Growing vegetables
J. Panahandeh; M.S. Zare far; A. Motallebi-Azar; F. Zare Nahandi; M. Amani
Abstract
IntroductionVarious methods of stress directly affected the growth and production yield of numerous plants. For example, environmental stress reduces the tomato manufacturing by the disrupting its natural metabolism, or, salinity stresses affect the it is growth and development from the germination stage ...
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IntroductionVarious methods of stress directly affected the growth and production yield of numerous plants. For example, environmental stress reduces the tomato manufacturing by the disrupting its natural metabolism, or, salinity stresses affect the it is growth and development from the germination stage to the fruit ripening stage. Salinity in tomatoes by stimulating the biosynthesis of growth regulators such as ethylene and abscisic acid leads to the acceleration of the aging of the leaves. Therefore, development of different methods to induce salinity stress tolerance in plants is necessary. Some approaches were studied to develop the salinity tolerant plants such as genetic breeding, environmental improvements and usage of phytohormones and signal molecules. Salicylic acid or orthohydroxybenzoic acid plays an important role in regulating the physiological and biochemical responses of plants to stress conditions, which improves the plant's resistance to adverse environmental conditions. For instance, salicylic acid is a facile and effective way to increase plant productivity under salt stress conditions. Considering the positive effects of salicylic acid in modulating the effects of salinity, this study was conducted with the aim of investigating the effects of salicylic acid’s usage in modulating the harmful effects of salinity on some vegetative, physiological, quantitative and qualitative characteristics of two tomato cultivars of Baneh local mass and Semi Dwarf line.Materials and MethodsTo investigate the effect of salicylic acid in modulating the effects of salinity stress in tomato, a factorial experiment was conducted in the form of a randomized complete block design, with 12 treatments, in 3 replications and with a total of 36 experimental units in the hydroponic greenhouse of the Department of Horticulture, Faculty of Agriculture, and university of Tabriz. The treatments included two levels of salicylic acid (0 and 1 mM) and salinity levels (0, 35 and 70 mM NaCl) on two tomato cultivars of Baneh and Semi Dwarf.Results and DiscussionThe results showed that in Baneh and Semi Dwarf cultivars, the increase in salinity levels caused a decrease in vegetative indices, meanwhile the treatment of salicylic acid along with salt stress increased same indices. Also, salt stress caused yield reduction in both Baneh and Semi Dwarf cultivars. By examining the qualitative indicators, it was observed that titratable acidity and vitamin C increased with salt stress and salicylic acid treatment in both cultivars. In terms of physiological indicators, the amount of proline increased at different salinity levels with salicylic acid treatment, but the amount of leaf chlorophyll index decreased with the increase of same condition.ConclusionThe results of testing the effect of salicylic acid and the effects of salinity stress on vegetative, quantitative, qualitative and physiological indicators in Baneh and Semi Dwarf tomatoes showed a remarkable difference in terms of significance. In terms of vegetative traits; Plant height, leaf area index, shoot wet in Baneh and Semi Dwarf cultivars decreased with increasing salinity levels of vegetative indices, but salicylic acid treatment along with salinity stress increased same indices. Indicators such as yield, fresh weight of fruit, and percentage of dry matter of fruit showed different responses to different levels of salinity and salicylic acid treatment. The fresh weight of fruit increased with the application of salicylic acid. Also, salt stress caused an increase in the percentage of dry matter of the fruit. But salt stress caused yield reduction in both Baneh and Semi Dwarf cultivars. In terms of quality indicators; the amount of titratable acidity and vitamin C increased with salt stress and salicylic acid treatment in both cultivars. In terms of physiological indicators, the level of proline increased across various salinity levels with salicylic acid treatment. However, the leaf chlorophyll index decreased with rising salinity levels, even in the presence of salicylic acid treatment. Overall, salinity stress caused a decrease in most analyzed traits in the Baneh and Semi Dwarf cultivars. Nevertheless, it led to improvements in certain quality traits. Additionally, salicylic acid treatment enhanced the mentioned indices in most of the examined traits in both cultivars. Therefore, considering the positive effects of salicylic acid treatment on Baneh and Semi Dwarf cultivars under salinity stress conditions, its use is recommended.
A. Abbasi Kashani; A. Ebadi; mohammadreza fattahi; M. Shokrpour
Abstract
Introduction: Grape (V. vinifera L.) is one of the most important crops in the world and Iran, and play a major role in the export income. According to World Food Organization statistics, the area under global cultivation has been seven million hectares and Iran ranks seventh in the world with 316,000 ...
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Introduction: Grape (V. vinifera L.) is one of the most important crops in the world and Iran, and play a major role in the export income. According to World Food Organization statistics, the area under global cultivation has been seven million hectares and Iran ranks seventh in the world with 316,000 hectares. Grape production is about 77.5 million tons and Iran is ninth in the world with production of about 2.5 million tons. Fars province is in the first place with 75,000 hectares of fertile vineyards. Qazvin, Khorasan Razavi, West Azarbaijan, Hamadan and East Azarbaijan provinces are also ranked next. Cold stress is one of the constraints on the cultivation of grapes, so prevention of frost damage is one of the important points in the world's grape areas. This damage could be due to early autumn cold and late spring in the temperate region, such as winter frost of 2007, early autumn frost of 2015 and late spring frost of 2014 and 2017. Protecting plants against the harmful effects of low temperatures in agriculture is considerable. One way to prevent frost damages is using plant growth regulators such as salicylic acid. It seems that salicylic acid plays a role in the resistance to the cold stress, and it probably contributes to the activity of antioxidant enzymes and hydrogen peroxide metabolism, so it reduces cold stress damages and increases the plant tolerance to frost. The role of salicylic acid against cold stress have been reported in various plants such as lemon, pistachio, peach, pomegranate, apricot and walnut. Studies have shown that application of salicylic acid on grape seedlings increased the resistance to thermal stresses by reducing ion leakage and decreased the peroxidation of the cell membranes. Also, SA increased the proline and soluble carbohydrates in Plukenetia volubilis seedlings. In the present study, the effects of salicylic acid was investigated on the reaction of potted seedlings of some grape varieties under the spring frost. Then shoot burn percentage, recovery, ion leakage and peroxidation of membrane lipids of seedlings were investigated after cold application. Therefore, the changes in the amount of some osmotic regulators such as proline, soluble carbohydrates, and antioxidants such as phenolic compounds were evaluated by salicylic acid and cold treatments. Materials and Methods: This research was carried out in greenhouse of Department of Horticulture Engineering of College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran, in spring 2017 on two-year potted seedlings. It was carried out in a completely randomized design with three replications to evaluate the effects of salicylic acid on reducing the damage of spring frost in some grape varieties such as Bidaneh Sefid, Perlette and Riparia species. Salicylic acid was sprayed at 0, 0.5 and 1 mM in E-L=11 on two year-old potted. After 24 hours, cold treatment was applied at 0 and -2 °C and normal temperature (as control) for 8 h. Control was in the greenhouse with natural temperature. Potted plants were transferred to the greenhouse and after 72 hours, the burn percentage was calculated. Also, recovery of the seedling was determined 20 days after the cold. Other parameters were measured such as ion leakage, malondialdehyde, soluble carbohydrates, proline and phenolic compounds. Statistical analysis and mean comparison of the results was done by SPSS and LSD test. Results and Discussion: According to the results, salicylic acid and cold treatments had significant effects on some characteristics of Vinifera species such as Bidaneh Sefid, Perlette and Riparia species. The results showed that with increasing the cold stress to -2 °C, the burned shoot percentage was increased and the grown buds percentage was decreased compared to control, and electrolytic leakage and malondialdehyde were increased at same temperature. Salicylic acid 1 mM reduced the damage to shoots and increased the recovery of seedlings. The lowest amount of electrolytic leakage and malondialdehyde were observed in 1 mM salicylic acid treated seedlings compared to non-treated. According to the results, application 1mM salicylic acid increased osmotic regulators and antioxidants such as proline, solution carbohydrates and phenolic compounds. There was a significant difference between Vinifera and Riparya species at -2 °C in some parameters such as burned shoot, recovery, ion leakage and malondialdehyde. Also, there were significant differences between Bidaneh Sefid, Perlette and Riparia species at -2 °C and 1 mM in proline, solution carbohydrates and phenolic compounds. It has been reported that salicylic acid plays a role of osmotic regulation for the cell and it can reduce the damage of frost by stimulating the hydrolysis of insoluble carbohydrates or proteins and enhancing compounds such as soluble carbohydrates, so it led to reduce the freezing point of the tissue. Increasing in soluble carbohydrates have been reported in grapes and lemon by salicylic acid spraying. Conclusions: Spring frost has damaging effects on grapevine and can lead to a lot of economic damage to gardeners. Therefore, it can be prevented by some plant regulators such as salicylic acid. The results of the present study showed that the damage caused by cold treatment in control seedlings was more than the plants that were treated with salicylic acid and concentration of 1 mM salicylic acid at 2°C had a positive effect on reduction of morphological damage severity as well as reduction peroxidation of the cell membrane. Cold tolerance of seedlings may be due to the role of salicylic acid in increasing antioxidant substances such as phenolic compounds, as well as in increasing osmotic regulators such as proline and soluble carbohydrates, thereby increasing cell sap concentration and tissue freezing point. This reduced the negative effects of low temperature and reduced cell membrane damage and electrolyte leakage and improved the recovery ability of two-year-old potted seedlings of Bidaneh Sefid, Perlette and Riparia species. So, it can be concluded that among different tested species, Riparia had the lowest percentage of shoot burn and highest recovery ability than the cultivars of Vinifera. Among the genotypes of Vinifera species, Bidaneh Sefid was the most proline and soluble carbohydrate compared to Perlette, indicating a higher adaptation to cold conditions.
M. Abaspour Esfaden; S. Kallaterjari; F. Fatehi
Abstract
Introduction: Catharanthus roseus is a beautiful herbaceous plant, belonging to Apocynaceae family, which is widely cultivated due to its unique and beautiful appearance. It is native to the Caribbean Basin and has historically been used to treat a wide assortment of diseases. European herbalists used ...
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Introduction: Catharanthus roseus is a beautiful herbaceous plant, belonging to Apocynaceae family, which is widely cultivated due to its unique and beautiful appearance. It is native to the Caribbean Basin and has historically been used to treat a wide assortment of diseases. European herbalists used this plant for different conditions such as headache and a folk remedy for diabetes. The effects of drought range from morphological to molecular levels and are evident at all phonological stages of plant growth at whatever stage the water deficit takes place.The limitation of water resources in our country is one of the important issues in landscape. However, we can alleviate the adverse effects of water stress with the use of some biological and non-biological stimulators. Under severe stress conditions, the antioxidant capacity may not be sufficient to minimize the harmful effects of oxidative damage. Therefore, synthesis of signal molecules in plants is an important step in our better understanding of how plants respond to environmental stresses. Several such signal molecules have been identified in plants such as jasmonic acid, ethylene and salicylic acid (SA). SA is considered as a hormone-like substance, which plays an important role in regulating a number of plants’ physiological processes including photosynthesis. Besides, L-arginine is an amino acid, which can alleviate the adverse effect of drought. Among the 21 proteinogenic amino acids, arginine has the highest nitrogen to carbon ratio, which makes it especially suitable as a storage form of organic nitrogen. Synthesis in chloroplasts via ornithine is apparently the only operational pathway to provide arginine in plants. Therefore, the present study was conducted to evaluate the effect of salicylic acid (SA) and L-arginine on morpho-physiological properties of C. roseus.
Materials and Methods: This experiment was carried out as a factorial with two factors including the foliar application at five levels (control, L-arginine 1.5 and 3 mM, SA 100 and 200 mg /L) and water stress at three levels (100, 70 and 40% field capacity (FC)) in a completely randomized design with three replications. Water use efficiency (WUE), the root/shoot weight, flower number, flower diameter, leaf chlorophyll content, peroxidase and superoxide dismutase activity of leaf, and leaf macronutrients (nitrogen, phosphorus and potassium) were measured.
Results and Discussion: The results showed that WUE in plants under moderate stress (70% FC) was higher than the plants in control and severe drought condition (40% FC). Root/shoot weight at no foliar application (control) × 40% FC and L-arginine 1.5 mM × 40% FC was higher than other treatments. The number of flowers in the treatments of 100% FC and 70% FC was more than 40% FC. The highest flower diameter was obtained from the L-arginine 3 mM. Total chlorophyll of L-arginine 3 mM was higher relative to other treatments. Drought stress significantly increased the activity of antioxidant enzymes. The lowest amount of phosphorus and nitrogen was observed at no foliar application ×40% FC. Therefore, according to the optimum application of water and amendment substrates, at 70% FC stress, L-arginine 3 mM and SA 100 mg /l increased the nitrogen and phosphorus content. Overall, L-arginine 3 mM and SA 100 mg /l increased the flower number and flower diameter significantly. Accumulation of these organic solutes either actively or passively helps the plants to retain water within cells and protect cellular compartments from injury caused by dehydration or maintain turgor pressure during water stress. Turgor maintenance plays an important role in drought tolerance of plants which may be due to its involvement in stomatal regulation and hence photosynthesis. Foliar application with arginine resulted in elevated proline levels and radiotracer experiments demonstrated that both 3H and 14C from arginine can be recovered as proline. The physiological relevance and the biochemical pathway of the conversion of arginine to proline in plants remain unclear. The most prominent hypothesis is that ornithine, derived from arginine catabolism, is converted by δOAT to GSA/P5C, which then serves as substrate for proline synthesis by P5CR. This model has been doubted, since Arabidopsis δOAT was found to be exclusively localized in mitochondria, while P5CR is localized in the cytosol.
Conclusion: The findings of our study showed that water stress can morphologically and physiological change C. roseus. There was no significant difference between 70% and 100% FC for root/shoot, flower number and flower diameter traits. So, we can reduce the use of water to 70% FC increased the flower number and flower diameter and can be used to alleviate the adverse impact of water stress.
maryam haghighi; Atena Sheibanirad
Abstract
Introduction: Soil salinity is a global problem that affects approx. 20 % of irrigated land and reduces crop yields significantly. Since, salinity is one of the most important abiotic stress and limiting factor for plant growth all around the world. It is necessary to find some way to ameliorate these ...
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Introduction: Soil salinity is a global problem that affects approx. 20 % of irrigated land and reduces crop yields significantly. Since, salinity is one of the most important abiotic stress and limiting factor for plant growth all around the world. It is necessary to find some way to ameliorate these damages. The physiological responses of a plant to salinity are often complex and multi-faceted, which makes experiments difficult to design and interpret. At basic level, the response of plants to salinity can be described in two main phases: the shoot ion-independent response occurs first, within minutes to days, and is thought to be related to Na+sensing and signaling. Tomato is one the most popular crop in open door and greenhouse cultivation which could face with salinity stresses. Salinity with inducing osmotic stress could have irreversible damages on plant growth and function. Three main salinity tolerance mechanisms have been proposed: on exclusion – the net exclusion of toxic ions from the shoot; tissue tolerance – the compartmentalization of toxic ions into specific tissues, cells and subcellular organelles; and shoot ion-independent tolerance – the maintenance of growth and water uptake independent of the extent of Na+ accumulation in the shoot. In order to face with stresses plant make some internal signals which cause producing different compound and inducing stress resistance. Salicylic acid is one these resistances induced agent. Azealic acid is an organic compound which could increase salicylic acid accumulation in plants.
Materials and Methods: So that, the present experiment was conducted to evaluate the effect of azealic acid and saline irrigation on tomato vegetative and photosynthetic parameters in factorial design based on CRD with three replications. The treatments were salinity level (0, 100, 150 and 200 mM) and azealic acid (0, 8, 10, and 24 mg l-1). The experiment was conducted in pot and in the greenhouse. Gradually in a week salinity treatments applied for plants after that each week once azelaic treatments also applied in each plant. Two weeks later each gas exchange parameters and all parameters needed fresh plant were measured and at the end all parameters with dry matter measured. The photosynthesis traits like transpiration, photosynthesis rate, mesophyll conductance, stomata conductance some stress indices like proline and antioxidant phenol were measured.
Results and Discussion: Results indicated that with increasing salinity level biomass production reduced. It seems that with azealic supplement especially in AZ2 treatment with improving photosynthetic water use efficiency, stomatal and mesophyll conductance has positive effect on photosynthesis. Under low salinity level azealic acid was an effective treatment in photosynthetic parameters although when salinity exceeds more than 100 mM photosynthetic parameters even with azealic acid application reduced. Azealic acid causes a kind of osmotic balance following that the proline content of these treatment reduced. In all salinity levels when azaleic acid applied the phenolic compound increased significantly and the highest was in AZ3. Azaleic acid reduced the Na concentration of leaves it causing the most tolerate reason against salinity when the azaleic acid applied. Although the photosynthetic rate increased with azaleic acid it is not because of chlorophyll content, because the chlorophyll content decreased with azaleic acid. The increase of photosynthesis could be due to decreasing Na concentration of leaves and increasing defense system of plants. Chlorophyll florescence decreased even with azaleic acid in salinity, it means that azaleic acid cannot completely compensate the stress harmful effect. The growth was improved with azaleic acid in salinity; the improvement was greater in root weight compare with shoot weight. Azaleic acid not only prevent decreasing the weight but also improved them in salinity. In defense system of tomato it seems that antioxidant and phenol content were more effective than proline because they are increased with azaleic acid in saline condition effectively compare with proline.
Conclusions: Finally, it seems that until 100mM salinity level azealic acid with maintaining gas exchange capacity in optimum level and inducing osmotic balance could reduce salinity damages. Conclusively, when azaleic acid was applied in 8mg/l that it improved photosynthetic traits like stomata conductance, mesophyll conductance, and photosynthetic water use efficiency compare with control. Azaleic acid can improve the photosynthetic traits when salinity was in low level like 100mM. Proline which is amino acid role as a defense system of plants increased the osmotic adjustment in plant in response to azaleic acid
Nasser Abbaspour; Lavin Babaei; Alireza Farrokhzad
Abstract
Introduction: Water stress is considered as a main environmental factor limiting crop growth and yield, including grape in Mediterranean areas.Selection for drought-tolerantvarieties is possible through investigation of their performance under stress conditions. The estimation of physiological characteristics ...
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Introduction: Water stress is considered as a main environmental factor limiting crop growth and yield, including grape in Mediterranean areas.Selection for drought-tolerantvarieties is possible through investigation of their performance under stress conditions. The estimation of physiological characteristics as reliable indices can be used as a tool to select tolerant plants. For this reason, varieties and genotypes of one plant species are usually investigated through physiological characteristics and its relation to drought tolerance. Investigation of the effects of water stress on some growth and physiological characteristics in grape plants has revealed that plant height, number of leaves and nodes, leaf area and the percentage of dry weightdecreased under increasing drought stress. Salicylic Acid is a naturally occurring plant hormone whichinfluences various morphological and physiological functions in plant. It can act as an important signaling molecule and has diverse effects on biotic and abiotic stresses tolerance capacity.
Materials and Methods: In this research, two-yearold grapesplanted in plastic pots containingingredients of humus, soil and sand (1:2:1) were used. The experiment was conducted using a factorial based on randomized complete block design with three factors including irrigation periods (every 5, 10 and 15 days), salicylic acid concentrations (0, 1 and 2 mM) and grape cultivars (Rasheh andBidanesefid) with 3 replications in thegreenhouse of faculty of agricultureinUrmia University. Plant height, stem diameter and leaf area and chlorophyll indicesweremeasuredby usingruler, digital caliper (Model22855 NO: Z), leaf Area Meter (ModelAM200) and SPAD-502 chlorophyll meter (Minolta Crop, Japan),respectively. In order to determine proline content, malondialdehyde (MDA), total protein and total soluble sugars, spectrophotometric methods [51,25,6and28] were utilized,respectively.
Results and Discussion: Based on comparing the averages related to the interaction of various levels of drought and salicylic acid, increasing watering intervals resulted in significant decrease in parameters of plant height, stem diameter, leaf area, leaf number and chlorophyll index,and increase inproline content, malondialdehyde, total protein and total soluble sugars.Furthermore, according to the obtained results, plant height, stem diameter, leaf number, chlorophyll index, accumulation of prolineandtotal protein in grape cv. Rashehwere higher than Bidanesefidone.Drought effected the mitotic division, andelongation and expansion of cells, leading to reduced growth and crop yield. It was concluded that plant height, stem diameter, and leaf area decreased noticeably byincreasing water stress. The reduction in plant height could be attributed to decline in the cell enlargement and higher rate ofleaf senescence in the plant under water stress. The reduction in leaf number under severe water deficit was partially due to leaf senescence. Reduction inthe number of leaves could be a response by plants to minimize the transpiration surface. Sorghum plants have also been reported to have a similarbehaviorthroughwhichthey conserve water by reducing the number of leaves. When exposed to chronic water deficit, they showed an initial decrease in the daily increment of leaf area and eventually a decrease due to accelerated senescence. Dropping of the leaves during severe stress markedly reduces the evaporative surface and allows the plant to conserve water.It is well known that proline contents in leaves of many plants are enhanced by several stresses including drought stress. The efficiency of exogenous SA depends on multiple causes such as the species, developmental stage of the plant, manner of application and concentration of SA.Plant height, stem diameter, leaf number, leaf area, leaf total soluble sugar and chlorophyll index increased by applying 2 mM salicylic acid comparedwith 0 and 1 mM doses. The findings of this study showed that salicylic acid was able to enhance the tolerant capacity of the grape plant to the drought stress. According to theobtained results, Rashehcultivar showed a greater resistance to drought stress. Salicylic acid prohibits auxin and cytokinin loss in plants and thus enhances cell division and plant growth. Salicylic acid maintainsphotosynthetic aspects like chlorophyll content at proper level and thus helps plants to grow and developwell. In this study, the drought stress increased the amount of MDA.MDA and other aldehydes in the dry conditions are the result ofactive oxygen species (ROS) such as super oxide radical, peroxide, hydrogen and radical hydroxide, whichareproduced underoxidative stress conditions. The species of active oxygen leads to lipids' per oxidation as a result of injury or damage to the cellular membrane, especially chloroplast membrane.Salicylic acid increases the activity of antioxidant enzymes such as CAT, POD and SOD which in turn protect plants against ROS generation and lipid peroxidation. Salicylic acid treatment also providesa considerable protection from the enzyme nitrate reductase, thereby maintaining the level of diverse proteins in leaves.Mohammadkhani and Heidari (48) found that the initial increase in total soluble proteins during drought stress was due to the expression of new stress proteins.
M. Babalar; A. Asgarpour; Mohhamadali Asgari
Abstract
In present research the effects of four levels (0, 0.5, 1, 2 mM) of each of salicylic acid and putrescine treatments on the quality improvement of Granny Smith apple fruit were studied. Factorial experiment in randomized complete block with three replications on 16 trees, eighteen years in researcher ...
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In present research the effects of four levels (0, 0.5, 1, 2 mM) of each of salicylic acid and putrescine treatments on the quality improvement of Granny Smith apple fruit were studied. Factorial experiment in randomized complete block with three replications on 16 trees, eighteen years in researcher station of agriculture university of Tehran was designed. For this purpose the trees were sprayed with the treatments solutions in three stages including; immediately after full bloom, 45 days after full bloom, and 116 days after full bloom (two weeks before harvesting). After harvesting, three or four fruits were assigned for each sample and immersion into the treatment solutions for 30 min, packed, and moved to 1±0.5º C temperate and 85-90% relative humidity storage. Samples each 45 days in 5 stages exited from storage and evaluated for fruit weight loss, firmness, total soluble solids (TSS), treatable acidity (TA), (TSS/TA) and pH. The results showed, in to storage time fruit weight loss in treated fruits significantly (p
ziba mohammadi; Najmeddin mortazavi
Abstract
Alstroemeria flower is one of the most important cut flowers in the world. Some materials can increase longevity of cut flowers. The aim of this research was evaluating the effect of some chemical solutions on postharvest Alstroemeria (cv. Stratus) cut flowers. This experiment was conducted with two ...
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Alstroemeria flower is one of the most important cut flowers in the world. Some materials can increase longevity of cut flowers. The aim of this research was evaluating the effect of some chemical solutions on postharvest Alstroemeria (cv. Stratus) cut flowers. This experiment was conducted with two factors of sucrose at four concentrations, 0, 5, 10 and 15 g/l and salicylic acid (SA) at four concentrations, 0, 100, 200 and 400 mg/l with three replication and arranged in a completely randomized design. During experiment, longevity, chlorophyll content, solution uptake, relative water content (RWC), electrolyte leakage (EL) and leaf yellowing were evaluated. Analysis of variance showed that different levels of sucrose had significant effect only on electrolyte leakage of petal and chlorophyll content. The salicylic acid effect was significant at the one percent level on all traits except for electrolyte leakage of petal. The interactions between sucrose and SA on all traits at the five percent level had a significant effect. The results showed that treatment of 15 g/l sucrose had the highest chlorophyll content and the lowest electrolyte leakage of petal. The highest longevity, relative water content of leaf and petal, chlorophyll, solution uptake and the lowest electrolyte leakage of leaf and leaf yellowing were obtained from treatment with 400 mg/l of salicylic acid. Treated with15 g/l sucrose plus 400 mg/l SA had highest longevity, solution uptake and the lowest electrolyte leakage of petal in compared to the control. Thus, using 400 mg/l SA to increase the longevity and quality of Alstroemeria (cv. Stratus) cut flowers is recommended.
M.R. Asghari; F. Asghari
Abstract
The effect of different concentration of salicylic acid (0, 1 and 2 mmolL-1) and chitosan (0, 0.5 and 1 percent) on postharvest life and quality of Selva strawberry fruit during storage at 2.5±0.5°C with 85-95% RH for 7 and 14 days was studied. Decay incidence, marketability, total soluble solids, ...
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The effect of different concentration of salicylic acid (0, 1 and 2 mmolL-1) and chitosan (0, 0.5 and 1 percent) on postharvest life and quality of Selva strawberry fruit during storage at 2.5±0.5°C with 85-95% RH for 7 and 14 days was studied. Decay incidence, marketability, total soluble solids, total acidity, vitamin C content and total antioxidant activity were evaluated during storage. chitosan 1% significantly decreased decay incidence and maintained fruit marketability. 1mmolL-1 of salicylic acid in combination with 1% chitosan significantly retained fruit soluble solids, vitamin C content and total antioxidant activity and was more effective on total antioxidant activity during first week of cold storage. 1 and 2 mmolL-1 salicylic acid retained total acidity.
L Ahadi
Abstract
Because of the harmful effects of chemicals on human health and environment, use of these compounds in postharvest technology of agricultural crops is recently restricted and it is necessary to find safe compounds for use in postharvest technology of fruits and vegetables. In this study, effects of salicylic ...
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Because of the harmful effects of chemicals on human health and environment, use of these compounds in postharvest technology of agricultural crops is recently restricted and it is necessary to find safe compounds for use in postharvest technology of fruits and vegetables. In this study, effects of salicylic acid and Aloe vera gel on quality attributes and postharvest life of table grape(cv. Gizel uzum) was studied. Fruit were treated with salicylic acid (0, 1and 2 mM) and Aloe vera gel (33% and 25%), then were stored at 0±0.5oC with 85-95% RH for 45 days Fruit quality attributes including pH, total soluble solids, total acidity, total phenolics, total antioxidant capacity, and vitamin C were evaluated after 45 days. 2 mM salicylic acid effectively decreased the rate of pH increase. TSS and TA content were significantly affected by 2 mM salicylic acid and 33% Aloe vera gel treatments and retained TSS and the reduction of titratable acids and sugars to prevent its decomposition. In this study, the highest total antioxidant activity and total phenols and vitamin C of 2 mM salicylic acid gel and 33% Aloe vera gel and Combination treatment with 2mM salicylic acid and 33% Aloe vera gel respectively. postharvest treatment of fruit with the combination of salicylic acid and Aloe vera gel may be considered as a good alternative to chemicals in postharvest technology of table grapes.
A. Seddighi; M. Gholami; Hassan Sarikhani; A. Ershadi
Abstract
The use of compounds inhibiting ethylene production is very important in post-harvest technology of fruits. Sweet cherry is a non-climacteric fruit with capability of ethylene production during storage period. Factors that decrease ethylene production would increase fruits storage life. In this research ...
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The use of compounds inhibiting ethylene production is very important in post-harvest technology of fruits. Sweet cherry is a non-climacteric fruit with capability of ethylene production during storage period. Factors that decrease ethylene production would increase fruits storage life. In this research sweet cherry fruits of Mashhad cv. were sprayed with different concentrations of Salicylic Acid (0.5, 1, 2, and 3 mmol/l) and Gibberelic Acid (0, 10, 20 and 30 mg/l). Fruits were sprayed about three weeks before harvest, when their color started to change from green to yellow. The experiment was performed in a completely randomized design with three replicates. The results showed that GA had less effect on decreasing ethylene production compared to SA, but did better on anthocyanin accumulation, fruit size, soluble solids content and fruit weight. GA treatment delayed fruit ripening and ethylene production but had little or no effect on the fruit color as an important ripening index. During storage period also the total amount of anthocyanin in fruits increased due to hormone treatments whereas the ethylene production decreased compared to control fruits.