A. Mohammadi; M. Amini Dehaghi; M.H. Fotokian
Abstract
In order to study the application of humic acid and different irrigation regimes on quantitative and qualitative characteristics of three accession of cumin (Cuminum cyminum L.), an experiment was conducted at the Research Farm of Medicinal Plants, Faculty of Agriculture, Shahed University in 2016. This ...
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In order to study the application of humic acid and different irrigation regimes on quantitative and qualitative characteristics of three accession of cumin (Cuminum cyminum L.), an experiment was conducted at the Research Farm of Medicinal Plants, Faculty of Agriculture, Shahed University in 2016. This experiment was a factorial split plot based on randomized complete block design with three replications. Experimental factors included three irrigation regimes (full irrigation, irrigation after flowering stage and irrigation after grain filling stage), foliar application of humic acid with two levels (0 and 200 mg/lit) and three cumin accessions (Esfahan, Kashan and Sabzevar). The results of analysis of variance showed that the interaction effect of irrigation regime*humic acid*accession had significant effect on single plant dry weight, grain yield, harvest index, chlorophyll a and total. The results showed that the highest single plant dry weight and grain yield were obtained in complete irrigation and humic acid application. Kashan accession had the highest branch number per plant, dry weight per plant, number of seeds per umbrella, grain yield and biological yield. The highest percentage of essential oil yield was observed in Sabzevar accession. The highest grain yield (533.3 kg/ha) was obtained in complete irrigation with the use of humic acid in Kashan accession. The highest average dry matter yield (230 kg/ha) was obtained in complete irrigation with the use of humic acid for Sabzevar accession. The highest amount of chlorophyll a and total was observed in irrigation after flowering stage and lack of application of humic acid in Sabzevar accession. The application of humic acid was not significant on the traits evaluated. The most efficiency of humic acid was obtained in full irrigation. According to the results of this experiment, it can be stated that full irrigation and application of humic acid can increase the yield of Kashan accession in similar experimental conditions.
Sh. Shafiee Adib; M. Amini Dehaghi; S.A.M. Modares Sanavi
Abstract
In order to study the effects of biofertilizers on the quantity and quality of John’s wort (Hypericum perforatum L.), an experiment was conducted at Shahed University in 2010. The studied factors included phosphatic biofertilizer (inoculated and non-inoculated), phosphorous fertilizer at three ...
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In order to study the effects of biofertilizers on the quantity and quality of John’s wort (Hypericum perforatum L.), an experiment was conducted at Shahed University in 2010. The studied factors included phosphatic biofertilizer (inoculated and non-inoculated), phosphorous fertilizer at three levels (0, 100, 200 kg/h) and vermicompost (0, 5, 10 ton/h). The study was conducted in a factorial experiment in the form of a randomized complete blocks design (RCBD) with three replications. In addition, one plot was considered as control group in each replication to be compared with other plots in which only chemical fertilizers (NPK: 250, 200 and 100 kg/h) were used. Results showed that the highest biological yield, flowering shoot yield, and hypericin yield were obtained by applying vermicompost at 5 ton/ha, and there was no significant difference between the application rates of 5 and 10 ton/ha. The interaction effects of phosphatic biofertilizer (inoculated) and phosphorous fertilizer were significant, so that the highest biological yield, flowering shoot yield, hypericin yield and chlorophyll a were obtained by applying 100 kg/ha P2O5 plus phosphatic biofertilizer, having no significant difference with the application rate of 200 kg/ha P2O5. Significant differences were found between biofertilizer treatments and control group. According to the obtained results, it seems that biofertilizers can be considered as a replacement for chemical fertilizers.
Gh.H. Talaei; M. Amini Dehaghi
Abstract
In order to study the effects of biological and chemical fertilizers on yield and yield components of cumin (Cuminum cyminum L.), an experiment was conducted in Shahed University in 2011.The factors included biological phosphorus at two levels (inoculated and non-inoculated), chemical phosphorus at three ...
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In order to study the effects of biological and chemical fertilizers on yield and yield components of cumin (Cuminum cyminum L.), an experiment was conducted in Shahed University in 2011.The factors included biological phosphorus at two levels (inoculated and non-inoculated), chemical phosphorus at three levels (0, 40, 80 kg.ha-1 P2O5 from triple super phosphate), biological nitrogen with trade name Nitroxin (inoculated and non- inoculated), and chemical nitrogen at three levels (0, 25, 50 kg.ha-1 N from urea). Experimental treatments were arranged in a RCBD in a factorial arrangement with three replications. In this experiment, number of umbels per plant, number of seeds per umbel, 1000 seeds weight, plant height, seed yield, biological yield, harvest index (HI), essential oil percentage and essential oil yield were measured. According to the obtained results, significant differences were found among fertilizer treatments for number of umbels per plant, number of seeds per umbel, biological yield, seed yield, harvest index (HI), and essential oil yield (p<0.01). Results showed that the maximum number of umbels per plant (29.73 number), number of seeds per umbel (11.1 number), biological yield (245 g.m-2), seed yield (101.3 g.m-2), harvest index (47.22%) and essential oil yield (2.96 g.m-2) were obtained by applying 40 kg/ha-1 triple super phosphate, biological phosphorus, 25 kg.ha-1 N and biological nitrogen. The minimum values were recorded for control group.
M. Alijani; M. Amini Dehaghi; M.A. Malboobi; M. Zahedi; S.A.M. Modares Sanavi
Abstract
In order to study the effect of triple super phosphate (in three levels of 0, 50 and 80 kilograms of pure phosphorus per hectare) with or without phosphorus bio-fertilizer (Barvar 2) on yield and essential oil production of Matricaria recutita L., an experiment was conducted in a factorial design based ...
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In order to study the effect of triple super phosphate (in three levels of 0, 50 and 80 kilograms of pure phosphorus per hectare) with or without phosphorus bio-fertilizer (Barvar 2) on yield and essential oil production of Matricaria recutita L., an experiment was conducted in a factorial design based on randomized complete blocks with three replications at research farm of Shahed University in Tehran, 2008. In this experiment, phonologic attributes (the time of appearance of the first bud and flower, number of flowers, fresh weight of flowers) and physiologic attributes (amount of essential oil and percentage of chamazulene) were studied. The results showed that there was a significant difference in the level of 1% among the treatments of phosphorus fertilizer with a view to yield (number of flowers and dry weight of flower) and the amount of 40 Kg phosphorus together with bio-fertilizer with production of 452.93 flowers and 7.74 grams of dry flower had the highest yield as compared with the other fertilizer treatments. Also the treatment of 40 kilograms of phosphorus together with bio-fertilizer with production of 0.53 milliliter essential oil and 15.81 percent chamazulene (effective ingredient) from 152/52 gr-1 m2 of dry flower had the highest yield of essential oil and chamazulene percentage. According to the results applying of 40 kilograms of phosphorus per hectare together with 80 kilograms of nitrogen with seeds inoculated by phosphorus biologic fertilizer of Barvar 2 is recommended.
K. Babaee; M. Amini Dehaghi; S.A.M. Modares Sanavi; R. Jabbari
Abstract
Water deficit stress, permanent or temporary, limits the growth and the distribution of natural vegetation and the performance of cultivated plants more than any other environmental factors. Mechanism involved is still not clear. Thyme (Thymus vulgaris L.) is an important medicinal plant in perfume and ...
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Water deficit stress, permanent or temporary, limits the growth and the distribution of natural vegetation and the performance of cultivated plants more than any other environmental factors. Mechanism involved is still not clear. Thyme (Thymus vulgaris L.) is an important medicinal plant in perfume and medical industry. In this research, the effects of water deficit stress on growth, yield, metabolites compatible (prolin) and oil composition of thyme (thymol) were studied. Complete randomized block design with 4 treatments and 4 replications have been used in 2006. Water deficit levels included control (100% field capacity), mild stress (85% field capacity), medium stress (70% field capacity) and severe stress (55% field capacity). The statistical analysis showed that water deficit had significant effect on growth parameters, yield biomass, prolin and thymol. Water stress decreased plant height, number of secondary branches, dry and fresh weight growth and root mass, dry and fresh weight root and length root. In addition, thymol percentage and prolin content increased with severe stress (55% field capacity). Morphological yield with secondary metabolites prolin and thymol were obversed with water deficit changes.
M. Alijani; M. Amini Dehaghi; S.A.M. Modares Sanavi; S. Mohammad Rezaye
Abstract
In order to investigate the effect of nitrogen fertilizer (0, 40 and 80 Kg from urea) and phosphorous fertilizer (0, 30 and 60 Kg from super phosphat treepal) on yield and essetial oil production of Matricaria recutita L. an experiment has been conducted on the basis of randomized complete block design ...
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In order to investigate the effect of nitrogen fertilizer (0, 40 and 80 Kg from urea) and phosphorous fertilizer (0, 30 and 60 Kg from super phosphat treepal) on yield and essetial oil production of Matricaria recutita L. an experiment has been conducted on the basis of randomized complete block design in three replications at 2007. The results showed that there is significant difference in number and dry weight of flowers between nitrogen fertilizer treatments at the level of 1%. Treatment of 40 kg nitrogen by producing 742.2 flower and 20.63 gr dry weight had the highest yield. Control samples produced 507.06 number of flowers and 10.06 gr dry weight, which is at itś lowest amount. Among phosphorous fertilizers, there is significant difference and the highest yield refers to 60 kg phosphate in hectare. It produced 816.26 number of flowers and 30.17 gr dry weight. Thus, the best recommended treatment is 2nd level of nitrogen fertilizer and 3rd level of phosphate fertilizer, with 40 kg nitrogen and 60 kg phosphate in every hectare. There was no significant difference in chamazolene percentage in all treatments.