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.
Elahe Moradi Marjaneh; Mohammad Galavi; Mahmood Ramroudi; Mahmood Solouki
Abstract
In order to evaluate the effects of biological and chemical fertilizers at different cuts on some properties of the Rosemary, an experiment was carried out as split plot based on Randomized Completely Block Design (RCBD) with three replications, at the Zabol University Research Farm. Three times cuttings ...
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In order to evaluate the effects of biological and chemical fertilizers at different cuts on some properties of the Rosemary, an experiment was carried out as split plot based on Randomized Completely Block Design (RCBD) with three replications, at the Zabol University Research Farm. Three times cuttings were Autumn’s first cut (late autumn), spring’s first cut (late spring) and autumn’s second cut (six months after autumn’s first cut) being considered as a major factor. The biological fertilizers included Aztobarvar, Phosphate Barvar-2, Petabarvar and chemical fertilizer NPK 20:20:20 and the control was considered as a subplot factor. The results showed that spring’s first cut had the greatest impact on essential oil content and phosphor. The autumn’s second cut had the greatest influence on the percentage of leaf relative water and the concentration of potassium and sodium. Amounts of protein, soluble carbohydrates, dry matter yield, essential oil content and essential yield, oil percentage and oil yield, leaf relative water, chlorophyll, carotenes and nitrogen increased as affected by fertilizers compared with control. The maximum amount of phosphor (7352 mg.kg-1) was obtained from application of Phosphate Barvar-2. Additionally, the maximum amount of potassium (5542 mg.kg-1) and the minimum of sodium (4760 mg.kg-1) was obtained from Petabarvar. Protein, dry matter yield and oil yield, oil percentage, chlorophyll a, b, total chlorophyll significantly increased under the interactions of spring’s first cut and Aztobarvar biologic fertilizer by 28/36 mg.liter-1, (3294 and 53/90 kg.ha-1) 1/63, 6/66, 1/94 and 81/4 mg.gr-1, respectivly. The results also indicated that the interaction of spring’s first cut and Petabarvar biologic fertilizer had the highest essential oil yield (41.46 kg.ha-1) and interaction of autumn’s second cut and Aztobarvar biologic fertilizer produced the highest amount of nitrogen (12955 ppm) in shoot. The result showed that the application of Aztobarvar biologic fertilizer in spring’s first cut improved and enhanced the quantitative and physiological characteristics of Rosemary. This would probably have been due to facilitating nitrogen uptake and optimal environmental conditions for growth and development.