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.
Saeid Hazrati; Amir Reza Sadeghi-Bakhtvari; Davood Kiani
Abstract
The present study aims at evaluating the effects of leaf foliar of growth regulators and nitrogen on growth parameters and yield of spring safflower. To do so it has carried out a research at East Azerbaijan Agricultural Research Center as a factorial experiment based on RCBD (Randomized Complete Block ...
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The present study aims at evaluating the effects of leaf foliar of growth regulators and nitrogen on growth parameters and yield of spring safflower. To do so it has carried out a research at East Azerbaijan Agricultural Research Center as a factorial experiment based on RCBD (Randomized Complete Block Design) with three replications. The factors include growth regulators in four levels, namely auxin, cytokinin, auxin + cytokinin (wherein the treatment’s concentration has been 1000 mg/L), and control (no use of growth regulator, whatsoever), foliar application of nitrogen (3 and 6 per thousand), and two springcultivars (Soffe and Goldasht). Results show taller plants (17%) and greater number of heads per plant (39%), seeds per head (9%), and lateral stems (37%) for Soffeh cultivar, compared to Goldasht variety. On the other hand, Goldasht cultivar provides the maximum head diameter (15%) and 1000 seed weight (47%), in comparison to Soffeh cultivar. The maximum grain yield is observed for Soffeh cultivar with auxin growth regulator and a concentration of three per thousand foliar application of nitrogen (3205 kg ha -1),displaying no significant difference from either the control or the application of three per thousand foliar of nitrogen (3120 kg ha-1). The application of growth regulators has changed the fatty acid composition. The application of auxin + cytokinin as the growth regulator with a concentration of three and six per thousand foliar of nitrogen increase the oleic, palmitic, and linolenic acids. However, the use of auxin and cytokinin separately increase linoleic and stearic acids among the fatty acids, compared to the control, which is higher in Soffeh cultivar than Goldasht. In general, Soffeh cultivar shows higher growth and yield, compared to Goldasht cultivar, indicating the positive effect in foliar application of hormones and nitrogen for the latter.
Mahdi Motaefi; Alireza Sirousmehr; Mohsen Mohsen Mousavi nik
Abstract
Drought stress is the most important factor in crop yield reduction. It is important to know how to cope with drought. This experiment is carried out to investigate the effect of organic growth stimulator (Hamoon green) on yield and some physiological indices of safflower under drought stress, during ...
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Drought stress is the most important factor in crop yield reduction. It is important to know how to cope with drought. This experiment is carried out to investigate the effect of organic growth stimulator (Hamoon green) on yield and some physiological indices of safflower under drought stress, during 2017-2018 in university of Zabol (Chahnime) as a split plot, based on RCBD with three replications. Experimental treatments include drought factor based on plant growth stages at three levels (complete irrigation throughout the growing season, irrigation up to terminal bud forms, and irrigation up to completed flowering) and spraying factor of organic growth stimulator at 4 levels (pure water), the foliar application has been Hamoon green 1 liter in 10 liters + calcium, Hamoon green 1 liter in 20 liters + calcium and Hamoon green 1 liter in 30 liters+ calcium. Results show that drought has reduced the height, 1000-seed weight, and oil percentage, by 44.41%, 31.24%, and 17.10%, respectively. Spraying hamoon green 1 liter in 10 liters+ calcium leads to an increase of 18.03%, 13.90%, and 13.74% for the above traits, compared to the control. The highest grain yield (1882.55 kg.ha-1), chlorophyll a, b, total and carotenoids (3.49, 0.94, 4.44, and 7.37 mg.gr-1 fw, respectively), selenium content (5.18 mg.kg-1 fw) and seed calcium content (2.91%) are obtained from hamoon green 1 liter in 10 liter + calcium and complete irrigation treatment. In general, it seems that by spraying 1 liter per 10 liters+ calcium, a good performance can be achieved.
Seyed Mojtaba Mosavi; Ehsan Bijanzadeh; Zahra Zinati; Vahid Barati
Abstract
In order to investigate the effect under late season cutting off irrigation on biochemical properties and yield of safflower cultivars a split factorial experiment in a randomized complete block design was conducted in three replicates at College of Agriculture and Natural resources of Darab, Shiraz ...
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In order to investigate the effect under late season cutting off irrigation on biochemical properties and yield of safflower cultivars a split factorial experiment in a randomized complete block design was conducted in three replicates at College of Agriculture and Natural resources of Darab, Shiraz University during 2017-2018 growing season. The main factor was irrigation regime in three levels included of normal irrigation, cutting off irrigation in the middle of the flowering, and in the early seed filling stages and sub factor was safflower cultivars including Padideh, Goldasht, Faraman and Isfahan local. Cutting off irrigation in flowering stage decreased 30.37% of chlorophyll a and 25.8% of chlorophyll b, and increased 15.38% carotenoid, 23.38% of catalase activity and 34.94 % of peroxidase activity, which in Goldasht cultivar was more than the other cultivars. Under cutting off irrigation at flowering and seed filling, the highest seed yield was obtained in Goldasht cultivar as 132 and 150.5 g/m2, respectively. Overall, cutting of irrigation at flowering and seed filling stages reduced grain yield by 32.3 and 19.93%, respectively. Under cutting off irrigating, seed yield with chlorophyll a content (r=0.77**), chlorophyll b (r=0.86**), carotenoid (r=0.74**), catalase (r=0.71**), peroxidase (r=0.72**), and harvest index (r=0.83**) had positive and significant correlation. In addition, Goldasht cultivar of safflower could by increasing photosynthetic pigments and enzyme activity under water deficit in late season obtained the more seed yield compared to other cultivars.
Mokhtar Ghobadi; Hossein Salahi; Mohammad Eghbal Ghobadi; Siroos Mansoorifar
Abstract
In order to study the responses of grain yield of chickpea to drought stress and application methods of nitrogen fertilizer, an experiment carried out as split-plot at Campus of Agriculture and Natural Resources, Razi University, Kermanshah, Iran, during 2009-10 and 2010-11. The supplementary irrigation ...
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In order to study the responses of grain yield of chickpea to drought stress and application methods of nitrogen fertilizer, an experiment carried out as split-plot at Campus of Agriculture and Natural Resources, Razi University, Kermanshah, Iran, during 2009-10 and 2010-11. The supplementary irrigation at three levels (1. without irrigation, 2. one irrigation at flowering, 3. two irrigations at flowering and podding stages) as main-plot and the combination of different amounts and application methods of nitrogen fertilizer were as sub-plots. The results showed that grain yield was increased significantly due to increasing of the number of grains per plant and 100-grain weight in response to supplementary irrigation treatments. There was no significant difference in grain yield between one and two supplementary irrigation treatments with 1646 and 1728 kg/ha, respectively. Methods of nitrogen application had significant effects on grain yield and some yield components, but had not effect of 100-grain weight. Foliar spraying accompanied by soil application of N increased significantly grain yield. Finally, to get high grain yield in chickpea we recommend supplementary irrigation at flowering stage and also usage of both nitrogen application methods (soil application + foliar spraying).
Nikrooz Bagheri; Maryam Rahimi Jahangirlou; Mehyar Jaberi Aghdam
Abstract
Objective: In order to present a new, non-destructive, accurate, and fast method for estimating the nitrogen content of corn, Unmanned Aerial Vehicle (UAV) multispectral sensing technology was used.
Methods: The experiments were performed based on a randomized complete block design in four levels of ...
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Objective: In order to present a new, non-destructive, accurate, and fast method for estimating the nitrogen content of corn, Unmanned Aerial Vehicle (UAV) multispectral sensing technology was used.
Methods: The experiments were performed based on a randomized complete block design in four levels of nitrogen fertilizer (zero, 50, 100, and 150%) in Varamin in 2018. Sampling was carried out in two stages of fertilization (8-leaf Stage and Tasseling Stage). Multispectral aerial imaging and ground sampling was performed one week after each fertilizer application. After processing aerial imagery, vegetation indices were calculated and their correlation with the results of ground sampling was determined.
Results: Based on the results obtained from the correlation coefficients (r) and best subsets regression, among the spectral vegetation indices, Normalized Difference Vegetation Index (NDVI), Nitrogen Reflectance Index (NIR), and Modified Triangular Vegetation Index2 (MTVI2) indices in both eight leaf collar (V8) and tasseling (VT) of maize growth stage was identified as the best indicator to estimate the nitrogen content of forage maize. At VT, a positive and significant relationship was obtained between NDVI (R2= 0.86, P≤0.001), NRI (R2= 0.70, P≤0.001) and MTVI2 (R2= 0.46, P≤0.01) indices with maize nitrogen content.
Conclusion: It can be concluded that UAV multispectral imaging provides acceptable accuracy in determining the nitrogen content of maize. This technology can help farmers to determine the appropriate time of fertilization.
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.
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.
Masoumeh Naeemi; Gholam Ali Akbari; Amir Hosein Shirani Rad; Tahere Hasanloo; Gholam Abbas Akbari; Mahdieh Amirinejad
Abstract
In order to evaluate the effect of zeolite application and selenium spraying on some physiological traits and grain yield in medicinal pumpkin (Cucurbita pepo L.) under different moisture regimes, a study was conducted in a factorial experiment based on randomized complete block design with three replications ...
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In order to evaluate the effect of zeolite application and selenium spraying on some physiological traits and grain yield in medicinal pumpkin (Cucurbita pepo L.) under different moisture regimes, a study was conducted in a factorial experiment based on randomized complete block design with three replications during 2010 in Takestan at Gazvin province, Iran. The three levels of irrigation factors including normal irrigation based on 60mm evaporation from class A pan (control), withhold irrigation at the flowering and fruit formation stages, zeolite factors including two levels of non-application and use of 10 tons per hectare and selenium was sprayed at two concentration in zero and 30 grams per liter per hectare. The results showed that water deficit stress decreased stomatal conductivity, carotenoid content, chlorophyll a, total chlorophyll, grain yield and increased proline concentration and chlorophyll b content. Zeolite application of 10 tons per hectare under water deficit stress conditions had desirable effect on chlorophyll a and chlorophyll b content and grain yield, also improved traits as stomatal conductivity and reduced proline concentration. The highest grain yield (1329 kg.ha-1) was obtained with zeolite and selenium application together at normal irrigation conditions. According to the results, it seems that application of zeoilite and selenium in areas that are subjected to water deficit stress can be useful in improving plant growth and production.
Roghie Bamshad; Mahmoud Ramroudi; Mohammad Asgharipour
Abstract
In order to investigate the effects Azoto of irrigation cutting and chemical and biological fertilizers, Azoto Barvar 1 and phosphate Barvar 2 on grain yield, essential oil and biochemical properties cumin, an experiment was conducted as split plot based on a randomized complete block design with three ...
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In order to investigate the effects Azoto of irrigation cutting and chemical and biological fertilizers, Azoto Barvar 1 and phosphate Barvar 2 on grain yield, essential oil and biochemical properties cumin, an experiment was conducted as split plot based on a randomized complete block design with three replications at the University of Zabol Research Farm during 2016. Main plots included four levels of irrigation cutting; conventional irrigation, irrigation cutting in between stem elongation to flowering, irrigation cutting in between flowering to beginning of the grain filling period and irrigation cutting in between beginning to end of grain filling period. The subplot was the different type of phosphorous fertilizer including control (no fertilizer application), Azoto Barvar 1 and Phosphate Barvar 2 and triple superphosphate. Results indicated that the interaction of irrigation cutting and phosphorous fertilizer was significant on seed yield, oil percentage, carbohydrates, proline, total protein, absorption of nitrogen, phosphorous and potassium. The greatest seed yield, oil percentage, total protein, nitrogen, potassium and phosphorus obtained at conventional irrigation along with the application of Azoto Barvar 1, while the greatest proline was achieved at irrigation cutting between beginnings to the end of grain filling period along with the application of triple superphosphate. The greatest carbohydrate was observed at irrigation cutting between beginnings to the end of the grain filling period along with the application of Phosphate Barvar 2. In conclusion, results indicated positive effects of biofertilizers on the improvement of nutritional conditions of plants under irrigation cutting conditions
Mojdeh Sadat Khayat Moghadam; Ahmad Gholami; Amir Hossein Shirani rad; Mahdi BaradaranFiroozabadi; Hamid Abbasdokht
Abstract
In order to study the effects of late-season drought stress and foliar application of potassium silicate on yield and yield components of spring genotypes of canola, a factorial split-plot experiment is conducted in Karaj, Iran in a randomized complete block configuration with three replications for ...
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In order to study the effects of late-season drought stress and foliar application of potassium silicate on yield and yield components of spring genotypes of canola, a factorial split-plot experiment is conducted in Karaj, Iran in a randomized complete block configuration with three replications for two years of cultivation (2016-2018). The irrigation is performed at two levels in this study, including routine irrigation (control) and interruption of irrigation from the pod formation stage. Potassium silicate foliar application at two levels is comprised of 0 and 4 g liter-1 in factorial status in main plots and five Brassica napus L. genotypes including OG×AL, RGS×SLM, DALGAN, RGS003 and RGS×Okapi in subplots. The results show that the measured properties are affected by the applied treatments. Full irrigation with foliar application in OG×AL genotype results in highest seed yield (5620 Kg/ha) and total chlorophyll content (1.71 mg/g.FW) increase stomatal resistance, leaf proline, leaf soluble and carbohydrates, decreasing total chlorophyll content and relative leaf water content. Under drought stress conditions, DALGAN and RGS× SLM genotypes have higher yield, which indicates its better performance under stress conditions. Finally, our research demonstrates Potassium Silicate's beneficial effects in improving the drought tolerance of canola plants, particularly at the end of the season. Our study will act as a foundation for any attempt in new approaches to mitigate drought damage, establishing a functional connection between the position of potassium silicate, physiological response, and drought stress tolerance in canola plants.
Farhad Azizi; Ali Mahrokh; Vida Ghotbi; Farid Golzardi; Seyed Mohammad Ali Mofidian; Mohammad Zamanian; Vahid Rahjoo; Masoud Torabi; Elias Soltani
Abstract
To identify the limiting factors in forage maize production in Iran, this study has been carried out in order to separate the effective and influential management factors in forage maize production in the country with data. It is obtained from 43 final reports or their derived extracted articles in Agricultural ...
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To identify the limiting factors in forage maize production in Iran, this study has been carried out in order to separate the effective and influential management factors in forage maize production in the country with data. It is obtained from 43 final reports or their derived extracted articles in Agricultural Research, Education and Extension Organization (AREEO) with meta-analysis method. According to the results, plant density (5.65%), drought stress (-13.44%), cultivar (0.31%), planting date (2.54%), and nitrogen fertilizer (24%) justify the amount of forage maize variation. Based on the results of this study, forage yield has increased by about 9.49%, increasing plant density between 80 to 100 thousand plants per hectare. Maize forage yield has decreased significantly under mild stress, severe stress, and very severe drought stress by 25.30%, 14.38% and 8.99%, respectively. Also, for different cultivars and different groups of maturity, group-700 has had a significant increase of 3.83% compared to other groups. For the planting dates of forage maize compared to the control, which is the first half of June, a decrease in forage yield is observed. Finally, the highest percentage of increase in maize forage yield has been obtained from the use of 450 kg ha-1 of urea fertilizer. Overall, nitrogen fertilizer, drought stress, and planting density are recognized as the most important factors affecting corn forage yield in Iran, respectively.
Sara Ghanbari; Mohammad Moradi Telavat; Seyyed Ataollah Siadat
Abstract
In order to determinate the optimum combination of barley with fenugreek in intercropping under cow manure levels, an experiment was conducted as split plot based on a randomized complete blocks design with three replications at the research farm of Ramin Agriculture and Natural Resources University ...
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In order to determinate the optimum combination of barley with fenugreek in intercropping under cow manure levels, an experiment was conducted as split plot based on a randomized complete blocks design with three replications at the research farm of Ramin Agriculture and Natural Resources University of Khouzestan during growing season of 2014-15. In this study, four manure levels (0, 12, 24 and 36 t.ha-1) were placed in the main plots, and eight levels of replacing and increasing ratios of intercropped cultures including 75% barley + 25% fenugreek, 50% barley + 50% fenugreek, 25% barley + 75% fenugreek, 100% barley + 16.6% fenugreek, 100% barley + 33.3% fenugreek, 100% barley + 50% fenugreek and pure cultures of both plant were placed in sub-plots. The results showed that the highest barley dry forage yield (2850 kg.h-1) was obtained from treatment of Sole barley by application of 36 ton.ha-1 manure, also the highest fenugreek dry forage yield (1633.33 kg.h-1) was obtained from treatment of Sole fenugreek by application of 24 ton.ha-1 manure. According to the highest System Productivity Index (SPI = 2933.29) from two treatment of 100% barley + 50% fenugreek and 100% barley + 33.3% fenugreek by application 36 ton.ha-1 manure, An increase of culture at 36 ton.ha-1 of manure was the best composition in the present experiment. Also the Land equivalent ratio and aggressivity index was obtained in increasing ratios of intercropped cultures and with application of 36 ton.ha-1 manure more than one. Therefore, in this study, barley and fenugreek were introduced two species compatible combinations of intercropping.
Fatemeh Zamani; Reza Amirnia; Esmaeil Rezaei-chiyaneh; Amir Rahimi
Abstract
In order to investigate the effect of biofertilizers on the seed yield and chemical composition of essential oil of fennel (Foeniculum vulgare L.), a field experiment was conducted as factorial based on randomized complete block design with three replications and twelve treatments at the Research Farm ...
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In order to investigate the effect of biofertilizers on the seed yield and chemical composition of essential oil of fennel (Foeniculum vulgare L.), a field experiment was conducted as factorial based on randomized complete block design with three replications and twelve treatments at the Research Farm of the Faculty of Agriculture, University of urmia, Iran during growing season of 2015-2016. The first factor included of three Landraces (Urmia, Hamdan and Germany) and second factor included of four biofertilizers as: complete biofertilizers (consumption of nitrogen, phosphorus, potassium and sulfur supplier bacteria), mycorrhizal fungi (Glomus intraradices), integrated Bacterial biofertilizers with mycorrhizal fungi and control treatment. Results indicated that application of biofertilizers enhanced the seed yield, colonization percentage, nutrients absorption, essential oil content, essential oil yield and essential oil composition. Among treatments, combined usage of biofertilizers showed that great increasing in studied traits than individual consumption. Also, The effect of landrace on all studied quantitative and qualitative traits was significant except for seed nitrogen. Seed yield of the German landrace were higher than Hamedan and Urmia landrace. The main components of the essential oils fennel were; Anethol, Fenchone, Limonene and p-Allylanisole. The highest amount of anethole was found in Urmia landrace in inoculated with mycorrhiza and bacterial biofertilizer. In general, the results showed that the use of biofertilizers had a significant effect on the improvement of quality and quantity of fennel traits.
Mohsen Saeidi; Mandana Ajand
Abstract
In this study the effects of source limitation on grain yield of twelve barley cultivars (‘Aras’,‘Jonub’,‘Reihan’,‘Zarjou’,‘Sararoud’,‘Sahra’,‘Fajr30’,‘Karoun’,‘Gorgan’,‘Makouei ’and ...
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In this study the effects of source limitation on grain yield of twelve barley cultivars (‘Aras’,‘Jonub’,‘Reihan’,‘Zarjou’,‘Sararoud’,‘Sahra’,‘Fajr30’,‘Karoun’,‘Gorgan’,‘Makouei ’and ‘Nosrat(’ under post anthesis water deficiency were studied. Source limitation treatments were included that control, removing of awn, leaves below flag leaf, flag leaf and spike photosynthesis. All source limitation treatments significantly reduced grain yield, 1000 grain weight and number of grains per spike. In non-water stress, the highest reduction of grain yield was seen in removing of leaves below flag leaf treatment (27.6%). In water deficiency, the highest and the lowest grain yield reduction were seen in removing of spike photosynthesis (32%) and removing of awn (18.1%). Flag leaf removing significantly increased photosynthesis rate in remaining leaves in non-water stress (28.8%) and water deficiency (10.8%). The evidence from this study suggests that under water deficiency after anthesis, spike photosynthesis is more important than the other current photosynthesis organs in grain yield formation in barley.
Javad Taie; Ebrahim Amiri; Ahmad Aien; Naser Boroumand; Mehrangiz Jokar
Abstract
Crop Simulation Models are advanced tools to estimate crop yield and optimizing of crop management practices. This study was conducted in order to evaluate DSSAT model under autumn cropping system condition in Jiroft, Iran, 2012-2014. The field experiment which repeated in two sequential years and three ...
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Crop Simulation Models are advanced tools to estimate crop yield and optimizing of crop management practices. This study was conducted in order to evaluate DSSAT model under autumn cropping system condition in Jiroft, Iran, 2012-2014. The field experiment which repeated in two sequential years and three replications were performed as randomized complete block design in split plots. The main factor was planting date (17th, 23th, 29th September and 5th October) and its subfactor was potato cultivars (Sante, Satina and Boren). Data of first and second years of field experiment was applied respectively for calibration and evaluation of model. Data-base requirement for model was created from 1. climatic data includes: temperature, radiation, relative humidity, wind and precipitation; 2. crop data attained from field experiment, 3. soil data. Results of statistical evaluation of model showed the good fitness of simulated and actual yield performance. Simulated tuber yields were similar to their observed value with RMSE of 19% (1210 kg/ha) and high correlation between observed and simulated tuber yield (R2>0.9). Simulated biomass had 2673.5 kg/ha difference to its observed value that showed low estimation precision (RMSE>30%). This model couldn’t predict tuber initiation stage correctly (RMSE>30%). Therefore, it was concluded that DSSAT model predicted potato yield correctly but due to weak precision in estimation of phenological stage, had low assurance for use in autumn cropping system of potato under autumn cropping system in Jiroft region.
Farshid Hassani; Ahmad Asgharzadeh; Mohammadreza Ardakani; Aidin Hamidi
Abstract
This research was conducted to study the effect of PGPR (Plant Growth Promoting Rhizobacteria) on mini-tuber yield and absorption of nutrients in the greenhouse ofSeed and Plant Certification and Registration Research Institute in 2012. Minituber derived from tissue culture of two potato cultivars (‘Agria’ ...
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This research was conducted to study the effect of PGPR (Plant Growth Promoting Rhizobacteria) on mini-tuber yield and absorption of nutrients in the greenhouse ofSeed and Plant Certification and Registration Research Institute in 2012. Minituber derived from tissue culture of two potato cultivars (‘Agria’ and ‘Sante’) which were inoculated with 116 and 173 strains of Pseudomonas and two species of Bacillus (B. megaterium and B. Subtilis) all along with control treatments as separately and in mixture with each other. A pot experiment was conducted using factorial based on randomized complete design with four replications. After tuber-filling stage nutrient elements percentage was assayed. After harvesting, minitubers were separated and total yield in standard size was determined. Inoculation of PGPRs had a significant effect on yield and nutrient elements. The rate of absorption of nutrients and minituber production of two varieties showed a significant difference. Mean Comparison of traits showed that dual inoculation of two types of bacterial treatments had the most influence on the absorption of nutrients as well as the number minituber in standard size compared to the control (non-inoculated).‘Sante’ cultivarproduced the highest number of minituber compared with cv. ‘Agria’.According to the results, dual and separate inoculation of potatoes with PGPR not only intensify the synergy effects through growth and developments of roots, but also increase the nutrients absorption which cause enhancement of the tuberization and yield.
Madineh Bijani; Saeid Soufizadeh; Amir Hossein Shirani rad; Hamid Jabbari
Abstract
Objective: Available water for irrigation of canola decreases towards the end of the season, due to reduced rainfall and the simultaneous late-season irrigation for other spring crops. Therefore, the possibility of the plant facing drought stress in the final stages of growth is very likely. So, it is ...
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Objective: Available water for irrigation of canola decreases towards the end of the season, due to reduced rainfall and the simultaneous late-season irrigation for other spring crops. Therefore, the possibility of the plant facing drought stress in the final stages of growth is very likely. So, it is very important to select drought-tolerant genotypes in arid and semi-arid regions.
Methods: Therefore, to investigate oilseed rape cultivars under Late-season drought stress, a split-plot experiment was conducted in a complete randomized blocks design with four replications for two cultivation years (2017–2019) in Karaj agricultural research station. Treatments included three drought stress (full irrigation, withholding irrigation from the pod formation stage, and flowering stage) as main plots and five oilseed rape cultivars (Sarigol, RGS003, Hayola 401, Zafar, and Dalgan) as sub-plots.
Results: The results revealed that drought stress, especially from withholding irrigation from the flowering stage led to a significant decrease in 1000-seed weight, number of silique per plant, number of seeds per silique, seed yield, oil percentage, oil yield, length of the growing duration, water use efficiency. Under full irrigation, Delgan and Zafar cultivars, and under drought stress, RGS 003 and Delgan cultivars had the highest seed yield.
Conclusion: RGS 003 and Delgan cultivars can be recommended as suitable cultivars in late season drought stress conditions in Karaj.
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.
Roya Mousavi; Vida Chalavi; Kamran Ghasemi; Mehdi Hadadinejad
Abstract
To investigate the effect of nitroxin and vermicompost on the qualitative and functional characteristics of blackberry, a factorial experiment was conducted in a completely randomized design with four replications in pots. The first factor was the percentage of vermicompost at five levels (0, 10, 20, ...
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To investigate the effect of nitroxin and vermicompost on the qualitative and functional characteristics of blackberry, a factorial experiment was conducted in a completely randomized design with four replications in pots. The first factor was the percentage of vermicompost at five levels (0, 10, 20, 30 and 40) and the second factor was the level of inoculation and non-inoculation with nitroxin (Ni). The results showed that the treatments had a significant effect on the studied traits. The highest fruit weight, number of fruits, and yield was observed in 20% vermicompost. Maximum fruit length (1.62 cm) obtained in 10% vermicompost and nitroxin inoculation. The highest fruit diameter was obtained in 30% vermicompost. Also, in biochemical parameters, the application of 10% vermicompost produced the most soluble solids and flavor index. The highest amount of anthocyanin at 551 and 563 (mg/L fruit juice) was obtained respectably in 20 and 30% vermicompost treatments. Application of nitroxin along with vermicompost yielded 30% of the most vitamin C. In general, the results showed that the application of vermicompost at levels of 20 to 30% has the best effect on the quantitative and qualitative traits of blackberry and nitroxin can reduce the negative effect of high vermicompost and increase the effect of vermicompost on the blackberry plant.
Hossein Ghorbani Mandolakani; Manoochehr Khodarahmi; Farrokh Darvish; Mohammad Taeb
Volume 12, Issue 1 , May 2010, , Pages 59-67
Abstract
In order to determine the relationship between yield and some morphological and physiological traits, as well as important traits that affect grain yield in bread wheat, a field experiment was conducted at Cereal Research Farm, Seed and Plant Improvement Institue, KaraJ in 2007. Three hundred and thirty ...
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In order to determine the relationship between yield and some morphological and physiological traits, as well as important traits that affect grain yield in bread wheat, a field experiment was conducted at Cereal Research Farm, Seed and Plant Improvement Institue, KaraJ in 2007. Three hundred and thirty five bread wheat recombinant inbred lines were evaluated in an Alpha Lattice design with two replications. Grain yield was positively correlated with all of the yield components, but was negatively correlated with days to heading, days to anthesis, days to ripening, extrusion peduncle length and second internode length. In stepwise regression, grain production rate was the first variable entered in the model and explained a higher percentage variation in grain yield. Path analysis showed that grain production rate and biological yield (0.534 & 0.532) exerted the most direct effects on grain yield. On the basis of these result, it is suggested that criteria such as number of spike per m2, number of grain per m2, seed weight per spike, biological yield production rate , grain production rate and biological yield could be considered as effective criteria for selecting towards grain yield improvement in bread wheat.
Hamid Moeinrad
Volume 11, Issue 2 , November 2009, , Pages 65-74
Abstract
A study was conducted on six years old trees of almond, Shahroud cv. (No. 18), in a three-year trial (2002-04) at Mashhad Agricultural Research Station. The experiment was done on the basis of completely randomized desigh with four replications. In the first and second years of the experiment, ethephon ...
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A study was conducted on six years old trees of almond, Shahroud cv. (No. 18), in a three-year trial (2002-04) at Mashhad Agricultural Research Station. The experiment was done on the basis of completely randomized desigh with four replications. In the first and second years of the experiment, ethephon was sprayed in 15 and 20 days before the common time of harvesting, respectively. The concentrations of ethephon in 2002 were variable between zero to 600 mg/l; whereas in 2003, they were 0 upto 900 mg/l. Through 2003 and 2004, ethephon spraying (900 mg/l) was carried out in mid fall every year, too. A Khorasanina cultivar (named as No. 1) was also considered for fall treatment. In each year, the percentage of fruits with dehiscent hull increased by higher concentrations of ethephon, significantly. The force (gravitometer figures) over which fruits have been detached from branches decreased significantly by higher concentrations of ethephon. We concluded that, the concentration of ethephon should at least be 500-600 mg/l so that the required results in ripening of almond fruits can be obtained. In order to delay the flowering time, ethephan spraying (900 mg/l) was the most effective treatment, in mid fall, considerably. In the case of summer treatments trees showed gummosis, mostley.
Mahmoud Lotfi; Elham Ali abadi; Ali Rezvani; Reza Amiri
Volume 13, Issue 1 , August 2011, , Pages 65-74
Abstract
The effects of priming treatment using five osmotic solutions (PEG, manitol, KNO3, KH2PO4 and combination of two salts) in six osmotic potentials (-1 to -1.5 MPa) was studied on germination percentage, rate and uniformity of melon seeds. The best results were obtained with high concentrations of KNO3 ...
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The effects of priming treatment using five osmotic solutions (PEG, manitol, KNO3, KH2PO4 and combination of two salts) in six osmotic potentials (-1 to -1.5 MPa) was studied on germination percentage, rate and uniformity of melon seeds. The best results were obtained with high concentrations of KNO3 and lower concentrations of manitol. Mean germination time of melon seeds in 19°C was preceeded 36 to 48 hours and more uniformity observed but percent germination decayed a little (1-4 percent) reduced in some cases. In addition, storage of primed seeds in room temperature for four months reduced their quality lightly however major priming effects were conserved. In second trial which was done using KNO3 and manitol seeds were suspended in solutions freely or inside bags and also under temperatures 19°C and 22°C, the fastest germination was occurred using manitol inside bags and -1.5 MPa. Effects of priming were more abvious in lower temperatures and also lower potentials showed had better results for uniformity, consistantly.
Masoomeh Naeemi; Gholam Ali Akbari; Amir Hossein Shirani Rad; Tahereh Hassanlou; Gholam Abbas Akbari
Abstract
In order to evaluation the effect of zeolite application and selenium spraying on water relations traits and antioxidant enzymes in medicinal pumpkin (Cucurbita pepo L.) at water deficit stress conditions, an experiment was conducted in factorial based on randomized complete block design with three replications ...
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In order to evaluation the effect of zeolite application and selenium spraying on water relations traits and antioxidant enzymes in medicinal pumpkin (Cucurbita pepo L.) at water deficit stress conditions, an experiment was conducted in factorial based on randomized complete block design with three replications during 2010 in Takestan, Iran. The three levels of irrigation factor include normal irrigation (control), withhold irrigation at the flowering and fruit formation stages, zeolite factors include two levels of non application and use of 10 tons per hectare and selenium was sprayed at two concentration in zero and 30 grams per liter per hectare. Water deficit increased antioxidant enzymes activity, so that the increase in stressed plants at flowering stage was among the most prominent. Selenium spraying increased the anti-oxidative activity. Zeolite application of 10 tons per hectare, reduced stress effects and improved traits as RWC, WSD, soluble protein content, number of seeds, 100 seed weight and oil yield. According to the results, application of zeoilite under drought stress condition retain the moisture during stress and can be useful in improving plant growth and production.
Kourosh Vahdati; Hassan Bahrami Sarmandi; Siamak Kalantari
Volume 12, Issue 2 , November 2010, , Pages 73-82
Abstract
Somatic embryos which were derived from immature cotyledons of a Persian walnut genotype had been grown on DKW medium supplemented with gelrite 0.3% and ABA (2 mg l-1). For maturation, somatic embryos were treated with chilling pre-treatment (one month in dark at (3-4C), different desiccation methods ...
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Somatic embryos which were derived from immature cotyledons of a Persian walnut genotype had been grown on DKW medium supplemented with gelrite 0.3% and ABA (2 mg l-1). For maturation, somatic embryos were treated with chilling pre-treatment (one month in dark at (3-4C), different desiccation methods (fast, slow and full) and combination of chilling and desiccation treatments. The experiment was conducted as RCD in tissue culture laboratory of College of Abouraihan, University of Tehran, Iran in 2007. After three weeks, plantlets obtained from this treatment were transferred to six plantlets developing media (including full and half strength DKW with different levels of sucrose and activated charcoal). Without any pretreatment, 26% of somatic embryos germinated, while those treated with cold-pretreatment germinated at 54% with both shoots and roots. Somatic embryos treated with fast, slow and full desiccation, germinated at 27, 37 and 57% with both shoots and roots, respectively. Cold storage for two months in combination with full desiccation resulted in higher amounts of somatic embryos germination (73%) which had both shoots and roots. Adding activated charcoal and sucrose, also reducing amounts of macro and micro nutrients did not have significant effect on shoot length. Adding activated charcoal enhanced root development.