parisa sheikhzadeh; Gholam Behzad; Nasser Zare; Mitra Rostami
Abstract
Objective: Due to the injuries caused by cold and frost in temperate and cold regions, utilizing strategies that increase cold tolerance to enhance the winter survival and establishment of seedlings is imperative.Methods: To investigate the effects of selenium nanoparticles application on photosynthetic ...
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Objective: Due to the injuries caused by cold and frost in temperate and cold regions, utilizing strategies that increase cold tolerance to enhance the winter survival and establishment of seedlings is imperative.Methods: To investigate the effects of selenium nanoparticles application on photosynthetic and biochemical indices and cold tolerance of oilseed rape, an experiment was carried out based on a randomized complete blocks design with three replications at the research farm station of the University of Mohaghegh Ardabili in 2018. The treatments consisted of foliar application of selenium nanoparticles (0 [control], 25, and 50 mg L-1) applied at the 6-8 leaves stage.Results: The results demonstrated that selenium nanoparticle application significantly increased the RWC, photosynthetic pigments, antioxidant enzyme activity, winter survival, and grain yields. The highest RWC, maximal flourescnece (Fm), highest photochemical efficiency of photosystem II (Fv/Fm), and variable fluorescence (Fv), proline content, and the activity of catalase and peroxidase enzymes were obtained with the foliar application of 50 mg L-1 selenium nanoparticles. Selenium nanoparticles application significantly increased the winter survival of oilseed rape plants by about 7.18 to 8.94 percent, by improving the Fv/Fm, the activity of the antioxidant enzymes, and proline content. Foliar application of 25 and 50 mg L-1 selenium nanoparticles resulted in about 28.10 and 34.19 percent increase in grain yield of oilseed rape as compared to the control (no spraying) treatment, respectively.Conclusion: In general, the results demonstrated that applying 50 mg L-1 selenium nanoparticles had positive and significant effects on the photosynthetic and biochemical characteristics of winter oilseed rape, which resulted in the increased cold tolerance of the oilseed rape plants.
Masome shenavaei zare; Mohammad Armin; Hamid Marvi
Abstract
Nowadays, the use of stress modulators as a useful and low-cost solution to reduce the effects of environmental stress has been considered by researchers. In order to investigate the effects of stress modulator’s foliar application in different planting dates on yield and yield components of cotton, ...
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Nowadays, the use of stress modulators as a useful and low-cost solution to reduce the effects of environmental stress has been considered by researchers. In order to investigate the effects of stress modulator’s foliar application in different planting dates on yield and yield components of cotton, an experiment has been conducted as split-plot factorial in a randomized complete block design with three replications in Sabzevar Islamic Azad University in 2017 and 2018. Factors include planting date (early and late) as the main plot and type of stress modulator (control, salicylic acid (SA) 2 and 4 mM, glycine betaine (GB) 50 and 100 mM and sodium nitroprusside (SNP) 100 and 200 μM) as the sub-plots. Foliar application of 2 mM SA in the first year and 4mM SA in the second year produce the highest number of bolls per plant (10.1 and 7.58, respectively). In contrast, 4 mM SA spraying in early planting date increases seed cotton yield (45.6%), but in late planting date, seed cotton yield does not respond to the stress modulator application. In the first year, 100 μM SNP foliar application has the highest lint yield in both early and late planting dates, but in the second year, 2 mM SA foliar application produce higher lint yields. Overall, the results of this experiment show that the highest yield of cotton in saline conditions are obtained in sowing at the appropriate date and foliar application of 4 mM salicylic acid.
Ghobad Mohamadpoor; salim farzaneh; SAEID KHOMARI; Raouf Seyed sharif; behrooz esmaie;pour
Abstract
This study attempts to investigate the effect of application of humic acid and seaweed extract on morphology, growth, yield, and yield components of quinoa under drought stress in 2018-2019 in two different locations, Qasr Shirin and Dalahou. It has been performed as split plots in a randomized complete ...
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This study attempts to investigate the effect of application of humic acid and seaweed extract on morphology, growth, yield, and yield components of quinoa under drought stress in 2018-2019 in two different locations, Qasr Shirin and Dalahou. It has been performed as split plots in a randomized complete block design with 4 replications. Experimental treatments include three irrigation treatments (full irrigation, irrigation cut-off at the beginning of flowering and irrigation cut-off at the beginning of seed filling) and foliar spraying treatments with different amounts of humic acid (foliar application at the rate of 1.5 kg / ha and 2 Kg / ha) and seaweed extract (foliar application at 1 kg / ha and 1.5 kg / ha) along with a control treatment. Results show that seed yield in Dalahou region under normal condation has been 24.78% higher than Qasrshirin region. Seed yield in different irrigation treatments under the influence of foliar application show that in all irrigation treatments, the effect of foliar application of humic acid and seaweed extract on seed yield has been positive compared to the control. In full irrigation conditions, the highest seed yield is obtained from foliar application of humic acid, while in irrigation cut-off treatments, the effect of seaweed extract on seed yield has been better than humic acid. The weight of 1000 seeds in quinoa produced in Dalahu region has been more than Qasrshirin region but in both regions drought stress has reduced the 1000 seeds weight. In all irrigation treatments, application of humic acid and algae extract has increased 1000-seed weight.
Mehdi Rashtbari; Ali Akbar Safari Sinegani
Abstract
The present study evaluates the effect of various application methods of mostly applied antibiotics in agriculture (gentamicin, oxytetracycline, penicillin) at different concentrations on root and shoot growth indices and number of rhizobial nodules of chickpea plant and the count of total bacteria, ...
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The present study evaluates the effect of various application methods of mostly applied antibiotics in agriculture (gentamicin, oxytetracycline, penicillin) at different concentrations on root and shoot growth indices and number of rhizobial nodules of chickpea plant and the count of total bacteria, fungi, and coliforms in the soil around the plant root after a growth period of 60 days in greenhouse as a split-plot design. Application of antibiotics, even gentamicin, raises plant shoot dry weight, compared to the control, with the lowest weight of 0.98 g/pot observed in the control (without antibiotic). Root dry weight in penicillin-applied treatments, especially at higher concentrations has been the highest (1.1 g/pot), and the lowest in gentamicin-applied treatments, especially when applied as seed coating (0.48 g/pot). In total, antibiotic application decreases the root to shoot ratio compared to the control. Application of all antibiotics increase soil bacterial count in the pots after 60 days in comparison with the control. Also, increasing the concentration of gentamicin and penicillin, decreases plant root nodule number by 78.8% and 59.7%, respectively. Overall, the effect of antibiotics on soil microbial count and plant growth depends on antibiotic type and application method.
Saeid Naservafaei; Yousef Sohrabi; Parviz Moradi
Abstract
The present study has been conducted to investigate the effect of Brassinosteroid on some physiological traits, yield components, seed yield, and oil of Dragon’s head under deficit irrigation conditions. The experiment has been conducted as split-plot based on a randomized complete block design ...
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The present study has been conducted to investigate the effect of Brassinosteroid on some physiological traits, yield components, seed yield, and oil of Dragon’s head under deficit irrigation conditions. The experiment has been conducted as split-plot based on a randomized complete block design with three replications during 2016-2017 and 2017-2018 in the research farm of Agricultural Research and Training Center and Natural Resources of Zanjan Province. Experimental treatments include deficit irrigation (normal or control irrigation, irrigation cut-off from the beginning of flowering to the end of maturity, irrigation cut-off from the beginning of branching (emergence of the sixth pair of main stem leaves to physiological maturity) in main and foliar spraying with Brassinosteroid with concentrations of 0.5, 1.5, 1.5 μM, and control, all applied in the sub plots. Results show that irrigation cut-off from the beginning of branching has decreased in total the chlorophyll content (42.8%), number of capsules per plant (62.7%), number of seed per plant (66.1%), 1000-seed weight (22.3%), biological and seed yield (62.1%), harvest index (30.8%), and oil yield (75.1%). Foliar application with Brassinosteroids has only significantly increased the leaf total chlorophyll concentration and seed oil percentage under different levels of irrigation cut-off stress. There is a statistically significant difference between foliar application levels with Brassinosteroids for leaf total chlorophyll concentration and seed oil percentage traits. There is a need for complementary researches to prove the effectiveness of foliar application with this growth regulator to improve growth and yield of Dragon’s head under deficit irrigation conditions.
mohammad reza malekzadeh shamsabad; Majid Esmaeilizadeh; Hamidreza roosta; fatemeh nazoori
Abstract
In soilless culture, lack of correct management in fertigation causes stress in plants due to restricted root volume and low water holding capacity of substrate. The present study aimed to assess managing the fertigation practice and foliar application of potassium sulfate in soilless culture of strawberry ...
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In soilless culture, lack of correct management in fertigation causes stress in plants due to restricted root volume and low water holding capacity of substrate. The present study aimed to assess managing the fertigation practice and foliar application of potassium sulfate in soilless culture of strawberry cv. paros. A factorial experiment was conducted with two factors including fertigation frequency at three levels (1, 4 and 10 times per day) and foliar application with potassium sulfate at three levels of concentration (0 as control, 1 and 2 g/L). The experiment was carried out based on a complete randomized design with three replications in Vali-e-Asr University of Rafsanjan. Results indicated that increasing the fertigation frequency up to four times a day led to a significant increase in dry weight of shoot and root, number of fruits, concentration of chlorophyll a and b, leaf relative water content and leaf Ca and Mg content. The highest values of leaf area, fruit weight, number of inflorescence as well as potassium and iron content of leaf and root were obtained by 10 times of fertigation per day. Potassium sulfate foliar application with concentration of 1 g/L had the most effect on leaf area as well as shoot, root and fruit dry weight, vegetation index increased in plants treated with 2 g/L potassium sulfate compared with those without any foliar application treatment. The highest content of leaf soluble carbohydrates belonged to the plants treated with once-a-day fertigation and foliar application of 2 g/L potassium sulfate.
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.
Esmaeil Karimi; Ali Tadayyon; Mahmour Reza Tadayyon
Abstract
In order to investigate the effect of different irrigation regimes on yield and leaf proline content of a spring Isfahan local variety of safflower, a field experiment was conducted as split plot in Randomized Complete Block Design with three replications at the Research Station of Shahrekord University ...
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In order to investigate the effect of different irrigation regimes on yield and leaf proline content of a spring Isfahan local variety of safflower, a field experiment was conducted as split plot in Randomized Complete Block Design with three replications at the Research Station of Shahrekord University in 2013-2014. The main factor consisted of four different irrigation regimes (irrigation after 50, 80, 130 and 180 mm evaporation of water from evaporation pan class A) and subplots were spraying humic acid (at a rate of zero, one, three and six liters per hectare). Evaluated traits in this experiment included, the number of heads per plant, 1000 seeds weight, oil content, grain yield, oil yield and leaf proline content. Irrigation treatments and foliar application of humic acid significantly contributed to the above characteristics. Based on means comparisons, less irrigation caused a significant decrease and spraying humic acid also increased significantly number of heads per plant, 1000 seeds weight, grain yield and oil yield. Also, with increased Irrigation and increase application of humic acid, oil content and proline compared to the control group showed a significant increase. In addition, increased irrigation, increase seed oil content from 22.22 percent to 25.43 percent (in irrigation treatment after 180 mm evaporation and application of six lit/ha) has been upgraded. Oil yield also decreased as a result of irrigation after 50 mm evaporation from 394 to 289 kg per hectare after 180 mm evaporation.
Mohammad Moradi Telavat; Zohreh Kazemi; Seyyed Ataollah Siadat
Abstract
A field experiment was carried out to study the yield and physiological responses of rapeseed (Brassica napus L.) to boron application and high temperature stress due to late planting, in Ramin Agriculture and Natural Resources University of Khuzestan at 2013-2014. The experimental design was a split ...
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A field experiment was carried out to study the yield and physiological responses of rapeseed (Brassica napus L.) to boron application and high temperature stress due to late planting, in Ramin Agriculture and Natural Resources University of Khuzestan at 2013-2014. The experimental design was a split plots design in RCBD with four replications. Planting dates (18 November, 3 December, 17 December and 30 December) were placed in main plots and boron application treatments (control, 10 kg B.ha-1 incorporated with soil, boron spraying at 8 leaf stage and budding stages) were placed in sub plots. Planting date had significant effect on relative water content (RWC), cell membrane stability, peroxidase enzyme activity, leaf area index (LAI), canopy’s temperature, grain yield and dry matter. In addition, boron application had significant effect on LAI, peroxidase enzyme activity and yield. Late planting caused to decrease the grain yield and dry matter related to increased canopy’s temperature at flowering stages. Delayed planting from 18 November to 30 December, result in decreased grain yield about 60.5 percent. Boron application incorporated with soil caused to increased grain yield about 23 percent in comparison to control. High temperature stress due to late planting caused to decreased RWC, cell membrane stability and LAI in flowering stage. Generally, highest grain yield (4579.7 kg.ha-1) was obtained from planting at 18 November and 10 kg boron.ha-1 incorporated with soil, and lowest grain yield was obtained from planting at 30 December and without boron application.
Peyman Mohammadzadeh Toutounchi; Reza Amirinia
Abstract
In order to investigate effect of foliar application of some micronutrients on the yield and yield components of fenugreek (Trigonella foenum-graecum L.), an experiment was conducted based on randomized complete block design with eight treatments and three replications at the Research Farm of West Azarbaijan ...
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In order to investigate effect of foliar application of some micronutrients on the yield and yield components of fenugreek (Trigonella foenum-graecum L.), an experiment was conducted based on randomized complete block design with eight treatments and three replications at the Research Farm of West Azarbaijan Agricultural and Natural Resources Research Station in 2012. Treatments were control, iron, zinc, manganese, iron + zinc, iron + manganese, zinc + manganese and iron + zinc + manganese. These elements were supplied from iron sulfate, zinc sulfate and manganese sulfate and were sprayed 3 mg lit-1 concentration. The results showed that there was a statistically significant difference between spraying of micronutrients and control. Maximum plant height (40.68 cm), number of lateral branches (6.76), number of pod per plant (25.73), number of grain per pod (15.36), 1000-grain weight (14.99 gr) and grain yield (857.62 kg.ha-1) were related to spraying of iron + zinc + manganese. It is concluded that foliar application of iron + zinc + manganese improves growth and yield characteristics of fenugreek.
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.
Najmeh Jami; Seyed Mohsen Mousavi Nik; Mahdi Naghizadeh
Abstract
To study the effects of drought stress and foliar application with salicylic acid on yield andit’s components and percentage of essential oil of Nigella sativa L., a field experiment was conducted as split plot based on randomized complete block design with three replications at research farm of ...
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To study the effects of drought stress and foliar application with salicylic acid on yield andit’s components and percentage of essential oil of Nigella sativa L., a field experiment was conducted as split plot based on randomized complete block design with three replications at research farm of Shahid Bahonar University of Kerman during growing season of 2013- 2014. The main factor was drought that included in three levels: no tension (90 percent field capacity), moderate tension (70 percent field capacity) and severe tension (50 percent field capacity). The other factor included four concentrations of salicylic acid: zero (foliar application with distilled water), 5, 10 and 15 Micro molar salicylic acid for foliar application. The results showed that there were significant differences between traits including: the number of grains per plant, 1000 seeds weight, harvest index, essential oil and grain yield with applying drought and salicylic acid. The foliar application with salicylic acid (10 Mm) caused increasing 79.05 percent on the grain yield. The interaction of salicylic acid and drought stress on the number of grains in folicules, the percentage of essential oil and biological yield was significant. The interaction of third level of salicylic acid and moderate drought stress caused increasing 150 percent in essential oil. Therefore to obtain the maximum biological yield, the number of grains in folicules and essential oil percentage on drought condition, we can apply third level of SA (S3 = 10 Mm) and moderate irrigation in black cumin that is economic in arid places.
Samaneh Asadi Sanam; Mohsen Zavareh; Hasan Shokri_Vahed; Parisa Shahinrokhsar
Abstract
A randomized complete block design with three replications was performed in Rice Research Institute of Iran, Rasht in 2008, to find the effect of supplement foliar application of nitrogen and potassium on ’Daylam‘ hybrid rice grain yield, its components and grain protein percentage. Foliar ...
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A randomized complete block design with three replications was performed in Rice Research Institute of Iran, Rasht in 2008, to find the effect of supplement foliar application of nitrogen and potassium on ’Daylam‘ hybrid rice grain yield, its components and grain protein percentage. Foliar application of 20 kg nitrogen (5 percent N) and 15 kg potassium (3 percent K2O) in different pre-anthesis stages was considered as treatments. Foliar application of distilled water was considered as control. Results showed that the grain yield and biological yield were increased in treatments which nitrogen and potassium was applied at pre-anthesis stages compared to control treatment. Foliar fertilization of nitrogen in maximum tillering stage had the highest effect on number of tiller per plant and grain number per panicle. The highest percentages of fertile tillers were related to foliar application of nitrogen at both maximum tillering and booting stages. Foliar application of nitrogen at maximum tillering and booting stage significantly increased grain protein content by 12.1 percent which it was 8.3 percent greater than control treatment. Result also showed that a significant and positive correlation exists between grain yield with biological yield and percentage of panicle fertility. Overall, it was concluded that maximum tillering stage is the best pre-anthesis phonological stage for foliar application of nitrogen and potassium on cv. Daylam hybrid rice.
Fatemeh Salarpour Ghoraba; Hassan Farahbakhsh
Abstract
Recently, application of SA has increased to improve plants resistance to stresses such as drought. Hence, to investigate SA effects on morphophysiological characteristics of Fennel(Foeniculum vulgare Mill.) under drought stress, a split plot experiment based on latin square design with three replications ...
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Recently, application of SA has increased to improve plants resistance to stresses such as drought. Hence, to investigate SA effects on morphophysiological characteristics of Fennel(Foeniculum vulgare Mill.) under drought stress, a split plot experiment based on latin square design with three replications was carried out at research farm of Shahid Bahonar University of Kerman in 2012. Three levels of drought stress (50, 75 and 100% of field capacity) and 3 concentrations of SA (0, 0.5 and 1mM) were considered as main and sub plot respectively. Foliar application of SA was performed at 3 to 4 leaf growth stage and before application of drought stress. The results showed that drought stress reduced plant height, the number and length of internodes on the main stem , grain yield and leaf protein (14.2, 2.4, 31.5, 51 and 23.5 percent respectively) and increased lipid peroxidation, hydrogen peroxide and phenolic compounds(66.6, 10.5 and 14.1 percent) compared to control. With increasing concentrations of salicylic acid, except for a reduction in lipid peroxidation and hydrogen peroxide (31.8 and 13.7 percent) a significant increase was observed in other traits when compared to control. Interaction of drought stress and SA on internode length on the main stem, lipid peroxidation and protein were signified. it was concluded that salicylic acid whit concentration of 1 mM has an effective role in alevieting stress injuries induced by drought.