musa Ebrahimpour; Pourang Kasraie; Hamidreza Larijani; Hamidreza Tohidi moghadam; Sahar Honarmand Jahromi
Abstract
Objective: The purpose of this experiment was to investigate the effect of foliar spraying of bacterial herbicides and aqueous extracts of plants on the morphological characteristics and starch of barnyard grass weed and rice.Methods: This experiment was conducted as split factorial based on a randomized ...
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Objective: The purpose of this experiment was to investigate the effect of foliar spraying of bacterial herbicides and aqueous extracts of plants on the morphological characteristics and starch of barnyard grass weed and rice.Methods: This experiment was conducted as split factorial based on a randomized complete block design cityAmol with three replications in the two cropping years of 2018 and 2019. Factors included the foliar application of aqueous extracts plants and surfactant of sorghum, broccoli, nettle, eucalyptus, elder-berry, Streptomyces sp-albos containing thaxtomin, Xanthomonas campestris bacteria and control as the main factor, the concentration of the extract was zero, 5, 10 and 15 per thousand as a subfactor and the plant species of rice were Tarom cultivar and barnyard grass weed as a sub-sub factor.Results: By extracts foliar application, barnyard grass seed yield and biological yield decreased and the seed starch percent increased. Rice seed yield in the use of 5 per thousand broccoli extract and 5 per thousand Streptomyces sp-albos was not significantly different from the control. By increasing the concentration of the extract, seed yield and biological yield of rice and barnyard grass showed a further decrease. The lowest seed yield in rice at 3.16 tons/ha was related to elder-berry extract and in barnyard grass 0.68 and 0.61 tons/ha was related to nettle and elder-berry extract.Conclusion: According to the obtained results, Allelopathy and plant pathogens can be one of the basic ways to control weeds in a sustainable agricultural system.
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.
َAzam Sadat Yousefi; Mohammad Ali Bahmanyar; Bahi Jalili; Mahdy Ghajar
Abstract
Objective: Proper nutrition program is one of the main ways to improve plant quality and has a significant role in increasing its performance.Methods: To investigate the effect of the use of organic and mineral sources containing silicon on the concentration of silicon, nitrogen, phosphorus and potassium ...
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Objective: Proper nutrition program is one of the main ways to improve plant quality and has a significant role in increasing its performance.Methods: To investigate the effect of the use of organic and mineral sources containing silicon on the concentration of silicon, nitrogen, phosphorus and potassium in rice plants (Oryza sativa L.), an experiment in the form of chopped plots with three replications in the fields of Dazmirkandeh village in the suburbs of Sari city in 2019. All the experimental steps were done in the laboratory of Sari University of Agricultural Sciences and Natural Resources. The main factor was two varieties of rice and the secondary factor was the type and amount of silicon sources in 11 levels of fertilizer treatment.Results: According the results, the simple effect of variety and different sources of silicon on the concentration of silicon was significant in the flag leaf, biomass and grain of rice. The average concentration of nutrients in aerial organs in Tarem Hashemi cultivar was more than Shiroudi cultivar and different sources of silicon could increase the concentration of silicon elements in flag leaves by 70%, biomass by 16% and seeds by 20%, and nitrogen by 12 and 55 respectively, and 50%, increase phosphorus by 100, 60 and 87% and finally increase potassium by 20, 15 and 50%.Conclusion: In general, the use of all silicate treatments compared to the control treatment and basic fertilizer increased the concentration of silicon and other elements in the aerial parts of the plant.
Masoumeh Makvandi; AbdolMahdi Bakhshandeh; Ali Moshatati; Mohammad Moradi Telavat; Aydin Khodaei joghan
Abstract
Objective: The effect of the combined use of nitrogen fertilizer with sugarcane residue compost and growth-promoting bacteria on wheat quality traits and yield in the heat stress conditions of the end of the season in Ahvaz was investigated.Methods: An experiment was carried out in the form of two split ...
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Objective: The effect of the combined use of nitrogen fertilizer with sugarcane residue compost and growth-promoting bacteria on wheat quality traits and yield in the heat stress conditions of the end of the season in Ahvaz was investigated.Methods: An experiment was carried out in the form of two split plots in the form of a randomized complete block design with three replications. The experimental factors include three sowing dates: 22 November, 11 December and 31 December in main plots; six combined of nitrogen with compost include control, 100% nitrogen, 75% nitrogen+ 25% compost, 50% nitrogen+ 50% compost, 25% nitrogen+ 75% compost and 100% compost in sub-plots and two levels of use and non-use of bacteria in sub plots.Results: Results showed the effect of Sowing date and the combined use of nitrogen with compost and growth-promoting bacteria were significant on all measured traits. Average comparison showed that combined use of 50% nitrogen + 50% compost with bacterial application increased the characteristics of Grain filling duration and Grain filling rate, Grain protein percentage and wet gluten. Also, the highest seed yield (5864 kg/ha) was obtained on the first planting date and combined consumption of 50% nitrogen + 50% compost and the lowest amount (1115 kg/ha) was obtained on the third planting date and the control treatment.Conclusion: The combined use of nitrogen fertilizer and compost with growth-promoting bacteria could reduce the negative effect of heat stress at the end of the season on the measured plant traits.
Masomeh Ganji; Serolah Galeshi; Hamid Jabbari; Forough Sanjarian; Benjamin Torabi
Abstract
Objective: Water stress affects the crucial processes and yield of crops. This study aimed to investigate the effect of water stress on physiological and biochemical traits of safflower genotypes.Methods: A factorial experiment was carried out as randomized complete block design in Seed and Plant Improvement ...
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Objective: Water stress affects the crucial processes and yield of crops. This study aimed to investigate the effect of water stress on physiological and biochemical traits of safflower genotypes.Methods: A factorial experiment was carried out as randomized complete block design in Seed and Plant Improvement Research Institute during 2017-19. The treatments included two irrigation levels (40 and 80% depletion of available water) and Parnian, Goldasht and Kazak genotypes. Plants were sown in soil columns with a height of 150 and a diameter of 23 cm, and irrigated by a drip system. Antioxidant enzymes, malondialdehyde, proline, relative water content, chlorophyll, seed yield and fatty acid composition were measured at the end.Results: Water stress significantly increased the accumulation of hydrogen peroxide and malondialdehyde in safflower genotypes which led to increased catalase and peroxidase enzyme activity by 1 and 2.5 U, respectively. The proline content increased about 16 times under water stress conditions. In contrast, the relative water content showed a significant decrease, which resulted in increased canopy temperature and decreased seed yield by 70%. The Kazak genotype had the lowest increase in canopy temperature under stress conditions and showed higher yield stability. Moreover, the fatty acid composition of seed oil changed and the amount of linoleic acid decreased by 1.8% under water stress conditions.Conclusion: The results showed that in addition to drought-related physiological traits, no increase in saturated/unsaturated fatty acid ratio is also an important indicator in screening superior genotypes for cultivation in water shortage.
Faezeh Chehrehnoorani; Rahdari Parvaneh; Marefat Mostafavi Rad; Mahmoud Asadi; Shadi Kiabi
Abstract
Objective: In order to evaluate the foliar application of Ca and Zn fertilizers on seed and fatty acids composition of peanut oil (cv. NC2), an experiment was conducted at the Agricultural and Natural Resources Research and Education Center of Guilan Province, Rasht, Iran, during 2018 and 2019 cropping ...
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Objective: In order to evaluate the foliar application of Ca and Zn fertilizers on seed and fatty acids composition of peanut oil (cv. NC2), an experiment was conducted at the Agricultural and Natural Resources Research and Education Center of Guilan Province, Rasht, Iran, during 2018 and 2019 cropping seasons.Methods: This experiment was carried out as a split plot based on randomized complete block design with three replications. Four levels of Zn fertilizer sources, including without Zn application (as control), nano-chelated Zn fertilizer, Zn-EDTA, and Zn sulfate were considered as the main plot and four levels of Ca fertilizer sources, including nano-chelated Ca fertilizer, Ca-EDTA, Ca-chloride and, Ca-nitrate were considered as the sub plot.Results: Foliar application of fertilizers was done before the flowering stage and then repeated with 30-days intervals. The highest seed yield (2790 kg/ha), biological yield (9303 kg/ha), seed oil content (52.3 percent), oil yield (1625 kg/ha), protein yield (673 kg/ha), and oleic unsaturated fatty acid (57.3 percent) was obtained under simultaneous foliar application of Ca and Zn nano-fertilizers and increased the parameters by 29.8, 17.5, 13.4, 38.3, 24.4 and 19.2 percent in comparison to control treatment, respectively.Conclusion: Application of Zn and Ca nano-chelated fertilizers as foliar sprays improved seed and oil yield of peanut under the local conditions. Hence, the Zn and Ca nano-chelated fertilizers could be recommended to enhance the quantitative and qualitative yield of peanut.
Basir Samadi Firozabad; mahdi ghiyasi; Reza Amirnia
Abstract
Objective: After being sprayed, nano-particles easily enter the leaves through the plant's stomatal system due to their small dimensions. Moreover, the significant increase in the molecular surface area of nano materials enhances their reactivity, consequently improving the plant's ability to utilize ...
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Objective: After being sprayed, nano-particles easily enter the leaves through the plant's stomatal system due to their small dimensions. Moreover, the significant increase in the molecular surface area of nano materials enhances their reactivity, consequently improving the plant's ability to utilize these compounds.Methods: The present study was designed as a factorial experiment in a randomized complete block design (RCBD) at the research farm of the Central Station of the Agricultural Research and Education Center of Tehran Province. The study aimed to investigate the effects of foliar application in the form of seven treatments on the quantitative and qualitative performance and yield of the Goldasht safflower cultivar. The seven treatments included no spraying (control), spraying with normal and nano zinc, spraying with normal and nano iron, spraying with normal and nano manganese, and seed priming at three levels of non-priming (control), osmo-priming, and hydro-priming.Results: The results showed that osmo-priming, followed by spraying with nano zinc and then with nano iron, had the most significant effect on increasing all the investigated traits, including yield components, seed yield, and oil percentage in safflower. Additionally, hydro-priming with nano zinc spraying could increase the thousand-seed weight to the highest statistical level.Conclusion: The study suggests that seed priming of safflower with foliar application of micronutrients, especially nano zinc, and iron, can be recommended as a promising method for enhancing the quantitative and qualitative performance and yield of safflower seed and oil in similar weather conditions.
Nasrin Teimoori; Mokhtar Ghobadi; Danial Kahrizi
Abstract
Objective: The research aimed to investigate the effect of silicon foliar spraying in increasing drought tolerance in Camelina.Methods: The experiment was conducted as a factorial based on a randomized complete blocks design with three replications in a pot experiment. The treatments included two Camelina ...
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Objective: The research aimed to investigate the effect of silicon foliar spraying in increasing drought tolerance in Camelina.Methods: The experiment was conducted as a factorial based on a randomized complete blocks design with three replications in a pot experiment. The treatments included two Camelina genotypes (Sohail cultivar and line-84), drought treatments (at two levels: without and with drought stress) and foliar spraying of sodium silicate (at five levels: 0, 2, 4, 6 and 8 mM).Results: The results showed that drought stress decreased grain yield, yield components, and morphological traits of both Camelina genotypes. Drought stress reduced the grain weight per plant of the Sohail cultivar and Line-84 by about 27 and 39%, respectively. Foliar application of silicon effectively increased yield and yield components. On average, foliar spraying of 6 mM silicon compared to the control treatment caused an increase in the traits of grain weight per plant (13.04%), harvest index (12.1%), and the number of siliques per plant (7%). In the correlation analysis, it was found that among the grain yield components, the highest positive correlation coefficient with the grain weight per plant belonged to the number of siliques per plant (0.941).Conclusion: Overall, it seems that foliar application of 6 mM silicon can be effective in increasing drought tolerance in Camelina.
ali ashori; Manoochehr Gholipoor; Ahmad Gholami; Hamid Abbasdokht
Abstract
Objective: The effect of magnetic and superabsorbent water was investigated on some morphophysiological traits and performance of cumin under a low irrigation regime.Methods: An experiment was conducted in the agricultural year of 1399-1400 in the research fields of the Faculty of Agriculture of Shahrood ...
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Objective: The effect of magnetic and superabsorbent water was investigated on some morphophysiological traits and performance of cumin under a low irrigation regime.Methods: An experiment was conducted in the agricultural year of 1399-1400 in the research fields of the Faculty of Agriculture of Shahrood University of Technology in two districts of Rahnjan and Garman of Shahrood city in a factorial format in the form of a randomized complete block design with three repetitions. Irrigation water type treatment at two levels (normal and magnetic) and locations (Rahanjan, Garman) with different climatic conditions and altitude above sea level as the main factor and superabsorbent treatment at three levels (zero, 100 and 200 kg/ha) as a secondary factor. Was considered. In all treatments, irrigation was applied based on 100% of plant water needs.Results: The results showed location, type of irrigation and different concentrations of superabsorbent had a positive and significant effect on the growth characteristics. In the Rahnjan region, due to the climatic conditions and higher average annual temperature and the treatment of 100 and 200 kg/ha of superabsorbent and the use of magnetic water, the highest amount of plant height, percentage and yield of essential oil and protein, soluble carbohydrates were observed.Conclusion: According to the results, most of the traits in the Rahnjan region had higher values than in the German region, and plant cultivation in the Rahnjan region is economical.
maryam mansouri; Gholam Akbari; elias soltani; Fatemeh Benakashani
Abstract
Objective: Study of the promising plant Niger seed with the goal of oil production in PakdashtMethods: This research was carried out in the form of a split-split plot in the form of a randomized complete block design with three replications in the year 2021 in the Aburihan campus research farm located ...
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Objective: Study of the promising plant Niger seed with the goal of oil production in PakdashtMethods: This research was carried out in the form of a split-split plot in the form of a randomized complete block design with three replications in the year 2021 in the Aburihan campus research farm located in Pakdasht. In this study, irrigation cycle in three levels (once every 7 days, once every 10 days and once every 13 days) as the main factor, planting date in two levels (5 June and 22 June) as a secondary factor and fertilizing with bio-fertilizers In four-level including control (without biofertilizer), Shift biofertilizer, Chris biofertilizer and the combination of Shift and Chris biofertilizers as sub-factors were considered.Results: The results showed that the plants cultivated on June 22 were superior to the plants cultivated on June 5 in all investigated traits (including yield components, seed yield, and biological yield) and all three tested irrigation levels. Also with increasing levels of drought stress, the seed yield has significantly decreased in both planting dates under investigation. However, the ratio of seed yield reduction under drought stress was significantly lower in plants cultivated on June 22nd compared to those cultivated on June 5th.Conclusion: The cultivation of seed Niger plant with the application of Chris biofertilizer in the same weather conditions on June 22nd, is recommended as a promising plant that has an acceptable yield from an agricultural point of view and its product has a high oil content.
Hakimeh Oloumi; Ali Zamani; Hosein Mozaffari; Soudabeh Nourzad
Abstract
Objective: The present research was conducted with the aim of evaluating the effect of melatonin treatment on the tolerance of basil plants to the excess of copper and zinc mineral elements.Methods: The effect of melatonin treatment (at two levels of 0 and 100 micromolar) on the tolerance of basil plants ...
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Objective: The present research was conducted with the aim of evaluating the effect of melatonin treatment on the tolerance of basil plants to the excess of copper and zinc mineral elements.Methods: The effect of melatonin treatment (at two levels of 0 and 100 micromolar) on the tolerance of basil plants to the excess of mineral elements copper (50 and 150 μM) and zinc (50 and 100 μM) as factorial layout based on a completely randomized design with 3 replications and at 2017 in greenhouse conditions at Graduate University of Advanced Technology, Kerman Done.Results: The triple effect of melatonin and zinc and copper and the double effect of melatonin and zinc on the relative water content of leaves, total chlorophyll, carotenoid, protein, soluble and reduced sugar, anthocyanin and flavonoid were significant at 1% probability level. Membrane stability indices and relative water content of leaves were improved by applying melatonin in the basil plant separately and together with copper and zinc metals. The amount of reducing sugars, chlorophyll, and carotenoids decreased under the influence of zinc and copper toxicity.Conclusion: melatonin by improving physiological characteristics, especially membrane stability, as well as flavonoid compounds, anthocyanin, and glutathione; It led to the reduction of the negative effects caused by excessive amounts of copper and zinc, especially at a concentration of 50 micromolar of these two metals on growth parameters.
Kosar Asadzadeh; Habiballah Nadian Ghomsheh; Vahid Keshavarz-Tohid; Abdolreza Siahpoosh
Abstract
Objective: In order to investigate the impact of plant growth-promoting Pseudomonads isolates and filter cake on the alterations of chlorophyll pigments and growth components in spinach plant under metribuzin herbicide stress, a factorial experiment was conducted as completely randomized blocks at the ...
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Objective: In order to investigate the impact of plant growth-promoting Pseudomonads isolates and filter cake on the alterations of chlorophyll pigments and growth components in spinach plant under metribuzin herbicide stress, a factorial experiment was conducted as completely randomized blocks at the greenhouse of the Department of Soil Science of the Agricultural Sciences and the Natural Resources University of Khuzestan in 2018-2019.
Methods: In this study, Pseudomonas alloputida RUM14 and P. protegens CHA0 were used as PGPR isolates and filter cake was utilized as organic fertilizer.
Results: Statistical analysis of the study’s results indicated that treating spinach plants with Pseudomonas alloputida RUM14, P. protegens CHA0, and filter cake significantly increases chlorophyll a (47, 21, 29%, respectively) and b pigments (42, 20, 18%, respectviely) and carotenoids (96, 33 and 84%) and also increases the dry weight of root (respectively 59, 30, 45%), length of root (108, 51, 53%), dry weight of stem (56, 49, 13%) and the stem length (31, 19, 14%). Statistical analysis clarified that applying metribuzin herbicide at the rate of 100 grams per hectare dramatically reduces the content of photosynthetic pigments and growth components. However, utilization of growth-promoting rhizobacteria and filter cake effectively decrease the extent of such damage.
Conclusion: The results of this investigation clarified for the first time that the use of Pseudomonads plant growth-promoting rhizobacteria and/or filer cake, significantly enhance the photosynthetic pigments and growth components of spinach plant. Additionally, the mentioned treatments reduce the damage caused by metribuzin herbicide application.