Mohammad Javad Nazarideljou; Mehran Kanani
Abstract
Regarding to a few studies on odorant compounds of cut flowers, a pot experiment was conducted to evaluate the effect of pre-harvest foliar application of salicylic acid (0, 1.5 and 2.25 mM) and a-aminooxi-b-phenyl propionic acid (0, 1.5 and 3 mM) as promoter and specific inhibitor of phenylalanine ammonia-lyase ...
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Regarding to a few studies on odorant compounds of cut flowers, a pot experiment was conducted to evaluate the effect of pre-harvest foliar application of salicylic acid (0, 1.5 and 2.25 mM) and a-aminooxi-b-phenyl propionic acid (0, 1.5 and 3 mM) as promoter and specific inhibitor of phenylalanine ammonia-lyase enzyme, respectively, on tuberose “double” basis on completely randomized design with four replications. According to the results, relative water content, cell membrane stability and vase life were significantly affected by foliar application (P<0.01). The a-aminooxi-b-phenyl propionic acid (3mM) and salicylic acid treatments (1.5 mM) increased the vase life about 68 and 34% compared with control. Post-harvest collection and analysis of tuberose floral scent was conucted using headspace system and GC-MS technique and 37 different compounds were detected. Methyl benzoate, benzyl benzoate, pentacosane and methyl salicylate were the most important odorant compounds of cut tuberose respectively. a-aminooxi-b-phenyl propionic acid treatment increased benzyl benzoate and pentacosane whereby decreased methyl benzoate and methyl salicylate amount, which were opposite to salicylic acid effect. Results showed that the Promoter and inhibitor of phenylalanine ammonia-lyase enzyme activity increased and decreased total amount of cut tuberose scent, respectively.
mahmoodreza saeidi; YaghoubY Raei; Rouhollah Amini; Bahman Pasban Eslam; Asal Rohi Saralan
Abstract
This research was investigated to study the application of chemical and biofertilizers on growth, yield and fatty acids composition of safflower intercropped with faba bean based on a randomized complete block design with three replications at the Research Farm of University of Tabriz during two growing ...
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This research was investigated to study the application of chemical and biofertilizers on growth, yield and fatty acids composition of safflower intercropped with faba bean based on a randomized complete block design with three replications at the Research Farm of University of Tabriz during two growing seasons of 2014-2015 and 2015-2016. Intercropping ratios of safflower and faba bean including 1:1, 2:1, and their sole cropping and four levels of fertilizers including no fertilizer, 100 percent chemical fertilizer, 30 percent and 60 percent chemical fertilizer + biofertilizer (Azoto barvar 1 and phosphate barvar 2) were evaluated. Results showed that the highest Chlorophyll content, plant height and number of branch per plant were devoted to safflower/faba bean intercropping (1:1) with application of 60 percent chemical plus biological fertilizers. Also, integrated use of chemical and biological fertilizers caused the increasing of seed yield, oil content (33.81 percent) and linoleic (76.97 percent) and linolenic (0.32 percent) fatty acids. The highest land equivalent ratio (1.41) was achieved in intercropped plants (1:1) with integrated use of 60 percent chemical and biological fertilizers. For both years, total actual yield loss for all intercrops was more than zero, which indicates the positive advantage of intercropping over the pure one. Overall, intercropping (safflower/faba bean) with integrated use of the chemical and biological fertilizers, can recommend as an appropriate manner for the production of safflower with a better quality and quantity.
fatemeh nazoori; Siamak Kalantari; Nader Doraki; Alireza Talaie; Amanollah Javanshah
Abstract
In order to improve the quality and the possibility of fresh pistachio exports , the impact of different harvest time on storage of ‘Ahmadaghaii’ Pistachio was investigated. In 2011, pistachios harvested at three stages of fruit ripening (40, 70 and 100 percent of hulling) in hulling fresh, ...
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In order to improve the quality and the possibility of fresh pistachio exports , the impact of different harvest time on storage of ‘Ahmadaghaii’ Pistachio was investigated. In 2011, pistachios harvested at three stages of fruit ripening (40, 70 and 100 percent of hulling) in hulling fresh, fresh without hulling and dried pistachio packaged in pulpy bag and held in two-temperature storage (1 ± 4 and 1 ± 12 ° C) for 45 Days. Data were analizaed with factoriel in format of randomized completely design in three replications. The results showed expedition and delay in harvest, increases period of storage and temperature result to increes of endocarp spots and low fruit retention. Increase of temperature and during storage result to decress of taste and low fruit firmness and kernel damage, acidity, peroxide, water loss were increase. This data showed that to keep fruit fresh pistachio, harvesting in stage of 70-80% of ripening, processing with fresh hulling and storage in 1 ± 4 ° C temperature, result to retention of fresh pistachio to 45 days.
S. Hasan Hosseini; Mohammad Rafiee; Rahim Barzegar
Abstract
Peat is the most important source of casing soil for growing mushroom. Peat often imported or derived from wetlands which have unfavorable environmental impacts. In order to evaluate the effects of the replacing vermicompost and perlite as casing soil instead of peat on growth and yield of the mushrooms ...
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Peat is the most important source of casing soil for growing mushroom. Peat often imported or derived from wetlands which have unfavorable environmental impacts. In order to evaluate the effects of the replacing vermicompost and perlite as casing soil instead of peat on growth and yield of the mushrooms (Agaricus bisporus), a factorial experiment was conducted on the randomized complete block design with three replications at Kosar mushroom farm in winter, 2015. Ten treatments in different ratios (volume percentage) of perlite: vermicompost: peat including T1 (0: 0: 100) T2: (0: 25: 75) T3: (12.5: 12.5: 75) T4: (16.7: 33.3: 50) T5 (25: 25: 50) T6: (18.5: 56.5: 25) T7 (25: 50: 25) T8: (37.5: 37.5: 25) T9: (33.3: 0: 66.7) T10 (50: 50: 0) were used. The maximum yield was obtained with T3 treatment with the average of 14.72 kg /m2 and the minimum yield was observed in T10 treatment with 9.43 kg/m2. The maximum and minimum numbers of harvested mushrooms were observed in treatment of T3 with 547 numbers and the treatment of T10 with the number of 244.67, respectively. For cap diameter, the treatment of T10 with an average of 5.9 cm had the maximum and the treatment of T9 with an average of 4.8 cm had the minimum cap diameter. For the average weight of individual mushroom, treatments of T10 and T3 with the average of 38 and 26 gr had the maximum and minimum weight of each mushroom, respectively. The results showed that T3 soil casing combination (12.5: 12.5: 75) can be replaced for peat.
Mahdieh Amirinejad; Gholamali Akbari; Amin Baghizadeh; Iraj allahdadi; Maryam Shahbazi; Masoomeh Naimi
Abstract
To determine the effects of drought stress and foliar application of zinc and iron on some biochemical parameters of cumin (Cuminum cyminum L.), a greenhouse experiment was carried out at Graduate University of Advanced Technology of Kerman, Iran during 2011-2012. The experiment was conducted in factoriel ...
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To determine the effects of drought stress and foliar application of zinc and iron on some biochemical parameters of cumin (Cuminum cyminum L.), a greenhouse experiment was carried out at Graduate University of Advanced Technology of Kerman, Iran during 2011-2012. The experiment was conducted in factoriel design based on randomized completely block with three replications. Three levels of water deficit 70 (well- watered), 50 and 30 (moderate and severe stress) percent of field capacity with treatments of Zn, Fe, Zn+Fe (5/1000) and non-foliar application (water) were used. Results show positive effects of iron and zinc foliar application under drouth stress on some biochemical parameters of cumin. Maximum quantities of total protein and proline (4.12 and 364.52 mg/gr Fw) and maximum quantities of soluble sugar (5.62 mg/gr Dw) were observed in severe stress with Zn+Fe treatment. Also zinc and iron foliar application decresed malondealdohide (9.16 and 5.06 µM/gr Fw) in moderate and severe stress conditions in cumin leaf, respectively. Drought stress and foliar application increased enzymes activities. Maximum quantities of enzymes activities (catalase: 28.51, gayacol peroxidase: 284.75 and superoxid dismutase: 50.99 U/mg protein) in leaves were observed in severe stress with Zn+Fe treatment too. According to our results, iron and zinc foliar application improves biochemical parameters in cumin under drouth stress.
Zoleikha Sharifi; ahmad zare; Elham Elahifard; alireza abdali
Abstract
Objective: In order to evaluate different levels of wheat straw mulch and herbicide on quantitative, qualitative yield and weeds control of fennel (Foeniculum vulgare MIL.) an experiment was conducted arranged as split-plot based on a randomized complete block design (RCBD) with 3 replications at Agricultural ...
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Objective: In order to evaluate different levels of wheat straw mulch and herbicide on quantitative, qualitative yield and weeds control of fennel (Foeniculum vulgare MIL.) an experiment was conducted arranged as split-plot based on a randomized complete block design (RCBD) with 3 replications at Agricultural Sciences and Natural Resources University of Khuzestan during 2019-2020 growing season.
Methods: Treatments included different concentrations of linuron herbicide (0, 1.5, 3, 4.5 L/ha) as the main plot and different levels of wheat straw mulch (0, 3, 6, 9 and 12 tons /ha) as the subplot.
Results: The results revealed that the lowest dry weight of broadleaf and grass weeds (73 and 15 g/ m2) of 4.5 L/ha herbicide and 9 and 12 tons’/ha mulch was obtained. The highest grain yield was observed (80 g/m2) in 3L/ha of herbicide application and wheat straw mulch 9 ton/ha, and the lowest (18 g/m2) in treatment non-application of mulch and herbicide. The highest essential oil yield of fennel (2.82 g/m2) was obtained in treatment herbicide application (3 L/ha) and straw mulch (9 ton/ha), while in treatment non-application of mulch and herbicide was 0.48 g/m2.
Conclusion: Therefore, in integrated weed management, the use of wheat straw mulch could be considered for reducing weeds competition and achieving sustainable agriculture in medicinal plants.
Fatemeh Delavarnia; Faezeh Zaefarian; roghayeh hasanpour; Hemmatollah Pirdashti
Abstract
In order to evaluate the ability of forage sorghum (Sorghum bicolor L.) to remediate the heavy metal cadmium with biochar and Pseudomonas putida, a factorial experiment has been conducted based on completely randomized design accomplished in greenhouse conditions with four replications at Sari Agricultural ...
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In order to evaluate the ability of forage sorghum (Sorghum bicolor L.) to remediate the heavy metal cadmium with biochar and Pseudomonas putida, a factorial experiment has been conducted based on completely randomized design accomplished in greenhouse conditions with four replications at Sari Agricultural Sciences and Natural Resources University, in the summer of 2019. Results show that the presence of cadmium in the medium of sorghum reduce the dry weight of root and shoot. However, adding biochar and bacterial inoculation significantly increase the mentioned traits. Bioconcentration factor and bioaccumulation factor have increased from 25 to 100 mg of cadmium, when the highest shoot bioaccumulation factor (2.31) is observed at a concentration of 100 mg Cd per kg soil and in the simultaneous application of Biochar and Pseudomonas putida, which is a significant increase of 28.33% compared to the control. The lowest translocation factor of sorghum (1.000) is related to non-application of biochar, non-inoculation of Pseudomonas putida and without cadmium contamination, itslef reduced by 20% compared to the control, while the highest translocation factor (1.94) is observed at a concentration of 25 mg of cadmium per kg of soil and treatment of non-application of biochar and non-inoculation of Pseudomonas putida. Plant tolerance index has decreased by increasing cadmium concentration, while the use of biochar and inoculation of Pseudomonas putida has increased this index when the highest tolerance index (1.22) is related to the treatment of combined use of biochar and bacteria with no cadmium, increased by 22% compared to non-application of biochar and non-inoculation bacteria. As the tolerance index of forage sorghum in all concentrations of cadmium is more than 0.60, this plant can be classified in the highly-tolerant group to the heavy metal cadmium stress and sorghum could be used for cadmium phytoremediation.
Nader Khadem Moghadam Igdelou; Ahmad Golchin; Khadije Farhadi
Abstract
In order to study the effect of Cobalt, Molybdenum, and Nitrogen on the growth of Phaseolus vulgaris in soilless culture, a pot experiment was conducted in 2015-16 and in July, at 25˚C and light intensity of 40,000 lux as a factorial based on a CRD with 36 treatments and three replications in the greenhouse ...
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In order to study the effect of Cobalt, Molybdenum, and Nitrogen on the growth of Phaseolus vulgaris in soilless culture, a pot experiment was conducted in 2015-16 and in July, at 25˚C and light intensity of 40,000 lux as a factorial based on a CRD with 36 treatments and three replications in the greenhouse of Zanjan University. The test factors consisted of four levels of Nitrogen (50, 100, 150, and 200 mg/l), three levels of Molybdenum (0.067, 0.2, and 0.6 mg/l) and, three levels of Cobalt (0.006, 0.06, and 0.3 mg/l). Factor levels were prepared by adding ammonium nitrate, ammonium molybdate, and cobalt chloride to a stock solution. Results of morphological traits showed that the highest pod dry weight was obtained in N100Mo0.6Co0.06 treatment which had a maximum difference of 47.9% with other treatments. The highest dry weight of shoots was obtained from N150Mo0.6Co0.006 treatment and the highest root dry weight was obtained from N150Mo0.6 and N150Co0.3 treatments. Also, the highest number of pods was obtained in N150Mo0.6, N100Co0.3 and Mo0.6Co0.3 treatments with values of 235.2, 266.4, and 220.8 g/pot, respectively. Investigation of physiological traits showed that the highest concentrations of Nitrogen, Molybdenum, and Cobalt were obtained from N200Mo0.6Co0.3, N150Mo0.6Co0.3, and N150Mo0.067Co0.006 treatments, respectively. Overall, it can be stated that the application of N100Mo0.6Co0.06 treatment can positively affect the dry weight of pods, which are economically productive and improve the performance of P. vulgaris (Talash cultivar).
Mohammad Ali Baghestani; Delavar Baghestani; Hamid Rahimian mashhadi; Hasan Mohammad Alizade
Volume 11, Issue 2 , November 2009, , Pages 19-27
Abstract
The biology and phenology of broomrape (Orobanche nana) on Almond (Prunus dulcis cv. Mamaei) was studied during the growth season in Shahrekord city of Iran in 2004. Twenty trees which were infested by broomrape, were selected. Results indicated that almonds need 2120.5 growth degree days (GDD) to complete ...
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The biology and phenology of broomrape (Orobanche nana) on Almond (Prunus dulcis cv. Mamaei) was studied during the growth season in Shahrekord city of Iran in 2004. Twenty trees which were infested by broomrape, were selected. Results indicated that almonds need 2120.5 growth degree days (GDD) to complete phenological stages from flowering to fruit ripening. Based on the cardinal temperature of broomrape (9.5°C), the parasite weed needs 209, 1125.5, 1414.5 and 961 GDD for completion of seed germination, stem emergence, flowering and seeding stages, respectively. Maximum seed germination occurred at the depth of 18 cm. Maximum root infection was observed at the depth of 9 to 12 cm. The highest infection to this parasite plant was recorded on roots with 9 to 11.9 mm diameter.
Ahmad Jafari; Mehrdad Mahlooji
Volume 12, Issue 1 , May 2010, , Pages 21-27
Abstract
In order to selection of superior cold tolerant barley genotypes for cold regions of Esfahan province, this study was conducted with nine barley varieties/lines in Fereidan area, and in two successive years (2002-2004). The research was carried out in on-farm pattern experiment and in a CRB design. Results ...
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In order to selection of superior cold tolerant barley genotypes for cold regions of Esfahan province, this study was conducted with nine barley varieties/lines in Fereidan area, and in two successive years (2002-2004). The research was carried out in on-farm pattern experiment and in a CRB design. Results showed that grain yield and some of yield components affected by year, variety and their interactions, significantly. Positive and significant correlation observed between grain yields and numbers of spikes per square meter. Changes of numbers of spikes per square meter were main cause of grain yield variations. Grain yields correlated with thousand kernel weight, negatively and significantly. The grain yield of CB-74-2 barley line was the highest in all years, significantly. Also, the grain yield of IFN-12 and IFN-13 barley lines, selected from Esfahan province’s local varieties, were significantly higher than check variety (Makooii).
Mehdi Rezaei
Abstract
In this research, chilling and heating requirements of six local cultivars of apricot (Jafari, Ghavami, Jahangiri, Khiari, Khiveaee and Rajabali) were evaluated under field and lab conditions. Under lab condition, ‘Rajabali’ and in some extent ‘Johangiri’ began flowering after ...
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In this research, chilling and heating requirements of six local cultivars of apricot (Jafari, Ghavami, Jahangiri, Khiari, Khiveaee and Rajabali) were evaluated under field and lab conditions. Under lab condition, ‘Rajabali’ and in some extent ‘Johangiri’ began flowering after 500 hours in 4°C. Other cultivars except ‘Khiari’ flowered at 750 h. ‘Khiari’ flowered at 1000 h. In field, due to little difference of flowering time among cultivars, there was a low difference in chilling requirement among cultivars in all models. Calculation of chilling requirements based on chilling hours was around 1400 h while based on Utah, North Carolina and Low chilling models was 1000, 740 and 770 unit, respectively. Chilling requirement in all cultivars was 71 portions based on dynamic model calculation. Amount of heating requirement ranged from 1829 growth degree hours (GDH) in ‘Khivea’ to 3387 GDH in ‘Jafari’. Although little differences exist in flowering onset of cultivars, the differentiation of flowering period among cultivars was around one week. Cultivars showed little differences in flowering onset in locations they meet their chilling requirement.
Shakiba Shahmoradi; Mehdi Zahravi
Abstract
To evaluate the effects of water deficit stress in barley germplasm collection of National Gene Bank ofIran, 25 genotypes collected from arid and semi arid provinces of Iran and 3 sample cultivars werestudied in two environments including: non-stressed and water deficit stress. Agronomical, phenologicaland ...
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To evaluate the effects of water deficit stress in barley germplasm collection of National Gene Bank ofIran, 25 genotypes collected from arid and semi arid provinces of Iran and 3 sample cultivars werestudied in two environments including: non-stressed and water deficit stress. Agronomical, phenologicaland morphological traits were measured. Stress indices were calculated to determine tolerant genotypes.Based on correlation coeficiences, STI were better indicator of drought stress tolerance than the otherindices. Based on STI, morphotypes number 16, 24, 25 and 26 shown better stress tolerance potential thanthe other morphotypes. Stepwise regression between stress tolerance index (STI) and quantitave traitsindicates the important role of leaf area and specific leaf area of flag leaf under drought stress condition,in acclimation to drought conditions. It is also concluded that the 100 grain weight is the only trait undernormal condition witch shows a close relation with stress tolerance index.
Mahmoud Shoor; Yahya Selahvarzi; Sahar Bostani
Volume 12, Issue 2 , November 2010, , Pages 25-35
Abstract
To evaluate the effect of high Co2 concentration on three ornamental plants belong to Asteraceae family, all with different morphological characteristics, namely: Marigold (compound leaves), Floss flower (opposite leaves) and Blanket flower (rosette leaves), an experiment was conducted in 2007 at Ferdosi ...
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To evaluate the effect of high Co2 concentration on three ornamental plants belong to Asteraceae family, all with different morphological characteristics, namely: Marigold (compound leaves), Floss flower (opposite leaves) and Blanket flower (rosette leaves), an experiment was conducted in 2007 at Ferdosi university - Iran. Four levels of Co2 (350 as control, 700, 1050 and 1400 µl/l), as well as three plant genotypes were used as factorial arrangement based on a complete randomized design with three replications. The results showed that all studied traits were affected by Co2, plant genotypes and their interactions. Increasing Co2 concentration to 700 µl/l led to higher stomata density, epidermal cell density, stomata length, and guard cell length in all three plant genotypes. The results also showed that marigold (compound leaves) had the maximum values for stomata density, epidermal cell density, as well as stomatal index. Maximum stomata length occurred in Floss flower (opposite leaves) and maximum length and width of guard cell were observed in Blanket flower (rosette leaves).
Mohsen Ebrahimi; Mohammad Golbashi; MohammadReza Bihamta; Abdolhadi Hossein zadeh; Manijeh Khiyalparast
Volume 13, Issue 2 , March 2012, , Pages 27-40
Abstract
To study the phenotypic and genotypic diversity of some important agronomic traits associated with yield in white beans, 30 genotypes of white bean were evaluated using a randomized complete block design with four replications in two environments under water stress and non stress conditions. Analysis ...
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To study the phenotypic and genotypic diversity of some important agronomic traits associated with yield in white beans, 30 genotypes of white bean were evaluated using a randomized complete block design with four replications in two environments under water stress and non stress conditions. Analysis of variance for most of the traits showed significant differences among genotypes, indicating the existence of genetic variation among varieties. Most traits were affected by the stress. The results indicated that grain yield, weight of pod, biological yield, number of grain per plant and number of pod per plant in white bean reduced under water stress condition whereas, evaluation of drought resistance in bean genotypes, showed that stress tolerance index (STI) and mean productivity (MP) and geometric mean productivity (GMP) were the best criteria for recognizing tolerant genotypes (21 and 30). Under both condition weight of pod was highly correlated with the grain yield. Factor analysis was performed for genotypes both under water stress and non stress conditions and under both conditions three common factor have been extracted, which described most of traits variations. Stepwise regression analysis showed that in water stress conditions, pod weight, harvest index, 100 grain weight and number of grain per plant and in non stress conditions pod weight, harvest index and biological yield have the highest effect on grain yield. Result of path analysis showed that the highest direct positive effect was related to weight of pod under both condition. In classification of genotypes based on phenotypic characteristics, using cluster analysis (UPGMA), all genotypes classification into three separate groups under non stress and stress condition.
Ezatollah Esfandiari; Adel Javadi; Majid Shokrpour
Abstract
In order to evaluate the physiological and biochemical traits in response to salinity, six varieties of wheat were cultivated in a split plot based on randomized complete block design in the growth chamber in the department of agronomy, faculty of agriculture, University of Maragheh. Seedlings of wheat ...
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In order to evaluate the physiological and biochemical traits in response to salinity, six varieties of wheat were cultivated in a split plot based on randomized complete block design in the growth chamber in the department of agronomy, faculty of agriculture, University of Maragheh. Seedlings of wheat cultivars, in three to four leaves stage were treated with 200 mM NaCl for 14 days. After the elapsed mentioned time, the activity of some antioxidant enzymes, oxidative stress indices and some physiological parameters were measured. The results showed that lipid peroxidation in all cultivars except Augusta significantly increased compared to controls. Salinity reduces membrane stability index in cultivars. While the mentioned index was stable and did not change significantly in both environments in other cultivars. Ascorbate peroxidase and catalase activities showed a significant decrease in Koohdasht, Pishtaz and MV17 cultivars under salt stress in comparison with the control. But salinity increased ascorbate peroxidase activity and decreased catalase activity in Ayzngran. Guaicul peroxidase activity was reduced by salinity only in Augusta. Glutathione S -transferase only increased in Gaskogen and Kohdasht and Pishtaz cultivars had decreased significantly. Moreover, the results showed that, despite the increase in sodium uptake by the roots of all cultivars, only Ayzngran and Augusta had the ability to transfer control of sodium to crown and leaves. Moreover, among cultivars studied, salinity significantly reduced the total dry weight per plant of Kohdasht. As a final result can be stated, although sodium is toxic element for cell metabolism, especially the leaf cells, but if the increased activity of antioxidant enzymes with the ability to store this element, except in areas cytocell, would reduce the toxicity of this element, even wheat variety is not able to prevent the transmission of sodium to leaves.
Iman Javad-zarrin; Babak Moteshare zade
Abstract
The aim of this research was to evaluate the average concentrations of micronutrients including: Copper (Cu), Iron (Fe), Manganese (Mn) and Zinc (Zn) in the shoots of different cultivars of wheat in stem elongation stage in a soil contaminated with cadmium (Cd). The treatments consisted of three levels ...
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The aim of this research was to evaluate the average concentrations of micronutrients including: Copper (Cu), Iron (Fe), Manganese (Mn) and Zinc (Zn) in the shoots of different cultivars of wheat in stem elongation stage in a soil contaminated with cadmium (Cd). The treatments consisted of three levels of Cd (0 (as control, Cd0), 40 (Cd40) and 80 (Cd80) mg Cd/kg soil) and fourteen different cultivars of wheat (‘Bahar’, ‘Alvand’, ‘Niknezhad’, ‘Pishtaz’, ‘Azadi’, ‘Shahriyar’, ‘Pishgam’, ‘Marvdasht’, ‘Parsi’, ‘Sivand’, ‘Shiraz’, ‘Omid’, ‘Roshan’ and ‘Navid’), respectively. The results showed the effect of Cd on concentrations of micronutrients were highly significant. Cu concentration was decreased in shoot of all studied cultivars, as levels of Cd were increased. Except two cultivars (‘Pishgam’ and ‘Omid’) which showed an increase in Fe concentration in Cd40 comparing with control, Fe concentration was decreased in other cultivars. Most and least Cd concentration in Cd40 was recorded by Niknezhad (7 mg/kg DW) and Parsi (2 mg/kg DW), respectively. Also, most and least Cd concentration in Cd80 was observed in ‘Pishgam’ (20 mg/kg DW) and ‘Navid’ (6 mg/kg DW). Generally, ‘Niknezhad’ and ‘Pishgam’ had the highest reliability of cadmium uptake. Also the lowest reliability of cadmium uptake was observed about ‘Parsi’ and ‘Navid’.
Raouf Seyed sharif; Reza Seyed Sharifi
Abstract
In order to study the effect of irrigation levels and application of methanol and nano iron oxide on yield and grain filling components of sunflower (Helianthus annuus L.), a factorial experiment was conducted based on randomized complete block design with three replications at the research farm of the ...
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In order to study the effect of irrigation levels and application of methanol and nano iron oxide on yield and grain filling components of sunflower (Helianthus annuus L.), a factorial experiment was conducted based on randomized complete block design with three replications at the research farm of the Islamic Azad University, Ardabil Branch in 2017. The experimental factors were included: application of methanol (foliar application with water as control, 20 and 30 volume percent), nano iron oxide (foliar application with water as control, application of 0.3, 0.6 and 0.9 g.L-1) and irrigation levels (full irrigation as control, irrigation withholding at flowering stage, irrigation withholding at grain filling period). The results showed that the highest grain yield (2952 kg/ha), number of filled grains per head (1121 grains per head), 1000-grain weight (50 g), rate and grain filling period, effective grain filling period (0.00239 g/day, 42 and 33 days respectively) and chlorophyll index (56) were obtained in full irrigation and high levels of methanol and nano iron oxide. Maximum of proline and soluble sugars content (11.1 µg/g FW and 72 mg/g FW) were obtained in irrigation withholding at flowering stage and application of high rates of methanol and nano iron oxide. The least of they were obtained in full irrigation and no application of methanol and nano iron oxide.
mohsen malek; Farshid Ghaderi-Far; Benjamin Torabi; HamidReza sadeghipour
Abstract
To investigate the effects of drying methods (desiccation treatment), heat shock and osmotic stress treatments on the viability of primed seeds from different rapeseed cultivars, an experiment was conducted in 2017-2018 at the Seed Research Laboratory of Gorgan University of Agricultural Sciences and ...
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To investigate the effects of drying methods (desiccation treatment), heat shock and osmotic stress treatments on the viability of primed seeds from different rapeseed cultivars, an experiment was conducted in 2017-2018 at the Seed Research Laboratory of Gorgan University of Agricultural Sciences and Natural Resources. In this study, seeds of three canola cultivars i.e. Dk-xpower, Teraper and Hayola50, which had observed priming treatments, were exposed to desiccation, heat shock and osmotic stress treatments. Thereafter, to investigate the effects of different treatments, the treated seeds were subjected to controlled deterioration test. Finally, after fitting the three-parameter logistic model to germination percentage during controlled deterioration test, time for decrease of germination to 50% was Calculated and used as the criterion for comparing seed viability. Results showed that the response of rapeseed cultivars to different treatments were different. Also, priming methods and different treatments in drying phase of primed seeds, displayed different effects on seeds' lifespan. In general, heat shock treatments were found efficient in Dk-xpower and Traper cultivars as they increased seeds' lifespan. In contrast, osmotic stress treatments often had negative effects on seed viability in all canola cultivars. Even, "osmopriming" and subsequent slow drying of primed seeds had more negative effects than "hydroperiming" associated with fast drying methods.
moslem heydari; seyed mohsen mousavi nik; nooshin mir
Abstract
Excessive use of chemical fertilizers has caused contamination of soil as well as surface and groundwater resources. For this purpose, an experiment has been conducted to investigate the possibility of reducing surface water pollution with nitrate and also the effect of nitrogen on quantitative and qualitative ...
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Excessive use of chemical fertilizers has caused contamination of soil as well as surface and groundwater resources. For this purpose, an experiment has been conducted to investigate the possibility of reducing surface water pollution with nitrate and also the effect of nitrogen on quantitative and qualitative characteristics of beans as a factorial based on completely randomized design (CRD) with four replications in Hamadan Agricultural and Natural Resources Research Center between 2013 and 2014. The first factor includes four types of nitrogen fertilizers, X1 (zeolite - EN), X2 (zeolite - AcAcEN), X3 (zeolite - HED), X4 (urea fertilizer), and X0 (control sample - no fertilizer use) and the second one involves two bean species, namely red beans (Phaseolus vulgarize L.) of Derakhshan cultivar and genotype 29005 of Cowpea (Vigna unguiculata L.). Applying functionalized zeolite nanofertilizers reduces nitrate leaching from the experimental units (pots). Meanwhile, zeolite X3 fertilizer is capable of reducing nitrate leaching by 48% in comparison with urea fertilizer. The amount of soil nitrogen in pots, containing X3 fertilizer, is 0.115 ppm and, compared to the urea fertilizer treatment, it improves this element’s maintenance in the soil by 30%. Accordingly, X3 fertilizer increases chlorophyll, protein, and grain yield by 44%, 64%, and 56%, respectively, in comparison with the control. In general, the application of functionalized nano zeolites has a beneficial role in reducing nitrate leaching and improving the quantitative and qualitative characteristics of bean plants.
Azam Razavi Nasab; Hossein Shirani; Ahmad Taj abadi pour; Hossein Dashti
Volume 13, Issue 1 , August 2011, , Pages 31-42
Abstract
To study the effect of salinity and organic matter on chemical composition and root morphology of pistachio cv. Badami, budded on seedling root stocks, a greenhouse experiment was conducted as a factorial based on a completely randomized design with three replications. Treatments consisted of four salinity ...
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To study the effect of salinity and organic matter on chemical composition and root morphology of pistachio cv. Badami, budded on seedling root stocks, a greenhouse experiment was conducted as a factorial based on a completely randomized design with three replications. Treatments consisted of four salinity (zero, 800, 1600 and 2400 mg NaCl kg-1 soil) and three organic matter (zero, two and four percent w/w) levels as farmyard manure. As salinity levels increased, shoot nitrogen concentration decreased. Organic matter application increased shoot nitrogen concentration and interaction of salinity and organic matter on this parameter was not significant. Also, salinity had no significant effect on shoot potassium content, while with increasing salinity, root potassium concentration decreased. Application of organic matter increased shoot and root potassium concentration. Adding salinity and organic matter levels increased shoot and root cu concentration significantly. Similar trend was observed on Fe concentration. As salinity levels elevated, root length and density significantly reduced. In addition, adding organic matter improved physical and nutritional soil properties, and because of that significantly increased root length and density and decreased soil penetration.
Amir hooshang Jalali; Peyman Jafari
Abstract
To investigate the effect of K fertilizer on yield and yield components of three watermelon cultivars, a two-year study (2007-2008) was conducted in Ardestan Agricultural Research Center (Isfahan province) by using of split plot randomized based on complete block design in three replications. Three watermelon ...
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To investigate the effect of K fertilizer on yield and yield components of three watermelon cultivars, a two-year study (2007-2008) was conducted in Ardestan Agricultural Research Center (Isfahan province) by using of split plot randomized based on complete block design in three replications. Three watermelon cultivars (‘Sugar baby’, ‘Charleston Grey’ and ‘Mahbubi’), were assigned as main plots and four K fertilizer levels (zero, 50, 100, and 150 kg K.ha-1) were assigned as subplots. Two and three times higher than consumption of K fertilizer (100 and 150 kg K.ha-1) in compared to normal conditions (without salinity), led to a 24.8 and 18.5 percent increase in yield of ‘Charlston Gray’ and ‘Sugar Baby’, respectively. The highest fruit yield (39112 kg.ha-1), was obtained using 150 kg K.ha-1 in ‘Charleston Gray’ cultivar. Potassium applications at all levels, increased fruit number in ‘Sugar Baby’ and fruit weight in ‘Charleston Gray’, were considered as the main reason for increasing yield. By increasing of K application, the ratio of Na/K in the leaves from 0.61 to 0.33 and in the stems from 0.81 to 0.4 was decreased. The results indicated that in saline conditions, higher levels of K fertilizers can reduce the deleterious effects of salinity and thus may improve watermelon yield.
Mahmoud Ghorbanzadeh Neghab; Hamid Reza Babaie; Ghorbanali Rassam; Ali Reza Dadkhah; Asghar Khoshnood Yazdi
Abstract
To study the response of yield,yield components,protein and oil content of soybean cultivars to delay in planting in Shirvan region, an experiment was conducted at Research Farm of the Faculty of Agriculture, Shirvan in 2010. In this study, nine soybean cultivars (Habit, Hack, Black Hack, Cencutry, Cloumbos, ...
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To study the response of yield,yield components,protein and oil content of soybean cultivars to delay in planting in Shirvan region, an experiment was conducted at Research Farm of the Faculty of Agriculture, Shirvan in 2010. In this study, nine soybean cultivars (Habit, Hack, Black Hack, Cencutry, Cloumbos, Clark, Sahar, Zane and Willams) were evaluated at different sowing dates (20 May, 4 June and 20 June) in factorial experiment based on randomized complete block design with three replications. The results indicated that yield components, protein content and grain yield significantly reduced by delay planting. The first planting (20 May) had the highest grain yield (2338 kg/ha). There were significant differences between soybean cultivars for grain yield and other traits except oil content. Zane cultivar had the highest grain yield. Sahar cultivar had the lowest grain yield due to the reduced harvest index, increase days to flowering and days to poding. The results indicated that delay in planting causes reduction in grain yield. Zane, Black Hack, and Hack cultivars had the highest grain yield in all planting dates.
siavash ariafar; Ali Reza Sirousmehr
Abstract
In order to study the effects of water stress and municipal compost on qualitative and quantitative characteristics of Nigella sativa, this experiment was conducted in 2012 at the Agricultural Research Station of University of Zabol, Iran in a complete randomized block in split plot design with three ...
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In order to study the effects of water stress and municipal compost on qualitative and quantitative characteristics of Nigella sativa, this experiment was conducted in 2012 at the Agricultural Research Station of University of Zabol, Iran in a complete randomized block in split plot design with three replications. Treatments included irrigation intervals: Every seven days (without stress), every nine days (mild stress) and every 12 days (severe stress) and municipal compost treatments include: without municipal compost application (control), 10, 20 and 30 tons per hectare. The results showed that the effect of water stress was significant on the biological and seed yield, proline and chlorophyll (a). Also biological yield, grain yield and chlorophyll (a) decreased in water stress condition. But proline content in leaves increased with increasing stress level. According to results highest biological yield, grain yield, essential oil percentage, proline, chlorophyll a, chlorophyll b, total chlorophyll and carotenoids were obtained In municipal compost application. The Interaction between water stress and municipal compost treatments on chlorophyll a, chlorophyll b, total chlorophyll and carotenoid were significant. According to results, the best treatment at the increase on seed yield and essential oil content were application 30 tons per hectares of municipal compost in Zabol weather conditions.
Fereshteh Kamiab; Mohamad Abedini; Masoud Khezri
Abstract
Generally, fruit trees should produce sufficient yield annually through their economic life. Fruit trees usually produce flowers over their ability of productivity. If all of the flowers are converted to fruit, the tree will be weak and poor smaller fruit will be produced and it may cause alternate bearing. ...
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Generally, fruit trees should produce sufficient yield annually through their economic life. Fruit trees usually produce flowers over their ability of productivity. If all of the flowers are converted to fruit, the tree will be weak and poor smaller fruit will be produced and it may cause alternate bearing. Thus some flowers must be removed by hand, mechanically or chemically. In this study, the effects of hand thinning (10, 20 and 40 percent cluster elimination) and foliar treatment of Naphthalene Acetic Acid (5, 10, 20 and 40 mg/l) and ethephon (25, 50, 100 and 200 mg/l) on fruit thinning rate and on some quantitative and qualitative characters of seedless barberry fruit were investigated as a completely randomized block design in research garden of Birjand University in 2014. The results indicated that Naphthalene acetic acid and Ethephon application caused effective fruit thinning. The highest rate of thinning was observed in Naphthalene acetic acid (10 mg/l) and ethephon (50 mg/l) treatments. These treatments also increased the yield rate in comparison to control. Hand thinning, Naphthalene Acetic Acid and Ethephon application increased the length, diameter and volume of fruit, fresh weight (100 berry), dry weight (100 berry), anthocyanins, ascorbic acid, total soluble solids, total soluble solids to acid ratio. Thus both chemical treatments are suitable and ethephon (50 mg/l) is the best treatment.
Tahereh Ardeshiri; Shahrokh Jahan Bin
Abstract
To evaluate the effect of foliar application of nano iron and zinc chelated fertilizer on yield and agronomic characteristics of canola (Brassica napus L.) cv Hyola 308 hybrid under drought stress, an experiment was conducted in a randomized complete block design with three replications in Ramhormoz, ...
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To evaluate the effect of foliar application of nano iron and zinc chelated fertilizer on yield and agronomic characteristics of canola (Brassica napus L.) cv Hyola 308 hybrid under drought stress, an experiment was conducted in a randomized complete block design with three replications in Ramhormoz, Khuzestan province in 2012 growing season. Main plots consisted of three levels of irrigation: irrigation in the whole the growing season (control), irrigation cut at the green bud stage and irrigation cut at the seed formation stage and foliar application treatment at the beginning of stem elongation and flowering as subplots consisted of four levels: sprayed with water(control), foliar application with Nano-zinc, foliar application with nano-iron, foliar application composition with nano-zinc and nano-iron (each of them was a concentration of two per thousand). The results showed that cut irrigation in reproductive growth stage decreased the grain yield (18%), biological yield (6%) and harvest index (14%). Plant height and the weight of one thousand seeds were influenced by the interaction of irrigation and spray. Most of the seed oil content (45.2%), the weight of one thousand seeds (4.13 g) and plant height (106.5 cm) were related to the irrigation treatment in whole growth stages and foliar application of nano iron and zinc chelate combination. Spraying plants with nano chelate iron and zinc improved plant tolerance and increased yield in drought stress condition in relation to spray by water (control).