moslem heydari; seyed mohsen mousavi nik; nooshin mir
Abstract
Excessive use of chemical fertilizers has caused contamination of soil as well as surface and groundwater resources. For this purpose, an experiment has been conducted to investigate the possibility of reducing surface water pollution with nitrate and also the effect of nitrogen on quantitative and qualitative ...
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Excessive use of chemical fertilizers has caused contamination of soil as well as surface and groundwater resources. For this purpose, an experiment has been conducted to investigate the possibility of reducing surface water pollution with nitrate and also the effect of nitrogen on quantitative and qualitative characteristics of beans as a factorial based on completely randomized design (CRD) with four replications in Hamadan Agricultural and Natural Resources Research Center between 2013 and 2014. The first factor includes four types of nitrogen fertilizers, X1 (zeolite - EN), X2 (zeolite - AcAcEN), X3 (zeolite - HED), X4 (urea fertilizer), and X0 (control sample - no fertilizer use) and the second one involves two bean species, namely red beans (Phaseolus vulgarize L.) of Derakhshan cultivar and genotype 29005 of Cowpea (Vigna unguiculata L.). Applying functionalized zeolite nanofertilizers reduces nitrate leaching from the experimental units (pots). Meanwhile, zeolite X3 fertilizer is capable of reducing nitrate leaching by 48% in comparison with urea fertilizer. The amount of soil nitrogen in pots, containing X3 fertilizer, is 0.115 ppm and, compared to the urea fertilizer treatment, it improves this element’s maintenance in the soil by 30%. Accordingly, X3 fertilizer increases chlorophyll, protein, and grain yield by 44%, 64%, and 56%, respectively, in comparison with the control. In general, the application of functionalized nano zeolites has a beneficial role in reducing nitrate leaching and improving the quantitative and qualitative characteristics of bean plants.
Mohamad Nikbakht,; Mahmood solouki; Mehdi Aran
Abstract
In order to study the effects of foliar application of nitrogen with nano-and urea chemical fertilizers on quantitative and qualitative characteristics of bitter apple, an experiment has been conducted in a randomized complete block design with three replications at the Agricultural Institute, University ...
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In order to study the effects of foliar application of nitrogen with nano-and urea chemical fertilizers on quantitative and qualitative characteristics of bitter apple, an experiment has been conducted in a randomized complete block design with three replications at the Agricultural Institute, University of Zabol during 2019.Theexperimental treatment includes foliar application of nano-N (1000 and 2000 mg/l), urea (1% and 2%), and control. Results show that foliar application of N has had a significant effect on yield and number of fruit per bush, and shoot length, whereas it has had no effect on fruit average weight, fruit length and diameter. The highest yield per bush belongs to nano-N at 2000 mg/l concentration (961.08g) and urea at 2% concentration (864.66g) and, the highest amount of fruit number per bush (12) is found in nano-N at 2000 mg/l concentration. The highest weight of 100 seeds and seed protein are obtained from the foliar application of nano-N at concentration of 2000 mg/l and urea at 2% concentration. Seed phenol content, seed soluble carbohydrates, and oil percentage have been reduced by applying nitrogen treatments to the control. Foliar application of N has increased leaf N concentration, while having no effect on the leaf concentrations of P, K, and Zn. Given that in most measured quantitative and qualitative traits, the application of nano-N fertilizer at 2000 mg/l concentration shows better results than other treatments, this treatment can be recommended to reduce economic and environmental costs.
Abasalt Rostami Ajirloo; Ebrahim Amiri
Abstract
In order to investigate the effect of potassium nano fertilizer on soybean growth under cutting irrigation condition, an experiment was carried out as split plots arrangement based on completely randomized block design with three replications in Moghan plain at 2015 and 2016 cropping seasons. The main ...
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In order to investigate the effect of potassium nano fertilizer on soybean growth under cutting irrigation condition, an experiment was carried out as split plots arrangement based on completely randomized block design with three replications in Moghan plain at 2015 and 2016 cropping seasons. The main factor included four levels of irrigation normal irrigation, cutting irrigation during vegetative phase, cutting irrigation during flowering phase and cutting irrigation during grain filling phase and a sub factor included three levels of potassium nano fertilizer five, 10 and 15 kg per hectare. The results showed that at all stages of irrigation, the use of potassium nano fertilizer reduced the effect of drought stress. So that the greatest seed yield and yield components under normal irrigation and off-irrigation conditions were obtained with use of 15 kg / ha of potassium nano fertilizer. Also, the highest plant height (66 cm), the distance between the first pod of ground (20 cm), number of leaves per plant (345) and the number of lateral branches (19.66) in normal irrigation treatment with consumption 15 kg of potassium nano fertilizer was obtained and the least of them was obtained in irrigation cut during vegetative phase with use of 5 kg/ha of potassium nano fertilizer. According to the results, it can be concluded that using 15 kg / ha of potassium nano fertilizer can reduce the effects of drought stress on yield, especially in seed filling stage in soybean plant, by 15%.