mona arefkhani; Ali Rahemi Karizaki; َAbbas Biabani; hossein sabouri; ghorbanali rassam
Abstract
Objective: The purpose of this experiment was to study the trend of yield fluctuations and related traits in released wheat cultivars in Iran from 1968 to 2016.Methods: This experiment was conducted with 16 wheat cultivars based on a Randomized Complete Block Design with three replications at Shirvan ...
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Objective: The purpose of this experiment was to study the trend of yield fluctuations and related traits in released wheat cultivars in Iran from 1968 to 2016.Methods: This experiment was conducted with 16 wheat cultivars based on a Randomized Complete Block Design with three replications at Shirvan Higher Education Complex in North Khorasan during the 2018-2019 and 2019-2020 growing seasons.Results: The findings indicated that the Iranian cultivars released do not have significant differences in terms of the number of seeds per spike, plant height, spike length, biological yield and gluten percentage, but grain yield, harvest index, 1000-seeds weight and protein percentage have improved by 61.84, 63.54, 62.37 and 14.4%, respectively, during the last 48 years. Additionally, wheat breeding in Iran has progressed towards single-spike formation. Path analysis showed that the plant height, biological yield, number of fertile tillers/m2 and harvest index explain more than 96% of yield changes and that traits such as the harvest index and number of fertile tillers are considered the most important traits in increasing and decreasing grain yield in Iranian wheat.Conclusion: According to the results of the causality analysis, it can be concluded that the selection for grain yield, based on other traits and without considering the relationships between them, may not provide accurate results. It is necessary to obtain a correct understanding of the role of the relationships between traits in breeding programs to increase selection efficiency.
Ayoub Jafari; MohammadReza Bihamta; Masoumeh Moghbel; Saeid Soufizadeh; Saeed Bazgeer; Mostafa Karimi
Abstract
Objective: To evaluate the effect of planting date on the morphological traits, growth indices and seed corn yield of three varieties, an experiment was carried out in the research farm of University of Tehran in Karaj city in 2019.
Methods: The experiment was conducted as a split-plot design based ...
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Objective: To evaluate the effect of planting date on the morphological traits, growth indices and seed corn yield of three varieties, an experiment was carried out in the research farm of University of Tehran in Karaj city in 2019.
Methods: The experiment was conducted as a split-plot design based on randomized complete blocks with four replications. In this experiment, planting date in 3 levels (May 24, June 21, and July 18) was considered as main plots and variety (early KSC400, medium-early KSC647, and late KSC704) as sub plots.
Results: The results showed the highest yield is related to the second planting date (11.98 ton/Kg-1), and the longest period until the appearance of the the tassel was belonged to the first planting date (63.7 days).
The third (129/7 days), the second (122/3 days) and first planting date (113/3 days) had the longest period of physiological maturity, respectively. Also, KSC704 had the highest plant height and stem diameter, and KSC647 had the highest number of leaves. Also, the maximum leaf area, the growth rate of crop in the flowering stage was related to the cultivar KSC704 on the second and third planting date, respectively, and the maximum relative growth rate and the net absorption rate in the first vegetative stages were related to the cultivar KSC704 on the third planting date and the second planting date.
Conclusion: Overall, the second planting date and KSC704 variety are suggested as the suitable date and variety for Karaj city.
morteza Barmaki; damoon rajabzadeh; Khadijeh Aghaeifard
Abstract
Objective: The present research was conducted in order to investigate the effect of different levels of Magnesium sulfate and Manganese sulfate on yield and some quantitative traits of Potato in Agria cultivar.
Methods: The experiment was conducted as a factorial in the form of a randomized complete ...
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Objective: The present research was conducted in order to investigate the effect of different levels of Magnesium sulfate and Manganese sulfate on yield and some quantitative traits of Potato in Agria cultivar.
Methods: The experiment was conducted as a factorial in the form of a randomized complete block design with three replications during 2018- 2019 growing season in Nir city. The first factor included foliar application of Manganese sulfate at two levels: control and 5 per thousand, and the second factor involved foliar application of Magnesium sulfate at five levels: (control, 1.5, 3, 4.5, and 6 per thousand), used in the stages of early tuberculosis and 50% tuberculosis.
Results: The results of analysis of variance showed that with the exception of the number of stems and the number of uneconomical tubers, the effect of Manganese sulfate on the number of usable tubers at the level of five percent and in the other studied traits was significant at 1% level. The effect of Magnesium sulfate had a significant effect on plant height at 5% level and on other studied traits at 1% level. However, the interaction of experimental treatments was not significant. The highest tuber yield of 44.9 t.ha-1 belonged to foliar application with a concentration of 5 per thousand manganese sulfate. The highest effect of Magnesium sulfate foliar application on the number of usable tubers was 34.4%, compared to the control. On average, foliar application of Magnesium sulfate increased tuber yield by 12.3%, compared to the control treatment.
Conclusion: Considering that in most of the studied traits, foliar application of 5 per thousand Manganese sulfate and 4.5 per thousand Magnesium sulfate showed better results than other treatments, these fertilizer levels can be recommended for this cultivar in this area.
Fatemeh Mirzaei; Mohammad Rafieiolhossaini; Nafiseh Rangzan; Mahdi Amirusefi
Abstract
Objective: Quinoa, with its high nutritional value, is highly resistant to a wide range of non-biological stresses. Despite the limited resources and the increasing demand for food products in lands with low or limited fertility, it can be cultivated well and produces a good product.
Methods: This experiment ...
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Objective: Quinoa, with its high nutritional value, is highly resistant to a wide range of non-biological stresses. Despite the limited resources and the increasing demand for food products in lands with low or limited fertility, it can be cultivated well and produces a good product.
Methods: This experiment was conducted with the aim of investigating the simultaneous effect of drought stress and heavy metals on the quinoa plant, in a factorial format in a completely randomized design with 3 replications. The first component involved two levels of soil (contaminated and uncontaminated), and the second factor, three levels of drought stress (100% of field capacity 60% of field capacity, and 30% of field capacity).
Results: Interaction effect of soil type and drought stress was significant on all traits except the fresh weight of shoot and plant height. The lowest amount of fresh and dry weight of roots, dry weight of shoot and weight of thousand seeds was observed in contaminated soil with severe drought stress. Nevertheless, the weight of 1000 quinoa seeds under the influence of moderate drought stress was not significantly different from the condition without drought stress. Examining the simple effects showed that soil contamination with heavy metals caused a decrease of 13.7% in fresh weight of shoot and 30.5% decrease in dry weight of shoot compared to plants grown in uncontaminated soil.
Conclusion: In general, it can be stated that the increase in drought stress has significantly reduced root fresh weight and 1000 seed weight in quinoa, but the percentage and ratio of this reduction in soil contaminated with heavy metals was much higher than that of non-contaminated soil. According to the results of this research, the cultivation of quinoa can be investigated as a promising plant in soils with similar limitations.
Arefeh Alipour ghasem abad sofla; Ali Nakhzari Moghaddam; Mehdi Mollashahi; Ebrahim Gholamalalipour Alamdari
Abstract
Combining organic and chemical fertilizers is one of the most important ways to achieve sustainable agriculture. In order to investigate the effect of organic fertilizers with chemical fertilizers on yield, yield components, and quality traits of sunflower, a factorial experiment was conducted in a randomized ...
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Combining organic and chemical fertilizers is one of the most important ways to achieve sustainable agriculture. In order to investigate the effect of organic fertilizers with chemical fertilizers on yield, yield components, and quality traits of sunflower, a factorial experiment was conducted in a randomized complete block design with three replications in spring 2018 at Gonbad Kavous University farm research. Cultivar factor included Haysan 25 and Oscar and combination of fertilizer factor included no fertilizer application, 100 kg N/ha, 50 kg N/ha, 50 kg N/ha + 1.5 kg humic acid/ha, 50 kg N/ha + 0.5 kg Vita free/ha, and 50 kg N/ha + 1.5 kg humic acid+ 0.5 kg Vita free/ha. The results showed that the effect of cultivar and fertilizer on most of the measured traits was significant. Oscar cultivar produced higher grain yield, biological yield and oil percent and oil yield than Haysan 25 cultivar. Grain yield, oil yield, biological yield and plant height in 100 kg N/ha treatment was higher than other fertilizer treatments though not significantly different from 50 kg N/ha + 1.5 kg humic acid/ha + 0.5 kg Vita free/ha treatment. Based on the results, in order to achieve the maximum seed and oil yield of sunflower and to prevent excessive use of chemical fertilizers, the combined use of Nitrogen fertilizer, humic acid and vita free is necessary.
Ali Mansouri; Heshmat Omidi; Amir Bostani
Abstract
In order to investigate the possibility of reducing the growth period and increasing the grain yield of different quinoa genotypes, in 2018, a factorial split plot experiment was conducted in a randomized complete block design with three replications in the research farm of Shahed University. The main ...
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In order to investigate the possibility of reducing the growth period and increasing the grain yield of different quinoa genotypes, in 2018, a factorial split plot experiment was conducted in a randomized complete block design with three replications in the research farm of Shahed University. The main factor included three different genotypes of quinoa (Titicaca, Giza 1 and Sajama) and the secondary factors included three models of planting methods (Transplanting, seed Priming with 1000 ppm Boric acid solution, and direct sowing) and boron foliar application at two levels (control and foliar application with 1000 ppm Boric acid solution). The results showed that the effect of genotype was significant on all studied traits. The highest plant height (123.38 cm) and grain yield (2860.228 kg/ha) were obtained in Giza 1 genotype. Also, the shortest period of growth and flowering was related to Titicaca genotype and the longest period was related to Sajama genotype. The effect of planting method on quinoa growth and yield traits was significant and transplanting was more effective than other methods. This method increased the plant height by 48.15% and grain yield by 176.69%, reduced the flowering (34.35%) and ripening period (37.97%). The priming was also able to improve the studied traits compared to the control. Of course, its effectiveness was not as high as transplanting. The effect of boron foliar application on grain yield was significant and increased this trait by 16.7%.
ali naderi arefi
Abstract
In order to investigate the effects of reduced row spacing from usual 75 cm to 25 cm (UNR), an experiment has been conducted in two locations: Davarabad agricultural research station (Semnan Province) and Varamin Central Agricultural Research Station. The experimental design is RCBD laid out in split ...
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In order to investigate the effects of reduced row spacing from usual 75 cm to 25 cm (UNR), an experiment has been conducted in two locations: Davarabad agricultural research station (Semnan Province) and Varamin Central Agricultural Research Station. The experimental design is RCBD laid out in split plots with three replications. The main plots are the planting dates (May 22 and Jun 5, 2020) and five cultivars, i.e. Khorshid, Kashmar, Sajedi, Hekmat, and Khordad serve as the sub plots. The results show that location effect on vegetative and reproductive attributes has been significant. UNR boosts the yield in Aradan, but in Varamin region, this planting method, not only has failed to increase the yield, but has reduced it significantly. This is due to reducing the boll number as a result of rank growth of plants in UNR system. Reduction of row spaces from 75 to 25 cm enhances the number of monopodials, sympodials, and plant height. In Varamin, plant height of all cultivars are higher than 119 cm. the highest yield in this region obtained from Khordad as Control (3886 kg seed ha -1). The highest yield in Aradan, obtained from Khorshid (5702.5 kg seed ha -1) in UNR system. This shows that the UNR planting of zero type varieties is more adabtable for Garmsar condition than that of Varamin.
Afsaneh Soltanzadeh; Ahmad Ghanbari; Esmaeel Seyedabadi; Mahdi Dahmardeh
Abstract
In order to evaluate some morphological and chemical characteristics of quinoa, a split plot experiment has been conducted in a randomized complete block design with three replications during 2019-2020 cropping season, at the Agricultural Research Station of University of Zabol, Iran. Vermicompost at ...
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In order to evaluate some morphological and chemical characteristics of quinoa, a split plot experiment has been conducted in a randomized complete block design with three replications during 2019-2020 cropping season, at the Agricultural Research Station of University of Zabol, Iran. Vermicompost at three levels (0, 5 and 10 ton/ha) has been considered the main factor and chemical fertilizer at four levels (25, 50, 75 and 100%), the sub-factor. The main effect of vermicompost is significant on morphological traits such as plant height, 1000-seed weight, biological yield, grain yield, and harvest index. Interaction of vermicompost and chemical fertilizer is significant on chemical properties, including proteins and photosynthetic pigments. Application of 10 tons of vermicompost per hectare leads to the maximum level of plant height, 1000-seed weight, biological yield, grain yield, and harvest index. Also, the highest amount of photosynthetic proteins and pigments are achieved from combined application of 10 tons/ha of vermicompost and 50% chemical fertilizer (25 kg/ha Urea+ 50 kg/ha triple superphosphate + 50 kg/ha potassium sulfate). Totally, results show the positive effects of vermicompost on the morphological and chemical properties of quinoa. It can be concluded that the combined use of chemical fertilizers and vermicompost can increase the yield of quinoa, while reducing the use of chemical fertilizers and thus reduce the environmental impacts caused by them..
mahlagha kaikha; Mahdi Dahmardeh; issa khammari; ziba soorinezami
Abstract
In order to evaluation of the spraying time and cobult nanoparticle fertilizer using chemical and green chemistry methods on morphophysiological indices of cowpea, this research was conducted in a factorial experiment in a the experiment was conducted Randomized Complete Block Design (RCBD) with three ...
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In order to evaluation of the spraying time and cobult nanoparticle fertilizer using chemical and green chemistry methods on morphophysiological indices of cowpea, this research was conducted in a factorial experiment in a the experiment was conducted Randomized Complete Block Design (RCBD) with three replications in Agricultural Research Institute University of Zabol in 2017.The experimental included 4 levels of treatments: (Cobult nanoparticles of plant origin, chemical origin, plant and chemical composition and control), as the first factor and time of spraying in 2 levels (Step 4 leaf and Step 6 leaf as the second factor). The plant density of cowpea was 20 plants/m2 and irrigation was performed twice a week. The results of analysis of variance showed that the time of foliar application and application of nano particles of chemical and plant origin had a significant effect on all studied traits. Based on the results of average comparison, the highest amount of chlorophyll a (13.25 μg/g leaf), chlorophyll b (7.50 μg/g leaf), carotenoids (3.63 μg/g leaf), as well as plant height (34.84 %), number of pods per plant (28.26%), biological yield (45.64%), economic yield (59.10) compared to control treatment, iron (0.26 ppm) and leaf protein ( (46/14 ppm) was obtained from the six-leaf stage and from the combined application of cobalt nanoparticles with chemical and plant origin. In terms of all the measured traits, it seems that the simultaneous application of cobalt nanoparticles chemically and vegetative, through improving the photosynthetic system, increasing leaf duration and photosynthesis, will lead to increased biological and economic yield.
Hamid Jabbari; Hamid Reza Fanaei; Farnaz Shariati; Hamid Sadeghi Garmarodi; Mohamad Abasali; Amir Hasan Omidi
Abstract
This study evaluates the genetic diversity of 122 safflower genotypes from the institute of plant genetics and crop plant research (IPK) and International Maize and Wheat Improvement Center (CIMMYT). It compares their agronomic characteristics with five Iranian Safflower cultivars. Conducted at research ...
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This study evaluates the genetic diversity of 122 safflower genotypes from the institute of plant genetics and crop plant research (IPK) and International Maize and Wheat Improvement Center (CIMMYT). It compares their agronomic characteristics with five Iranian Safflower cultivars. Conducted at research field of Seed and Plant Improvement Research Institute in Karaj between 2017 and 2018, the experiment uses an Augmented with randomized complete block design. Results indicate high genetic variation in the germplasm. Among safflower genotypes, thirty-six genotypes without thistle, eighty-one genotypes with thorns, and ten genotypes with few thistle have been observed. Principal component analysis helps identifying three main components that account for 56.5% of the total variations. The first and second components account for 29.5% and 15.9% of the total variation, respectively. These are named as a yield components and phenology and plant architecture, respectively. Safflower genotypes are divided into four groups by principal components analysis (PCA). Genotypes in the first groups have the higher grain yield than others. Genotype No. 70 with the highest grain yield (5667 kg.ha-1) is placed in this group. Numerical values of yield components such as 1000-seed weight, number of heads, and number of seeds per plant in the third group stand higher than other groups. Generally, German genotype No. 70 with high yield and genotype No. 45 with early flowering can be used in safflower breeding programs.
Mohammad Khademi; Faezeh Zaefarian; Shahram Nazari; Mohammad Ali Esmaeili
Abstract
To investigate the effect of seed priming on emergence characteristics, root morphological growth, and phenological trends of rice in direct seeding, an experiment has been conducted in Sari Agricultural Sciences and Natural Resources University within 2019. The study is conducted as factorial in a randomized ...
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To investigate the effect of seed priming on emergence characteristics, root morphological growth, and phenological trends of rice in direct seeding, an experiment has been conducted in Sari Agricultural Sciences and Natural Resources University within 2019. The study is conducted as factorial in a randomized complete block design with three replications. The factors include Tarom Hashemi and Shiroudi cultivars and priming at five levels, namely hydropriming (for 48 hours), calcium chloride, and potassium chloride priming (Ψs -1.25 MPa), ascorbate acid (10 mg l-1), and control (no priming). The effect of priming on emergence percentage shows that the highest amount of this trait belongs to 90% in priming with calcium chloride, which is not significantly different from priming with potassium chloride and water. The rate of emergence of priming with calcium chloride, potassium chloride, and water has increased by 50%, 36%, and 29%, respectively. Results show that priming with calcium chloride, potassium chloride, ascorbate acid, and water has increased by 55%, 50%, 33%, and 38% of the plant height and by 48%, 29%, 12%, and 25% of plant dry weight, respectively. In Shiroudi and Tarom Hashemi cultivars, the time required for the onset of tillering has been 27.40 and 24.53 days; panicle appearance, 90.4 and 53.87 days; flowering, 100.53 and 70.87 days; and maturity 132.26 and 94.61 days, respectively. The least time required for panicle appearance and flowering is observed in priming with calcium chloride, although this has not been significantly different from other priming, and decreased by 11.17 and 7.5 days to the control, respectively.
nazpare shohlibor rodgazi; Mehdi Dahmardeh; issa khammari; ziba sorinezami
Abstract
In order to evaluate the effect of soluble time and molybdenum nanoparticles by chemical and green chemistry on morph-physiological indices of mung bean, the present research has been conducted in a factorial experiment, in Randomized Complete Block Design (RCBD) with three replications at Agricultural ...
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In order to evaluate the effect of soluble time and molybdenum nanoparticles by chemical and green chemistry on morph-physiological indices of mung bean, the present research has been conducted in a factorial experiment, in Randomized Complete Block Design (RCBD) with three replications at Agricultural Research Institute University of Zabol in 2017. The experiment includes 4 levels of treatments: (Molybdenum nanoparticles of plant origin, chemical origin, plant and chemical composition, and control), as the primary factor and spraying time in 2 levels (Step 4 leaf and Step 6 leaf) as the secondary one. The plant density of mung bean has been 33 plants/m2 with the irrigation being performed twice a week. The maximum plant height (47.5 cm), biological yield (5287 kg ha-1), economic yield (634kg ha-1), number of seeds in pod (8), carotenoid, and chlorophyll a and b occur from Step 4-6 and the application of mixed molybdenum nanoparticles. Results from the experiment show that the highest seed protein (40%) has been obtained from plant nanoparticles as well as the 4-leaf stage. Micronutrient can be an effective management solution for production of agricultural products. The results also show that the application of chemical and vegetable molybdenum nanoparticles at 6- leaf stage increase mung bean traits.
Mehdi Ghiasy-Oskoee; Majid Aghaalikhani; Fatemeh Sefidkon; Ali Mokhtassi-Bidgoli; Mahdi Ayyari
Abstract
In order to study the effect of N rate and plant density on grain yield and N use efficiency of blessed thistle, a field study was carried out in a randomized complete block design with factorial arrangement of treatments in three replications at Research Field of Tarbiat Modares ...
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In order to study the effect of N rate and plant density on grain yield and N use efficiency of blessed thistle, a field study was carried out in a randomized complete block design with factorial arrangement of treatments in three replications at Research Field of Tarbiat Modares University in 2013 and 2014 growing seasons. Treatments comprised of four pure N rates (0, 50, 100 and 150 kg N ha-1) from urea source and five plant densities (5, 10, 15, 20 and 25 plants m-2). The main effects of nitrogen and plant density were significant for grain yield, NUE, plant height, SPAD value, root to shoot weight ratio and N content of grain. Increasing N rates increased grain yield, SPAD value, plant height and grain N, but agronomic efficiency, N recovery and utilization were decreased by increasing of N rate; Higher densities resulted in decreased grain yield and chlorophyll index, while improved NUE throughout increment of root to shoot weight ratio and plant height. Novel findings of this study could be used for N management.
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).
Zahra Rezaei; Mohammad Rafieolhosseini; Abdolrahman Mohammadkhani
Abstract
In order to evaluate the effect of manure and super absorbent polymer on some morphological characteristics and fennel (Foeniculum vulgar Mill) essential oil production under drought stress conditions, an experiment was conducted as spilt-plot in a randomized complete block design with three replications ...
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In order to evaluate the effect of manure and super absorbent polymer on some morphological characteristics and fennel (Foeniculum vulgar Mill) essential oil production under drought stress conditions, an experiment was conducted as spilt-plot in a randomized complete block design with three replications at University of Shahrekord in 2015. The main factor was different levels of drought stress including three levels of control (50 mm), moderate stress (100 mm) and severe stress (150 mm) evaporation from class. A pan and sub-factor was considered different ratios of animal manure and super absorbent polymer in six levels (D1: lack of manure and super absorbent polymer, D2: 25% manure + 75% super absorbent polymer, D3: 50% manure + 50% super absorbent polymer, D4: 75% manure + 25% super absorbent polymer, D5: 100% manure (40 t.ha-1) and D6: 100% super absorbent polymer (200 Kg.ha1)). The results showed that the maximum number of umbel, grain yield (146.66 g/m2), harvest index and essential oil yield (2.99 g/m2) from control treatment and D6, the maximum number of lateral branch, floret and plant dry weight (165.62 g/m2) from control treatment and D4 and the maximum thousand seed weight and plant fresh weight, from control treatment and D3 and D2 were obtained, respectively. The maximum essential oil percentage (3.09) was obtained from severe stress and D5 treatment. The maximum plant height and number of main branch was obtained from D6 and D4 treatments, respectively and under control conditions. Since the superabsorbent polymer while reducing the effects of drought, increased grain yield, harvest index and oil yield of fennel, thus, control treatment with 100% super absorbent polymer consumption can be offered to maximize grain and essential oil yield under the same conditions.
Shahram Lak; Gholam Reza Abadouz; Zahra Nekoeianfar
Abstract
To assessment Alfalfa cultivars research project this research has been fulfilled in 2011 at Khouzestan Agricultural and Natural Resource Research Center in southwest of Ahwaz in Khouzestan province (Iran) by position 31º20′ N, 48º40′ E. At first section for evaluation wet forage ...
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To assessment Alfalfa cultivars research project this research has been fulfilled in 2011 at Khouzestan Agricultural and Natural Resource Research Center in southwest of Ahwaz in Khouzestan province (Iran) by position 31º20′ N, 48º40′ E. At first section for evaluation wet forage yield cultivars such as “Baghdadi”, “Mesasersa”, “Yazdi”, “Bami”, “Nikshahri”, “Synthetic” (Main factor) and two cutting time (Sub factor) according harvest time in four experiment by statistical plane of split plot based randomized complete block design in four replication was conducted. In summer cutting cultivar at 5% flowering stage, autumn cutting at 6-8 cm height of crown buds, winter cutting at 10-12 cm height of crown buds and spring cutting cultivars harvested at 15% flowering stage. Second section was conducted according statistical plane was mentioned expect sub factor include four level. Result showed Baghdadi, Mesasersa and Synthetic were superior to another cultivars and harvest time on forage yield and also interaction effect of factors on all traits expect stem diameter and number of stem in square meter were significant at 1% probability level. Because of climate factors in summer and spring cutting 25-30 day was best period for growing season. In autumn and winter cutting according low flowering it possible use growing degree days and period of received sunshine hours, their values in order 300-350 and 400-450 hours (Enough time), as well as Baghdadi, Mesasersa and Synthetic cultivars were superior in all cutting.
Esmail Ghorbanpour; Farshid Ghaderifar; Javid Gherekhloo
Abstract
To evaluate the competition effect of velvetleaf on cotton, an experiment was conducted in a completelyrandomized block design with split plot arrangement of treatments with three replications at ExperimentalStation of Gorgan University of Agricultural Sciences and Natural Resources during 2011 growingseason. ...
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To evaluate the competition effect of velvetleaf on cotton, an experiment was conducted in a completelyrandomized block design with split plot arrangement of treatments with three replications at ExperimentalStation of Gorgan University of Agricultural Sciences and Natural Resources during 2011 growingseason. The treatments were three row spacing (20, 40 and 80cm) of cotton (as main plot) and fivedensities (0 (control), 1, 3, 5 and 12 plant per m-2) of velvetleaf (as subplot). The highest cotton height(129.4 cm) was obtained in 80 cm cotton row spacing and weed free condition. Also, maximum cottondry matter (863.8 g m-2) and leaf area index (9.04) was achieved in the plot of 20cm cotton row spacingand weed free condition. Results indicated that row spacing had no significant effect on cotton yieldunder weed free condition. The highest yield (4986.73 kg ha-1) was obtained in 40 cm cotton row spacingand weed free condition. However, results showed that in ultra narrow row, increasing the plant densitylead to increase of the crop ability to resource using in compared with weed and have producedsustainable yield in competition with over weed density in compared with conventional row.