set and led to the increase in fruit abscission. The maximum parthenocarpic fruit set observed in non-pollinated treatment (23.38%) with the significant difference in comparison to other treatments and the minimum parthenocarpic fruit produced by combined dust, rain and pollination treatment (0.48%). The maximum abscission was observed in the combined dust, rain and pollination treatment (83.82%) and the minimum abscission observed in pollination treatment (32.88%). The simulated operation results at the laboratory was approved and quiet similar to the results obtained from the field experiment, so the formation of dust insulator layer on the stigmatic surface inhibited most of the pollen grains for direct contact to the stigmatic surface. The obtained results from this research showed the negative impact of the dust on fruit set, so we conclude and suggest the repeat of pollination after the dust storm during date palm pollination.Background and Objectives<br />In the recent years the phenomenon of dust increased in the environment, so has affected most agricultural products such as date palm. This study has been conducted in order to study on the effects of dust on date palm (Phoenix dactylifera L.) pollination and fruit set. The experiment was carried out in two growing seasons 2014 and 2015 in order to evaluate the effect of combined treatments including dust, rain and pollination on fruit set, parthenocarpic fruits and fruit abscission of 8-years old `Estamaran’ (‘Sayer’) date palms in the field. In addition, dust sediment manner on the flower and stigmatic surface in the simulated environment at the laboratory was studied. <br /><br />Materials and methods<br />In each combined treatment in the field, all bunches of experimental trees was treated as replications. At the laboratory, simulation operation has been done by placing the flowers under binocular camera and operating the combined treatments using soft brush for dusting and pollination on the stigma, also manual hand spray was applied. A month after treatments, traits such as fruit set, parthenocarpic fruit and abscission percentage and dust sedimentation manner on the flower and stigma was studied. The data were analyzed statistically using the analysis of variance using MINITAB17 software.<br /><br />Results and Discussion <br />Results showed that treatments had significant effects on the studied traits. Maximum obtained from pollination (66.11%) and minimum fruit set obtained from non-pollinated treatment (0.5%). In the other applied treatments, in spite of pollination, existence of one or two other factors and their operation order had different effects on fruit set. Combined treatments that included dust caused significant reduction in fruit set and led to the increase in fruit abscission. The maximum parthenocarpic fruit set observed in non-pollinated treatment (23.38%) with the significant difference in comparison to other treatments and the minimum parthenocarpic fruit produced by combined dust, rain and pollination treatment (0.48%). The maximum abscission was observed in the combined dust, rain and pollination treatment (83.82%) and the minimum abscission observed in pollination treatment (32.88%). The simulated operation results at the laboratory was approved and quiet similar to the results obtained from the field experiment, so the formation of dust insulator layer on the stigmatic surface inhibited most of the pollen grains for direct contact to the stigmatic surface. The obtained results from this research showed the negative impact of the dust on fruit set, so we conclude and suggest the repeat of pollination after the dust storm during date palm pollination.Shahid Chamran University of AhvazPlant Productions2588-543X40220170823Effect of plant growth promoting rhizobacteria on ecophysiological characteristics of two wheat cultivars under reinfed conditionEffect of plant growth promoting rhizobacteria on ecophysiological characteristics of two wheat cultivars under reinfed condition75881312110.22055/ppd.2017.13121FAM.H.AnsariAssistant Professor, Department of Agronomy and Plant Breeding, Rasht Branch, Islamic Azad University, Rasht, IranD.HashemabadiAssociate Professor, Department of Horticulture, Rasht Branch, Islamic Azad University, Rasht, IranM.YadegariAssistant Professor, Department of Agronomy and Medicinal Plants, Shahrekord Branch, Islamic Azad University, Shahrekord, IranJournal Article20160604To evaluate the effect of PGPRs on ecophysiological characteristics of two wheat cultivars a factorial experiment with three replications was carried out under rainfed conditions in Germi region. Experimental factors include two wheat cultivars (Atila and Zagros) and six levels of growth promoting bacteria (Pseudomonas putida strain R168, R159, R112, Azosprillium lipoferum strain 21 and Azetobacter chroococcum strain 5 and a control). Results showed that the highest amount of chlorophyll and soluble sugar in leaf in Zagros cultivar was obtained from bacteria Pseudomonas strains R159 and Azetobacter, respectively, but in Attila cultivar Pseudomonas strains R112 showed the highest chlorophyll and leaf sugar. Most of the membrane stability and carbonil highest amount of protein was obtainrd from Pseudomonas strains R112 and control, respectively. In the Zagros cultivar, the Pseudomonas bacteria, with 3130 kg/ha seed yield than other bacteria was superior and also showed the highest 1000 seed weight but in Attila cultivar although bacterial treatments had a higher seed yield than control, But no significant difference between Azosprillium with R112 and R159 strains. Finally Zagros cultivar showed better respond to bacterial inoculotion and for rainfed conditoin of Germi area cultivation of Zagros cultivar as well as bacteria Pseudomonas strains R112 inoculation is recommended for maximum seed yield.To evaluate the effect of PGPRs on ecophysiological characteristics of two wheat cultivars a factorial experiment with three replications was carried out under rainfed conditions in Germi region. Experimental factors include two wheat cultivars (Atila and Zagros) and six levels of growth promoting bacteria (Pseudomonas putida strain R168, R159, R112, Azosprillium lipoferum strain 21 and Azetobacter chroococcum strain 5 and a control). Results showed that the highest amount of chlorophyll and soluble sugar in leaf in Zagros cultivar was obtained from bacteria Pseudomonas strains R159 and Azetobacter, respectively, but in Attila cultivar Pseudomonas strains R112 showed the highest chlorophyll and leaf sugar. Most of the membrane stability and carbonil highest amount of protein was obtainrd from Pseudomonas strains R112 and control, respectively. In the Zagros cultivar, the Pseudomonas bacteria, with 3130 kg/ha seed yield than other bacteria was superior and also showed the highest 1000 seed weight but in Attila cultivar although bacterial treatments had a higher seed yield than control, But no significant difference between Azosprillium with R112 and R159 strains. Finally Zagros cultivar showed better respond to bacterial inoculotion and for rainfed conditoin of Germi area cultivation of Zagros cultivar as well as bacteria Pseudomonas strains R112 inoculation is recommended for maximum seed yield.Shahid Chamran University of AhvazPlant Productions2588-543X40220170823Investigation effects of Malling and Malling Merton rootstocks and planting distances on the quality and quantity characteristics apple cultivar red delicious in Meshginshahr regionInvestigation effects of Malling and Malling Merton rootstocks and planting distances on the quality and quantity characteristics apple cultivar red delicious in Meshginshahr region89981312210.22055/ppd.2017.13122FAH.Karbalaei KhiaviAssistant Professor, Plant Protection Research Department, Ardabil Agricultural and Natural Resources Research and Education Centre, AREEO, Ardabil, IranA.PirayeshM.Sc. of Horticulture Crops Research Department, Ardabil Agricultural and Natural Resources Research and Education Centre, AREEO, Ardabil, IranJournal Article20160326In order to determine the most suitable dwarf rootstock for apple cultivar 'Red Delicious' and optimal planting distances under climatic conditions of Meshginshahr region, this research was conducted as a split plot with randomized complete block design in three replications during two years. The two planting distances of 2 × 4 and 3 × 4 meter were as the main plot and three rootstocks MM106, M9 and M26 were as sub-plots were included in the test. Analysis of variances showed significant differences between years in terms of yield and flowers density; between the planting distances in terms of yield, fruit size and soluble solids concentration and flowers density; between rootstocks in terms of yield, fruit size, flower density and dry matter; and significant differences in yields between interactions of the planting distances × rootstocks, year × planting distances × rootstocks at 5% and 1% possibility levels. Apple CV. 'Red Delicious' grafted on M9 rootstock in planting distances of 2 × 4 meter with 9.367 tons per hectare had the highest yield and was placed in group. Analysis of average effect of rootstock in fruit production showed that 'Red Delicious' on M9 rootstocks produced the biggest fruit and had the highest density. Fruit size, flower density on tree and soluble solids concentration in the planting at a distance of 3 × 4 m were greater than that in 2 × 4 meter. In this study, apple fire blight disease was not observed in the treatments.In order to determine the most suitable dwarf rootstock for apple cultivar 'Red Delicious' and optimal planting distances under climatic conditions of Meshginshahr region, this research was conducted as a split plot with randomized complete block design in three replications during two years. The two planting distances of 2 × 4 and 3 × 4 meter were as the main plot and three rootstocks MM106, M9 and M26 were as sub-plots were included in the test. Analysis of variances showed significant differences between years in terms of yield and flowers density; between the planting distances in terms of yield, fruit size and soluble solids concentration and flowers density; between rootstocks in terms of yield, fruit size, flower density and dry matter; and significant differences in yields between interactions of the planting distances × rootstocks, year × planting distances × rootstocks at 5% and 1% possibility levels. Apple CV. 'Red Delicious' grafted on M9 rootstock in planting distances of 2 × 4 meter with 9.367 tons per hectare had the highest yield and was placed in group. Analysis of average effect of rootstock in fruit production showed that 'Red Delicious' on M9 rootstocks produced the biggest fruit and had the highest density. Fruit size, flower density on tree and soluble solids concentration in the planting at a distance of 3 × 4 m were greater than that in 2 × 4 meter. In this study, apple fire blight disease was not observed in the treatments.Shahid Chamran University of AhvazPlant Productions2588-543X40220170823Evaluation of storage temperature and container material effects on summer wild blackberry postharvestEvaluation of storage temperature and container material effects on summer wild blackberry postharvest991121312310.22055/ppd.2017.19095.1376FAM.HaddadinejadAssistant Professor, Department of Horticulture, Faculty of Crop Sciences, Sari Agricultural Sciences and Natural Resources University, Sari, Iran0000-0001-7776-4832K.GhasemiAssistant Professor, Department of Horticulture, Faculty of Crop Sciences, Sari Agricultural Sciences and Natural Resources University, Sari, IranA.A.MohammadiM.Sc. Student of Horticulture, Department of Horticulture, Faculty of Crop Sciences, Sari Agricultural Sciences and Natural Resources University, Sari, Iran0000-0002-5323-5458Journal Article20160827Background and objectives: Blackberry due to its short post-harvest shelf life and rapid perishability cannot be conserve for long time. Recently, using small plastic containers became popular that unfortunately is non-biodegradable and incompatible with environment so these materials are dangerous for environment. But using biodegradable packages which made up by natural materials like starch, corn, potato and wheat can be a suitable substitution. This research aimed to evaluate optimum conditions including temperature and container material for increasing summer wild blackberry shelf life.<br />Materials and methods: With the aim of evaluation of summer wild blackberry optimum storage conditions, its fruits were compared via three levels of temperature (0, 4 and 25˚C) and two kinds of containers (biodegradable and non-biodegradable) during 14 days. Different characteristics comprising of visual quality (fruit weight, fruit weight loss and market acceptance), edible quality (TSS, pH, TA, TSS/TA, flavor and taste) and health value (total antioxidant activity, total phenol content, total flavonoid content and total anthocyanin) was evaluated. <br />Results: The obtained results showed fruits weight lost, during postharvest maintenance in all of treatments the highest fruit weight recorded on the first day and after that decreased significantly. In addition to fruit weight, length, width, flavor, taste and market acceptance of fruit decreased during storage, significantly. Visual quality of fruits packed in polystyrene container was better than bio based one. Total soluble solids of blackberries stored in biodegradable package were significantly higher than non-biodegradable container. Inhibitory percentage of DPPH radicals in all treatments showed powerful antioxidant properties of blackberry. The highest phenol content (62.33 gGalicacid/ g fruit juice) of fruits was recorded in 3th day at 4˚C in polystyrene container. The lowest amount of total phenol in the same temperature was observed after 8 days storage in biodegradable container. In both of containers, the temperature of 0 ˚C showed less decrease of flavonoid content. During the experiment conduction, anthocyanin content decreased generally but in 8 and 14th day in polystyrene container and 0˚C, its content increased from 224,99 in first day at 0oC to 57.89 and 90.3 mg Cyanidin/Lit fruit juice in both containers types at 14th day, significantly.<br />Discussion: Water loss due to transpiration and respiration is the main reason for weight loss during post-harvest period. Because of this, using Nano particles in containers materials around the fruits to control water exchange can reduce weight loss and influence different fruit characteristics as well. <br />Conclusion: The positive effect of the 0 ˚C temperature on blackberry shelf life was significant. Using biodegradable package despite its environmental importance showed less efficiency for increasing blackberry postharvest life in comparison with plastic one and require additional researches.Background and objectives: Blackberry due to its short post-harvest shelf life and rapid perishability cannot be conserve for long time. Recently, using small plastic containers became popular that unfortunately is non-biodegradable and incompatible with environment so these materials are dangerous for environment. But using biodegradable packages which made up by natural materials like starch, corn, potato and wheat can be a suitable substitution. This research aimed to evaluate optimum conditions including temperature and container material for increasing summer wild blackberry shelf life.<br />Materials and methods: With the aim of evaluation of summer wild blackberry optimum storage conditions, its fruits were compared via three levels of temperature (0, 4 and 25˚C) and two kinds of containers (biodegradable and non-biodegradable) during 14 days. Different characteristics comprising of visual quality (fruit weight, fruit weight loss and market acceptance), edible quality (TSS, pH, TA, TSS/TA, flavor and taste) and health value (total antioxidant activity, total phenol content, total flavonoid content and total anthocyanin) was evaluated. <br />Results: The obtained results showed fruits weight lost, during postharvest maintenance in all of treatments the highest fruit weight recorded on the first day and after that decreased significantly. In addition to fruit weight, length, width, flavor, taste and market acceptance of fruit decreased during storage, significantly. Visual quality of fruits packed in polystyrene container was better than bio based one. Total soluble solids of blackberries stored in biodegradable package were significantly higher than non-biodegradable container. Inhibitory percentage of DPPH radicals in all treatments showed powerful antioxidant properties of blackberry. The highest phenol content (62.33 gGalicacid/ g fruit juice) of fruits was recorded in 3th day at 4˚C in polystyrene container. The lowest amount of total phenol in the same temperature was observed after 8 days storage in biodegradable container. In both of containers, the temperature of 0 ˚C showed less decrease of flavonoid content. During the experiment conduction, anthocyanin content decreased generally but in 8 and 14th day in polystyrene container and 0˚C, its content increased from 224,99 in first day at 0oC to 57.89 and 90.3 mg Cyanidin/Lit fruit juice in both containers types at 14th day, significantly.<br />Discussion: Water loss due to transpiration and respiration is the main reason for weight loss during post-harvest period. Because of this, using Nano particles in containers materials around the fruits to control water exchange can reduce weight loss and influence different fruit characteristics as well. <br />Conclusion: The positive effect of the 0 ˚C temperature on blackberry shelf life was significant. Using biodegradable package despite its environmental importance showed less efficiency for increasing blackberry postharvest life in comparison with plastic one and require additional researches.Shahid Chamran University of AhvazPlant Productions2588-543X40220170823Reduction of the impact of dust on quantitative and qualitative characteristics of white seedless grape variety by washing with d-octilReduction of the impact of dust on quantitative and qualitative characteristics of white seedless grape variety by washing with d-octil1131251312410.22055/ppd.2017.13124FAM.BehrouziPh.D. Student of Climatology-Environmental Hazards, Department of Environmental Sciences, Orientation Environmental Hazards, Research Institute of Grape and Raisin, Malayer University, Malayer, IranH.NouriAssistant Professor, Department of Range and Watershed Management, College of Natural Resources and Environment ,Director of Research Institute of Grape and Raisin, Malayer University, Malayer, IranS.BazgeerAssistant Professor, Department of Natural Geography, Faculty of Geography, University of Tehran, Tehran, IranM.A.NejatianAssociate Professor, Research Center and Agricultural Education and Natural Resources, Gazvin Province, Gazvin, IranD.AkhzariAssistant Professor, Department of Range and Watershed Management, College of Natural Resources and Environment ,Malayer University, Malayer, IranJournal Article20160829Extended Abstract<br />Background and Objectives<br />Atmospheric dust is one of the pollutants that is considered the biggest environmental problems in different parts of the world. Dust can affect, either directly or indirectly, both plants and crops. The direct impact is on critical activities such as plant photosynthesis, evapotranspiration, stomata conductance, pigments, leaf temperature and breathing. The indirect effect may be influenced on reduction of the fruit quality and yield. This study aims at investigating the adverse effects of dust on grape vineyard in Malayer, Hamedan Province, Iran.<br />Materials and methods<br />The Experiment was conducted in randomized completely block design for evaluation of the effects of dust on White Seedless Grape (Vitis vinifera L.) in the Grape Research Institute, Malayer, on 27 vines during 2014-2015 year. the first treatment was dust (9 plants) that soil samples were collected from Khuzestan province and after preparation was applied on the plant in four growth stages using mechanical devices; the second treatment, solution treatment that dusts were washed with water and di octyl; the third one was control (9 plants) treatment. Chlorophyll a and b, carotenoids, vegetative traits such as length of cane, length of leaf, leaf area, length of peduncle, internodes and reproductive traits such as fruit set, number of berry and number of bunch, length of bunch, number of berries in bunch, weight of berry and brix of berry were measured. <br />Results<br />The results revealed that leaf pigments reduction was caused due to deposition of dust on leaf surface and differences between treatments was significant at the 5% probablity level. The vegetative traits viz. length of peduncle, internodes and leaf area were small in dust treatment and the difference between treatments was significant. Length of cane in the second stage was significant and longest canes were in the solution treatment. Fruit set, number of berries and number of bunch were reduced in dust treatment and a significant difference was observed between treatments. In addition, control and solution treatments were in one class. Moreover, sugar in a single grape was decreased up to 7 % in dust treatment as compared to other ones. <br />Discussion<br />Dust treatment had more effect on b chlorophyll in the first, the third and the fourth growth stages of grape as compared to a chlorophyll and Carotenoid. In addition, the difference among means was significant at 5 % level. The previous studies showed that the leaf dust accumulation decreased pigment content of plant )Kumar Rai and panda, 2014(. Leghari et al., 2013 confirmed that roadside plant could be damaged by dust and had shorter length of cane. The rate of fruit set in control, dust and solution treatments were 36%, 21% and 33%, respectively. Moreover, the percentage of brix in control, dust and solution treatments, were 20%, 7% and 15%, respectively. The researches revealed that dust could reduce photosynthesis and consequently the amount of brix in grapes (Chaurasia et al., 2013) which were in agreement with our study.Extended Abstract<br />Background and Objectives<br />Atmospheric dust is one of the pollutants that is considered the biggest environmental problems in different parts of the world. Dust can affect, either directly or indirectly, both plants and crops. The direct impact is on critical activities such as plant photosynthesis, evapotranspiration, stomata conductance, pigments, leaf temperature and breathing. The indirect effect may be influenced on reduction of the fruit quality and yield. This study aims at investigating the adverse effects of dust on grape vineyard in Malayer, Hamedan Province, Iran.<br />Materials and methods<br />The Experiment was conducted in randomized completely block design for evaluation of the effects of dust on White Seedless Grape (Vitis vinifera L.) in the Grape Research Institute, Malayer, on 27 vines during 2014-2015 year. the first treatment was dust (9 plants) that soil samples were collected from Khuzestan province and after preparation was applied on the plant in four growth stages using mechanical devices; the second treatment, solution treatment that dusts were washed with water and di octyl; the third one was control (9 plants) treatment. Chlorophyll a and b, carotenoids, vegetative traits such as length of cane, length of leaf, leaf area, length of peduncle, internodes and reproductive traits such as fruit set, number of berry and number of bunch, length of bunch, number of berries in bunch, weight of berry and brix of berry were measured. <br />Results<br />The results revealed that leaf pigments reduction was caused due to deposition of dust on leaf surface and differences between treatments was significant at the 5% probablity level. The vegetative traits viz. length of peduncle, internodes and leaf area were small in dust treatment and the difference between treatments was significant. Length of cane in the second stage was significant and longest canes were in the solution treatment. Fruit set, number of berries and number of bunch were reduced in dust treatment and a significant difference was observed between treatments. In addition, control and solution treatments were in one class. Moreover, sugar in a single grape was decreased up to 7 % in dust treatment as compared to other ones. <br />Discussion<br />Dust treatment had more effect on b chlorophyll in the first, the third and the fourth growth stages of grape as compared to a chlorophyll and Carotenoid. In addition, the difference among means was significant at 5 % level. The previous studies showed that the leaf dust accumulation decreased pigment content of plant )Kumar Rai and panda, 2014(. Leghari et al., 2013 confirmed that roadside plant could be damaged by dust and had shorter length of cane. The rate of fruit set in control, dust and solution treatments were 36%, 21% and 33%, respectively. Moreover, the percentage of brix in control, dust and solution treatments, were 20%, 7% and 15%, respectively. The researches revealed that dust could reduce photosynthesis and consequently the amount of brix in grapes (Chaurasia et al., 2013) which were in agreement with our study.