sayyed-pooya hosseini; soudabeh golestani kermani; kourosh qaderi; nasrin sayari
Abstract
The experiment was carried out as a factorial based on completely randomized design during spring of 2019 in the research greenhouse of Shahid Bahonar University of Kerman. The research factors included 3 irrigation levels Fc100, Fc75 and Fc50 (100, 75 and 50 percent field capacity) as the first factor ...
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The experiment was carried out as a factorial based on completely randomized design during spring of 2019 in the research greenhouse of Shahid Bahonar University of Kerman. The research factors included 3 irrigation levels Fc100, Fc75 and Fc50 (100, 75 and 50 percent field capacity) as the first factor and two superabsorbent levels S0 and S5 (0 and 5 gr/kg soil) as a second factor which was done with five replications. The results showed that the maximum yield (40. 23 ton/ ha) and water productivity (10.36 kg/m^3) were observed in FC100S5 treatment which increased by 5.71 and 47.6 percent respectively, compared to the values recorded in similar level of irrigation and non-superabsorbent polymer. The maximum value of total chlorophyll (25.12 mg/ml) were observed in FC100S5 treatment which increased by 19.44 percent compared to the control treatment. The maximum value of vitamin c was observed in FC100S0 treatment which was 18.27 percent higher than minimum recorded value. Finally, the results showed that difference between irrigation water production of cherry tomato in FC100S0 and FC75S5 is not significant, despite 25% reduction in field capacity moisture at FC75S5. According to the results of this research, the quadratic production function is recommended as the optimal function for estimating the mentioned traits in terms of application and non- application of super absorbent.
Mohsen Seilsepour
Abstract
To evaluate the effect of different application methods of humic acid and aminochelate (Foliar application and soil application) on growth and yield of greenhouse-cucumber (Cucumis sativus. L), an experiment research at greenhouse for two years was carried out with three replications with randomized ...
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To evaluate the effect of different application methods of humic acid and aminochelate (Foliar application and soil application) on growth and yield of greenhouse-cucumber (Cucumis sativus. L), an experiment research at greenhouse for two years was carried out with three replications with randomized complete block design with factorial arrangement, with three levels of humic acid (no humic acid, soil humic acid and leaf-spray humic acid) and three levels of aminocelate (without aminochelate application, soil aminoclate application and leaf aminochelate application). The effect of humic acid application and the effect of amino acid application on fruit yield per unit area, number of fruits per plant, fruit dry matter percentage and leaf chlorophyll index were significant. Also, the effect of humic acid application, the effect of amino acid application and the interaction effect of humic acid and amino acid application on the concentration of nutrients consumed and low leaf consumption were significant. The highest mean fruit yield per unit area was obtained from the application of humic acid soil at 28.7 kg / m2, which increased yield by 24.7% compared to the control treatment (without using humic acid and aminoclate). According to the results, to achieve maximum yield per unit area, use of humic acid and aminocelate in soil were recommended.
Mohammad Saeidi Abuesghaghi; Mohammad Rafieiolhossaini
Abstract
seed polishing treatment on germination and seedling growth of different sugar beet cultivars, a experiment was conducted in a completely randomized design with three replications in the laboratory and greenhouse of the Faculty of Agriculture, Shahrekord University in 2020-2021. The first factor consisted ...
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seed polishing treatment on germination and seedling growth of different sugar beet cultivars, a experiment was conducted in a completely randomized design with three replications in the laboratory and greenhouse of the Faculty of Agriculture, Shahrekord University in 2020-2021. The first factor consisted of five monogerm cultivars of sugar beet (Shokofa, Arta, Aria, Sina and Octaban) and the second factor consisted of three levels of seed polishing (control, abrasion of 10% of seed husk weight and , abrasion of 30% of seed husk weight). The results of analysis of variance showed that the effect of cultivar and the interaction of cultivar and abrasion on all traits were significant. Comparison of mean interactions showed that Aria cultivar and 30% abrasion treatment had the highest germination percentage (83.5 percentage), germination rate (7.6 seed/day), and mean daily germination (5.96 seed/day) Meanwhile, the highest coefficient of seed length vigor index (10.18) were related to Ekbatan cultivar and 30% abrasion treatment. The highest fresh weight of plumule (0.25 g) and radicle (0.053 g) belonged to Shokofa cultivar without abrasion, the highest amount of chlorophyll b (2.77 mg/g fresh weight) and related to Arta cultivar and 30% abrasion, the highest amount of chlorophyll a (4.19 mg/g fresh weight ) was observed in Shokofa cultivar with 30% abrasion In general, it can be concluded from this study that polishing of 30% weight improves the germination and growth characteristics of sugar beet seeds and among the cultivars tested, Aria is more affected by abrasion than other cultivars
Sahereh Hashemian; Alireza Abdali Mashhadi; Amin Lotfi jalal-abadi; Ahmad Kochekzadeh
Abstract
Chicory, due to its palatability and high digestibility, has an effective role in increasing the productions of domestic animals. In order to study the effect of sowing data and nitrogen fertilizer levels on some characteristics of chichory (Cichorium intybus L.), an experiment was conducted in a split ...
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Chicory, due to its palatability and high digestibility, has an effective role in increasing the productions of domestic animals. In order to study the effect of sowing data and nitrogen fertilizer levels on some characteristics of chichory (Cichorium intybus L.), an experiment was conducted in a split plot design using randomized complete blocks design with three replications at the Agricultural Sciences and Natural Resources University of Khuzestan in 2016-2017. The factors included were four sowing data (22 October, 5 November, 21 November and 5 December) in main plots and four levels of nitrogen (zero (non-application), 75, 150, 225 kg / ha) in subplots. Results showed that sowing date affected only chlorophyll meter index, dry matter digestibility and digestible energy but nitrogen had significant effect on all studied traits. Increasing the application of nitrogen to 225 kg / ha had increasing effect on plant height, chlorophyll meter index and leaf area, branch number, and increased fresh and dry weight of plant. The treatment of 225 kg / ha nitrogen increased the fresh weight of shoots and the percentage of forage protein by 66.35% and 6.44%, respectively, compared to non-application. But in these two traits, no significant difference was observed between nitrogen application levels in different planting dates. In this study, late planting date led to better conditions for most physiological, morphological yield and quality characteristics. Accordingly, 22 October till 5 November sowing date with 150 kg ha-1 fertilizer is the best treatment for chicory cultivation in Ahvaz.
Mohamad reza Kimiaei; Alireza Sirousmehr; Barat ALI Fakheri
Abstract
In order to investigate the effects of irrigation regimes and foliar silicon spraying on quantitative and physiological characteristics of borage (Borago officinalis), an experiment was conducted as split plot based on randomized complete block design with three replications in 2014 at the University ...
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In order to investigate the effects of irrigation regimes and foliar silicon spraying on quantitative and physiological characteristics of borage (Borago officinalis), an experiment was conducted as split plot based on randomized complete block design with three replications in 2014 at the University of Zabol research farm in Zahak. Treatments included: Irrigation regimes at three levels; (90, 70 and 50% FC) coprising the main-treatments and four levels of silicon sprying including spraying in the form of sodium silicate (Na2SiO3) (0, 2, 4 and 6 mM) as sub-treatments. The Results indicated highest amount of proline was obtained from the interaction of irrigation regime with 50% of field capacity, without the use of silicon at the rate of 0.7847 mg.g-1. Based on the results of average comparison, the highest amount of chlorophyll a (15.919 mg/g fresh weight), chlorophyll b (7.14 mg/g fresh weight), from the interaction of irrigation regime 70% of field capacity and application of 2 mM silicon, as well as number of flowers per plant, total dry yield of plant (520 kg.ha-1) and biological yield (1187 520 kg.ha-1) Per hectare), 70 and 50% of field capacity and application of 6 mM silicon were obtained from the interaction effect of irrigation regime, respectively. Overal results suggested that silicon application mitigate drought stress impact and led to increasing drought tolerance of borage. Since flower and flowering branches of plant has economic value, 4 mM silicon acid application recommended to obtain greatest flower yield under drought stress conditions.
Ghorban Khodabin; Zeinolabedin Tahmasebi-Sarvestani; Amir Hossein Shirani rad; Esmaeil Bakhshandeh; Mojdeh Sadat Khayat Moghadam; Shahryar Kazemi; mahsa rafati alashti; ali heidarzadeh
Abstract
In order to study the effects of late-season drought stress and foliar application of zinc sulfate (ZnSO4) and manganese sulfate (MnSO4) on physiological characteristics and yield of rapeseed cultivars, a factorial split-plot test was conducted in a randomized complete blocks design for two cultivation ...
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In order to study the effects of late-season drought stress and foliar application of zinc sulfate (ZnSO4) and manganese sulfate (MnSO4) on physiological characteristics and yield of rapeseed cultivars, a factorial split-plot test was conducted in a randomized complete blocks design for two cultivation years (2017-2019) in Karaj, Iran. Experimental treatments were included two levels of irrigation (full irrigation (control) and withholding irrigation from flowering stage) and four levels of foliar application (control, ZnSO4, and MnSO4, separately, and combined application of them) as factorial in the main plots, and rapeseed genotypes (Nima, Niloofar and KS7) were considered as subplots. Combined foliar application of zinc and manganese sulfate under full irrigation conditions increased the content of seed oil and soluble carbohydrates by 3% and 11%, respectively, compared to the control. On the other hand, in the conditions of withholding irrigation from flowering stage increased the percentage of seed oil and leaf proline content compared to the control by 9% and 5.2%, respectively. Niloofar genotype had the highest seed yield (5261 kg/ha) under full irrigation conditions, which was 9% and 11.8% higher than KS7 and Nima genotypes, respectively. Nima genotype with 3371 kg/ha had the highest yield in the conditions of withholding irrigation. In general, in both irrigation treatments, simultaneous foliar application of zinc sulfate and manganese had the greatest effect on the physiological traits of the studied genotypes, so that in full irrigation of Niloofar genotype and in case of interruption of irrigation of Nima genotype is recommended.
Mona Arvand; Yousef Sohrabi
Abstract
In order to investigate the effects of integrated management of chemical and biological fertilizers on physiological traits, and grain yield of black cumin (Nigella sativa L.) under different irrigation levels, a split-plot experiment was conducted based on a randomized complete block design with four ...
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In order to investigate the effects of integrated management of chemical and biological fertilizers on physiological traits, and grain yield of black cumin (Nigella sativa L.) under different irrigation levels, a split-plot experiment was conducted based on a randomized complete block design with four replications at research farm University of Kurdistan during 2016 spring. Two irrigation levels (irrigation at 100 percent and 70 percent of plant water requirement) were randomized on the main plot. Five fertilizer levels (including 100 percent chemical fertilizers, 80 percent chemical fertilizers + biofertilizers, 60 percent chemical fertilizers + biofertilizers, 40 percent chemical fertilizers + biofertilizers, and non-fertilizer application) were randomized on a sub-plot. The results revealed that under irrigation at 70 percent of the plant water requirement conditions, proline concentration, soluble carbohydrates concentration and lipid peroxidation increased, but the values of other physiological parameters were studied, and grain yield decreased. The combination of biological and chemical fertilizers positively affected the studied physiological traits and grain yield, such that the highest grain yield belonged to the combined treatment of 60 percent chemical fertilizers + biofertilizers (798.18 kg ha-1), which showed an increase of 37.22% compared to the control treatment (without fertilizer). Due to the positive effects of combining bio-chemical fertilizers on physiological parameters and grain yield, it is recommended to replace the combination of bio-chemical fertilizers instead of using only chemical fertilizers.
Behzad Azadegan; Reza Kouhestani; Mahmoud Mashal
Abstract
This study aims at investigating morphological and physiological characteristics as well as water use efficiency of the stock plant in various low irrigation treatments and culture media. For so doing, a research has been conducted in the form of split plots with a completely randomized block design ...
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This study aims at investigating morphological and physiological characteristics as well as water use efficiency of the stock plant in various low irrigation treatments and culture media. For so doing, a research has been conducted in the form of split plots with a completely randomized block design with three replications in the crop year 2018-2019 in the research greenhouse of the College of Abouraihan, University of Tehran. The treatments include four culture media (perlite, perlite + enriched manure, perlite + zeolite, and perlite + vermicompost) and three low irrigation levels (100% (control), 75%, and 50% of water needs). Results indicate the significant effects (P < 0.01) of culture medium on plant height, stem diameter, leaf area, root fresh and dry weight, plant fresh and dry weight, as well as water use efficiency, and the perlite + vermicompost media improves all these traits. Moreover, severe irrigation treatment (50%) has had negative effects on plant growth parameters, i.e., root fresh weight and diameter, while irrigation at 75% of water needs does not have any undesirable effect on plants, significantly increasing water use efficiency (P < 0.01). The perlite + vermicompost with 75% low irrigation treatment increases the water use efficiency by about 1.8 times, compared to the control in the perlite culture media. Due to the decrease in the quality of growth characteristics in severe low irrigation treatments (50%), this plant’s production is recommended in irrigation at 75% of the water needs.
Maryam Falahatkar-Gangi; Weria Weisany; Marjan Diyanat
Abstract
In order to investigate the effect of different mycorrhizal fungai species and drought stress levels on physiological characteristics of chickpea cultivars, a factorial experiment was conducted in a completely randomized design in the greenhouse of Kurdistan Agricultural and Natural Resources Research ...
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In order to investigate the effect of different mycorrhizal fungai species and drought stress levels on physiological characteristics of chickpea cultivars, a factorial experiment was conducted in a completely randomized design in the greenhouse of Kurdistan Agricultural and Natural Resources Research Center in 2020. Its factors include irrigation at three levels (optimal irrigation at field capacity, moderate stress, and severe stress), application of mycorrhizal fungus at four levels (mosseae, Simiglomus hoi, Rhizophagus irregularis, and no inoculation (control)) and chickpea cultivar at two levels (ILC-482 and Pirooz). Results show that irrigation level has had a significant effect on the evaluated traits. Thus, by decreasing the amount of available plant water, both dry weight and chlorophyll content drops. Catalase activity increases under severe stress, compared to moderate stress and lack of drought stress up to 37% and 71.9% in Pirooz cultivar and up to 69.4% and 82.6% in ILC-482 cultivar, respectively. In case of the latter, the highest peroxidase activity is observed in severe stress conditions, which almost doubled compared to non-stress treatment. The activity of peroxidase enzyme is affected by the use of mycorrhizal fungi so that plants inoculated with G. mosseae has had the highest and non-inoculation with mycorrhiza the lowest peroxidase activity. In severe stress, the lowest amount of malondialdehyde has been obtained using G. mosseae. Inoculation of chickpeas with mycorrhizal fungi can be considered as a way to improve growth in non-stress conditions and increase tolerance to drought stress conditions.
Atefeh Sadat Mousavi; Masoumeh Naeemi; ali Rahemi karizaki; Abdolatif Gholizadeh
Abstract
In order to investigate the effect of chitosan and salicylic acid elicitors on osmotic adjustment and some physiological traits of Hyssop under experimental drought conditions, an experiment has been carried out as a split plot design with randomized complete block design with three replications at research ...
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In order to investigate the effect of chitosan and salicylic acid elicitors on osmotic adjustment and some physiological traits of Hyssop under experimental drought conditions, an experiment has been carried out as a split plot design with randomized complete block design with three replications at research farm of Gonbad Kavous University during 2018-2019. Irrigation factor at three levels include 7, 14, and 21 days irrigation interval as main factor and four levels of spraying including no elicitor (control treatment, spraying), salicylic acid (300 mg. l-1), Chitosan spraying (5 g. l-1), and combination of salicylic acid and chitosan, considered as auxiliary agents. Results of analysis of variance show that the interaction between spraying and irrigation has had significant effects on ion leakage, chlorophyll a content, soluble sugar, and malondialdehyde content but insignificant impacts on carotenoid and essential oil yield. Spraying of salicylic acid, with 17% reduction in ion leakage and 40% reduction in plant malondialdehyde, compared to the control, increase the stability of cell membranes under 21-day irrigation stress. In the same treatment, chitosan has increased the amount of photosynthetic pigments and total chlorophyll by 51%, compared to the control. According to the results, salicylic acid and Chitosan have been able to increase the ability of hyssop in response to water deficit stress by activating different tolerance mechanisms.
Mahdieh sheikhaliyan; Yousef Sohrabi; farzad Hossainpanahi; Amir Hossein Shirani rad
Abstract
In order to investigate the interaction between sodium nitroprusside and drought stress on photosynthetic pigments and their relationship with yield and yield components of rapeseed, an experiment was conducted during two cropping years (2015-16 and 2016-17) at Hamedan Agricultural and Natural Resources ...
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In order to investigate the interaction between sodium nitroprusside and drought stress on photosynthetic pigments and their relationship with yield and yield components of rapeseed, an experiment was conducted during two cropping years (2015-16 and 2016-17) at Hamedan Agricultural and Natural Resources Research Center. The experiment was carried out as a factorial in randomized complete block design with three replications. Experimental factors were irrigation levels including full irrigation (control), irrigation termination from beginning silique stage and irrigation termination from grain filling stage, and four treatments of foliar application of sodium nitroprusside with concentrations of 0, 100, 200 and 300 μM. The results showed that irrigation termination significantly reduced the amounts of studied traits. Sodium nitroprusside foliar application increased the amounts of photosynthetic pigments, yield and grain yield components under drought stress and non-stress conditions. The highest and the lowest grain yield were obtained in the combination treatments of plant foliar application with 300 mM sodium nitroprusside and full irrigation (5129 kg/ha) and non-foliar application and irrigation interruption at the beginning silique stage (3396 kg/ha), respectively. The experiment indicated that sodium nitroprusside application can have positive effects on photosynthetic pigments, yield components and grain yield of rapeseed under drought stress and non-stress conditions, and therefore its application can greatly mitigate the adverse effects of drought stress in water deficit conditions.
Tahereh Sedighi Shiri; Malek Hossein Shahriari; Mohammad Hedayat; Shahriar Osfouri
Abstract
In order to study the effect of organic amendment application on the growth and biochemical characteristics of French marigold (Tagetes patula) in soil contaminated with different levels of gas condensate, a factorial experiment was conducted based on a completely randomized design with three replications. ...
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In order to study the effect of organic amendment application on the growth and biochemical characteristics of French marigold (Tagetes patula) in soil contaminated with different levels of gas condensate, a factorial experiment was conducted based on a completely randomized design with three replications. The experimental factors consisted of gas condensate at five levels of 0, 7,500, 15,000, 30,000 and 60,000 μL per kg of soil, and soil amendment including vermicompost (5%), biochar (2%), Activated carbon (1%), vermicompost+ activated carbon+ biochar and non-amendment treatments. The results of the analysis of variance showed that the main and interactive effects of gas condensate and soil amendments were significant on traits of fresh and dry weight of root and shoot, chlorophyll a and b and proline content (P < 0.01). At the highest level of contaminant, the application of activated carbon and vermicompost+ activated carbon+ biochar respectively caused 3.82 and 4.45-fold increase in shoot fresh weight, 3.76 and 4.4-fold increase in root fresh weight, 2.52 and 2.56-fold increase in chlorophyll a, and also decreased 30.66 and 39.5 percent of proline content compared to the non-amendment treatment at this level of contaminant. The results of this research indicated the effective and useful role of organic soil amendment, especially activated carbon and vermicompost+ activated carbon+ biochar in reducing the toxicity of gas condensate on French marigold.
Ahmad Golchin; Faezeh Farahmand Mofrad; Nader Khadem Moghadam Igdelou
Abstract
Peppermint is an important medicinal and aromatic plant which its oil content varies from one region to another region and as a function of fertilization, shadow, irrigation, and photoperiod. In order to study the effect of different levels of shadow and nitrogen on growth and oil performance of this ...
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Peppermint is an important medicinal and aromatic plant which its oil content varies from one region to another region and as a function of fertilization, shadow, irrigation, and photoperiod. In order to study the effect of different levels of shadow and nitrogen on growth and oil performance of this plant, a factorial experiment was conducted using a completely randomized design with three replications in the Faculty of Agriculture, University of Zanjan during the 2014-2015 cropping season. The experimental factors were, shadow factor in four levels (S0: without shadow, S25: 25%, S50: 50%, and S75: 75% shadow) and nitrogen factor as Urea in four levels (N1: without nitrogen, N2:60, N3:120, and N4:180 mg N/kg). The results showed that the highest number of leaves per plant (936), leaf surface area (1688mm2), chlorophyll index (51.32), essential oil content (2.455%), and essential oil yield (0.37 g/box) were obtained from the S25N3 treatment. The highest shoot dry weight was measured in the S50N4 treatment and the S25N3 treatment with 8.36% difference stood in the second place. The highest leaf dry weight was observed in S25N3 (11.55 g/box). Treatments applied to plant height and numbers of branches were not significantly affected. Therefore, to obtain the highest concentration and performance of essential oil in peppermint, as well as to increase the number of leaves per plant and leaf surface area for marketable and edible consumption, the use of 25% shadow and the application of 120 mg/kg nitrogen are recommended.
Faezeh Zaefarian; Vahid Akbarpour; Maryam Habibi; Mohammad Kaveh
Abstract
In order to investigate the effect of biochar and biological fertilizer on photosynthetic pigments, yield and nutrient content of peppermint (Mentha piperita L.), an experiment was conducted as factorial based on a randomized complete block design in three replications at Sari Agricultural Sciences and ...
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In order to investigate the effect of biochar and biological fertilizer on photosynthetic pigments, yield and nutrient content of peppermint (Mentha piperita L.), an experiment was conducted as factorial based on a randomized complete block design in three replications at Sari Agricultural Sciences and Natural Resources University in 2017. Treatment consisted biochar on two level (0 and 10 ton ha-1) and organic and biological fertilizers on five level (no fertilizer (F0), vermicompost (10 ton ha-1) (F1), Pseudomonas fluorescens (F2), Azotobacter (F3) and Arbuscular mycorrhizal (Glomus mosseae, G. intradicces and G. etunicatum) (F4)). The results of this study showed that the main effect of biochar and bio-fertilizer had a significant effect on leaf, stem and total fresh weight of the plant. In addition, the use of biochar and also mycorrhiza treatment increased average of leaf fresh weight (294.73 and 306.8 g.m-2), stem fresh weight (366.73 and 361.15 g.m-2) and total fresh weight (661.46 and 667.95 g.m-2). The interaction effect of treatments had a significant effect on leaf, stem and total dry weight. The highest rate of these traits was observed in biochar treatment with mycorrhiza, which had no significant effect with by a combination of vermicompost + biochar. Therefore, with respect to the production of medicinal plants in the low-input cropping systems, environmental protection, and achievement of sustainable agricultural to improve plant growth and photosynthesis of peppermint application of biochar + mycorrhiz and biochar + vermicompost treatment is recommended.
Kambiz Kharazmi; Reza Amirnia; Jalal Jalilian; Mehdi Tajbaksh
Abstract
Due to the high requirement of alfalfa to water, research on the role of organic-biofertilizer and chemical fertilizers in adjustment of low irrigation stress is important, thus, this experiment was conducted as a factorial based on a randomized complete block design with three replications in Agricultural ...
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Due to the high requirement of alfalfa to water, research on the role of organic-biofertilizer and chemical fertilizers in adjustment of low irrigation stress is important, thus, this experiment was conducted as a factorial based on a randomized complete block design with three replications in Agricultural and Natural Resources Research of Khoy in two years (2015-2016). Experimental treatments included irrigation {irrigation at field capacity (control), irrigation at 80% and 60% field capacity} and various fertilizer resources at six level {Mycorrhiza, Nitroxin, Vermicompost, Chicken manure, NPK chemical fertilizer and treatment without fertilizer consumption (control)}. The results of combined analysis showed that irrigation treatment had a significant effect on forage yield, chlorophyll a, b and total chlorophyll, proline, carotenoids, soluble carbohydrates and peroxidase enzyme activity. Regarding the importance of forage production in alfalfa, the results showed that the plant treated with mycorrhiza biofertilizer under full irrigation condition had the similar forage yield as the application of chemical fertilizer, but in both low irrigation conditions, mycorrhiza increase the forage yield by 10.18% in comparison to chemical fertilizer application. Other fertilizer treatments showed different trends in irrigation levels in terms of effect on forage yield, so that under irrigation at 60% field capacity, vermicompost, chicken manure, chemical and control treatments were in a same statistical group. Therefore, considering the disadvantages of using chemical fertilizers, mycorrhiza which has ecological and environmental benefits, can be used in alfalfa cultivation.
Tahere Shahmirzaee jeshvaghani; Mohammad Rafieiolhossaini; Abdolrazagh Danesh Shahraki; Ali Tadayyon
Abstract
In order to investigate the effect of humic acid foliar application on drought stress effects of Niger (Guizotia abyssinica (L.F) Cass), a split plot experiment was done in a randomized complete block design with three replications at the research farm of the faculty of agriculture/Shahrekord University ...
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In order to investigate the effect of humic acid foliar application on drought stress effects of Niger (Guizotia abyssinica (L.F) Cass), a split plot experiment was done in a randomized complete block design with three replications at the research farm of the faculty of agriculture/Shahrekord University in 2016. The main factor consisted of four drought stress levels (60 (control), 100, 140 and 180 mm evaporation from evaporation pan) and the sub factor was including four humic acid levels (0, 2, 4 and 6 liters per hectare). The results showed that the effect of drought stress and humic acid was significant on plant height, number of lateral branches, number of head per unit area, 1000 grain weight, grain yield, biological yield, harvest index, chlorophyll, carotenoids and proline (at 1% level of probability). Drought stress caused decreasing and humic acid caused increasing in all traits except of proline. The interaction effect of drought stress and humic acid on number of head per unit area, grain yield, harvest index, proline (at 1% level of probability) and on plant height (at 5% level of probability) was significant.The maximum plant height, number of heads per unit area, grain yield and harvest index were obtained at control with six liters humic acid application per hectare, and the maximum amount of proline was observed at the treatment of 180 mm evaporation with no humic acid application. It is recommended to use 100 mm evaporation regime with 4 liters humic acid application per hectare for more economic profit.
Yousef Lotfi; Esmaeil Khaleghi; Norollah Moallemi
Abstract
Given that, the qualitative characteristics of olive oil are influenced by environmental conditions and cultivars. Therefore, this study was carried out to investigate some of the oil qualitative characteristics of Tarom 2 and Dezful cultivars of olive as a randomized complete block design with 3 replications ...
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Given that, the qualitative characteristics of olive oil are influenced by environmental conditions and cultivars. Therefore, this study was carried out to investigate some of the oil qualitative characteristics of Tarom 2 and Dezful cultivars of olive as a randomized complete block design with 3 replications at Shahid Chamran University of Ahvaz during 2016-2017. The results indicated that, the oil extracted from Tarom 2 cultivar exhibited the highest peroxide value (9.25 meq of O2/ kg of oil), chlorophyll content (8.10 mg/kg of oil), and carotenoid (0.16 mg/kg of oil) and K232 and K270 extinction coefficients of 2.32 and 0.61, respectively. However, total phenolic content of the oil extracted from Dezful cultivar (552.66 mg/kg of oil) was higher than that of the other cultivar. In addition, the highest oleic acid content (58.52%) and lowest palmitic acid content (17.6%) were measured on the oil obtained from the Tarom 2 cultivar, while the oil extracted from Dezful cultivar showed the highest linoleic acid content (18.05%). Furthermore, oleic acid-to-linoleic acid ratio was higher in the oil extracted from the Tarom 2 cultivar rather than the one taken from the Dezful cultivar. Therefore, based on the results obtained from the experiment, the oil extracted from Tarom 2 cultivar is expected to exhibit higher oxidative stability than that of the Dezful cultivar.
Rasol Heydarnejad; Zahra Ghahremani; Taher Barzegar; Vali Rabiei
Abstract
To evaluate the effects of harvest time and duration of storage on the fruit quality and storage longevity of physalis )Physalis angulate L.(, an experiment was carried out based on completely randomized design (CRD), with three replications in 2016. Factors were three fruit harvest stages (mature green, ...
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To evaluate the effects of harvest time and duration of storage on the fruit quality and storage longevity of physalis )Physalis angulate L.(, an experiment was carried out based on completely randomized design (CRD), with three replications in 2016. Factors were three fruit harvest stages (mature green, yellowish green, and yellow) and storage times (0 (harvest time), 10, 20, 30 days). The results showed that different harvest times and storage durations had significant effects on the fruit quality indices and storage longevity. The highest value of flavor and fruit color index, vitamin C (201.54 mg) and total soluble solids (TSS) (7.6 percent of brix) contents were obtained in the fruit harvested at the yellow stage under 10 days storage duration, and with longer storage duration reduced vitamin C and TSS contents. The maximum titratable acidity (1.71 mg/100gr) and pH of fruit were observed at the mature green stage in harvest time. Chart differences color in storage was accompanied by an upward trend in the amount of mature green fruit significantly different than the fruit was yellowish green and yellow. According to the results, because of climacteric nature of physalis fruits, gradual ripening and fruit color change, harvesting of fruit at mature green stage increased the storage life up to 30 days at 15 °C compared to other fruits harvested times.
Shahram Taheri; Ahmad Gholami; Hamid Abbasdokht; Hassan Makarian
Abstract
In order to evaluate the effects of seed priming to reduce water deficit stress in safflower cultivars, an experiment was conducted as a split plot factorial based on randomized complete block design with three replications at Shahrood Agricultural Research Center in 2015. The main plot consisted of ...
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In order to evaluate the effects of seed priming to reduce water deficit stress in safflower cultivars, an experiment was conducted as a split plot factorial based on randomized complete block design with three replications at Shahrood Agricultural Research Center in 2015. The main plot consisted of irrigation at three levels based on the evaporation from class A evaporation pan: non water deficit stress (60 mm evaporation), mild water deficit stress (120 mm evaporation) and severe water deficit stress (180 mm evaporation) and subplots consisted of two factors include safflower cultivars (Goldasht, Sina and Soffeh) and seed priming (Primed seeds with salicylic acid and non-primed). The results showed that severe water stress reduced the grain yield by about 29 percent compared to non stress conditions. In these conditions activity of superoxide dismutase, peroxidase, ascorbate peroxidase and catalase enzymes was increased by about 33, 25, 29 and 40 percent respectively. In severe water deficit conditions, content of malondialdehyde, proline and carotenoid significantly increased but the amount of chlorophyll was reduced. Priming of seeds with salicylic acid caused the antioxidant defense system activity to be increased by about 7-9 percent, therefore increased resistance of safflower plants to water stress and resulted in greater seed yield under water stress conditions. Interaction of irrigation and cultivar appeared to be significant on seed yield and activity of catalase, peroxidase and ascorbate peroxidase enzymes.
Seyed marziyeh Hosseini valashkolaee; Yahya Tajvar; Masoud Azadbakht; Zeinab Rafie-rad
Abstract
Low temperature stress is one of the most important abiotic environmental stresses that affects the growth and yield of ornamental plants. In order to investigate of some physiological and biochemical indices of four varieties of ornamental Citrus used in urban landscapes under low temperature stress ...
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Low temperature stress is one of the most important abiotic environmental stresses that affects the growth and yield of ornamental plants. In order to investigate of some physiological and biochemical indices of four varieties of ornamental Citrus used in urban landscapes under low temperature stress conditions, a factorial experiment in a completely randomized design with three replications was conducted in the Citrus and Subtropical Fruits Research Center of Ramsar in 2015. Treatments were included the temperature with four levels (3, 0, -3 and -6˚C) and four varieties of ornamental Citrus including (Kumquat, Fingered citron, Calamondin and Limequat). Results showed that amounts of electrolyte leakage, water soaking, prolin content, antioxidant capacity, lipid peroxidation and superoxide dismutase activity were increased significantly by reducing of temperature, while chlorophyll and total chlorophyll contents were decreased. Accordingly, the lowest leaf water soaking (20.92%) and electrolyte leakage (30.81%) amount, which are destructive indices, were showed in Kamquate. Total chlorophyll amount (2.21 mg/gFW), antioxidant capacity (60.61%) and superoxide dismutase activity (26.53 IU/gFW), that are tolerability indices, were more relevant at Kamquate. In general, Kumquat could tolerate the freezing stress up to -3°C by increasing of some indices such as proline, soluble sugars, antioxidant capacity and superoxide dismutase activity.
Elahe Moradi Marjaneh; Mohammad Galavi; Mahmood Ramroudi; Mahmood Solouki
Abstract
In order to evaluate the effects of biological and chemical fertilizers at different cuts on some properties of the Rosemary, an experiment was carried out as split plot based on Randomized Completely Block Design (RCBD) with three replications, at the Zabol University Research Farm. Three times cuttings ...
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In order to evaluate the effects of biological and chemical fertilizers at different cuts on some properties of the Rosemary, an experiment was carried out as split plot based on Randomized Completely Block Design (RCBD) with three replications, at the Zabol University Research Farm. Three times cuttings were Autumn’s first cut (late autumn), spring’s first cut (late spring) and autumn’s second cut (six months after autumn’s first cut) being considered as a major factor. The biological fertilizers included Aztobarvar, Phosphate Barvar-2, Petabarvar and chemical fertilizer NPK 20:20:20 and the control was considered as a subplot factor. The results showed that spring’s first cut had the greatest impact on essential oil content and phosphor. The autumn’s second cut had the greatest influence on the percentage of leaf relative water and the concentration of potassium and sodium. Amounts of protein, soluble carbohydrates, dry matter yield, essential oil content and essential yield, oil percentage and oil yield, leaf relative water, chlorophyll, carotenes and nitrogen increased as affected by fertilizers compared with control. The maximum amount of phosphor (7352 mg.kg-1) was obtained from application of Phosphate Barvar-2. Additionally, the maximum amount of potassium (5542 mg.kg-1) and the minimum of sodium (4760 mg.kg-1) was obtained from Petabarvar. Protein, dry matter yield and oil yield, oil percentage, chlorophyll a, b, total chlorophyll significantly increased under the interactions of spring’s first cut and Aztobarvar biologic fertilizer by 28/36 mg.liter-1, (3294 and 53/90 kg.ha-1) 1/63, 6/66, 1/94 and 81/4 mg.gr-1, respectivly. The results also indicated that the interaction of spring’s first cut and Petabarvar biologic fertilizer had the highest essential oil yield (41.46 kg.ha-1) and interaction of autumn’s second cut and Aztobarvar biologic fertilizer produced the highest amount of nitrogen (12955 ppm) in shoot. The result showed that the application of Aztobarvar biologic fertilizer in spring’s first cut improved and enhanced the quantitative and physiological characteristics of Rosemary. This would probably have been due to facilitating nitrogen uptake and optimal environmental conditions for growth and development.
Abstract
In order to evaluate the effect of irrigation withholding and foliar potassium application on some physiological traits (photosynthesis, cell membrane stability and chlorophyll) and harvest index of wheat (Triticum aestivum L.), an experiment was carried out using a split plot factorial based on a randomized ...
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In order to evaluate the effect of irrigation withholding and foliar potassium application on some physiological traits (photosynthesis, cell membrane stability and chlorophyll) and harvest index of wheat (Triticum aestivum L.), an experiment was carried out using a split plot factorial based on a randomized complete blocks design with three replications in 2011-2012 in two locations: Seed and Plant Certification and Registration Research Institute, Karaj and Agricultural and Natural Resources Research Center, Yazd. The experimental factors were included drought stress (three levels of irrigation withholdings were irrigation withheld from ear emergence to physiological maturity, irrigation withheld from grain filling to physiological maturity, and normal irrigation) foliar potassium application (without potassium application, 1.5 and 3.0% K2SO4) and genotype (two wheat cultivars of ‘Marvdasht’, ‘Pishtaz’and aline‘WS-82-9’). Results showed that the studied characteristics were significantly reduced by increasing drought stress level. The highest harvest index was observed in ‘WS-82-9’ in Karaj under normal irrigation (32.69%) and the lowest harvest index was obtained from ‘Marvdasht’cultivarin Yazd, under severe stress (11.50%). Genotypes were different for cell membrane stability and the lowest rate was belonged to ‘Marvdasht’ (35.5%). Foliar application of 3.0% K2SO4 caused to significant differences in physiological characteristics, especially for leaf photosynthesis under severe drought stress condition: photosynthesis increased 99.1 and 69.7% in Yazd and Karaj, respectively. It can be concluded that cultivating of ‘WS-82-9’ and spraying of 3.0% K2SO4 were effective to moderate drought stress, especially when fields have limitations for irrigation water at the end of crop life cycle.
Hossein Ghane; Hossein Amirshekari; Amir mohammad Naji
Abstract
In order to study the effects of planting date and seed priming on yield and physiological traits of two cumin ecotypes, an experiment was conducted as factorial experiment based on randomized complete blocks design with three replications in the 2014-15 crop season at field research of medicinal plants, ...
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In order to study the effects of planting date and seed priming on yield and physiological traits of two cumin ecotypes, an experiment was conducted as factorial experiment based on randomized complete blocks design with three replications in the 2014-15 crop season at field research of medicinal plants, Shahed University. The factors were priming with two levels of control and osmopriming (KCL 4%), planting date with three levels of 25 February, 10 March and 25 March and ecotype with two levels of Neishabour and Sabzevar. The results showed that the interaction between priming and planting date and ecotype on seed number per plant grain yield and biological yield significant in statistical level of 5%, while the number of lateral branches and umber number per plant were significant in statistical level of 1%. There was a reduction on grain yield and biological yield due to delay in planting date from 10 Mar. to 25 Mar. Application of osmopriming led to a significant increase in percentage and yield of essential oil in Sabzevar ecotype. The chemical components of essential oils significantly decreased by delay in sowing date. Generally, cultivation of Sabzevar ecotype on 25 February lead to best quality and quantity in yield.
Fariba Rezaei Aderyani; Ayatollah Rezaei; Yavar Sharafi
Abstract
Salinity is one of the most important plant growth limiting factors, which using the anti-stress materials is considered as an important approach in moderating its effects on plants. In this research, the date plum seedlings response to salinity stress and two compounds putrescine and chitosan to reduce ...
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Salinity is one of the most important plant growth limiting factors, which using the anti-stress materials is considered as an important approach in moderating its effects on plants. In this research, the date plum seedlings response to salinity stress and two compounds putrescine and chitosan to reduce salinity stress was studied. The experiment was conducted as a factorial with three levels of sodium chloride (0, 30 and 60 mM), and five treatments of control, putrescine (1 and 2 mM) and chitosan (0.25 and 0.5%), based on a completely randomized design with four replications at Shahed University in 2016. The results showed that date plum was sensitive to salt stress in the early stages of growth and sodium chloride salinity stress resulted in significant decrease in vegetative traits such as fresh matter weight and length of shoots and roots as well as leaf chlorophyll content in compared to 0 salinity. In addition, the leaf blight percentage, sodium content, electrolyte leakage and malondialdehyde content were increased in plants treated with salinity. Putrescine treatment, especially at 2 mM concentration effectively reduced the effects of salinity on date plum seedlings and improved vegetative growth of stem and root, while chitosan had no significant effect in reducing the harmful effects induced by salt stress in this experiment. According to the results, Diospyros lotus seedlings were sensitive to salinity and using treatments such as putrescine is effective in increasing its resistance to salinity stress.
Negar Heidarian; Taher Barzegar; Zahra Ghahremani
Abstract
In order to evaluate the effect of water stress on the growth, yield and fruit quality of some Iranian melon accessions, an experiment was carried out in a split plot based on randomized complete block design with three replicates in research filed of university of Zanjan as during 2015. Treatments consisted ...
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In order to evaluate the effect of water stress on the growth, yield and fruit quality of some Iranian melon accessions, an experiment was carried out in a split plot based on randomized complete block design with three replicates in research filed of university of Zanjan as during 2015. Treatments consisted arrangement of three irrigation levels (starting irrigation at 100, 70 and 40% ETc) and 8 accessions of Iranian melon (‘Ghalam’ ‘Ghash’, ‘Roshe’, ‘Zerke’, ‘Khatooni’, ‘Rish Baba’, ‘Ghobadloo’, ‘Garake’ and ‘Kalyar’). The results showed that water deficit stress significantly reduced growth and fruit yield. The lowest yield (18223.1 kg/ha), fruit weight (1057.94 gr), number of fruits per plant (1.75), leaf area (124.257 cm2) and the highest leaf dry weight (21%) was obtained in water deficit stress 40% ETc. Accessions had different growth and fruit yield. In all accessions, growth and fruit yield was reduced by increasing of water deficit stress, but leaf dry weight, TSS and water use efficiency was increased. The highest amount of leaf area (410.279 cm2), yield (49881.33 kg/ha) and fruit weight (2270.9 gr) was obtained in ‘Ghalam Ghash’ under 100% ETc irrigation. Also the maximum water use efficiency was observed in "Khatooni" and ‘Ghalam Ghash’ under water deficit 40% ETc. According to the results, ‘Zerke’ and ‘Rish Baba’ with highest (65.17%) and lowest (41.16 %) yield reduction respectively under irrigation 40% ETc were sensitive and tolerance accession to the water stress compared to normal irrigation.