Simultaneous effects of silica nanoparticles, potassium, biological and nitrogen chemical fertilizers on the absorption of some elements and yield of rice cultivars (Oryza sativa L.)

In order to investigate the effect of silica and potassium nanoparticles and nitrogen levels in two native and improved rice varieties, a field experiment was conducted in Sari city in 2014. The experiment was split-factorial in a randomized complete block design with three replications. Two native...

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Published in:فیزیولوژی محیطی گیاهی Vol. 14; no. 54; pp. 60 - 73
Main Authors: mehrdad Ghasemi Lemraski, Hamid Madani, Nasibe Rezvan talab, salman dastan
Format: Journal Article
Language:Persian
Published: Islamic Azad University - Gorgan Branch 01-06-2019
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Summary:In order to investigate the effect of silica and potassium nanoparticles and nitrogen levels in two native and improved rice varieties, a field experiment was conducted in Sari city in 2014. The experiment was split-factorial in a randomized complete block design with three replications. Two native cultivars of local and improved Tarom Hashemi were considered as main factor and nitrogen fertilizer in three levels including 35 and 70 kg of urea per hectare with biological fertilizer nitroxin (without fertilizer nitrogen fertilizer) and nanoparticles in three levels of nanosilicon spraying, Potassium and their lack of use (control) were considered as a sub-factor as factorial. The results indicated that cultivar of Tarom Hashemi produced the maximum grain yield (5000 kg ha-1) with 70 kg of nitrogen and nanopotassium. For local Tarom cultivar, the highest yield of rice (4657 kg ha-1) was obtained by consuming 35 kg of nitrogen and nanopotassium. The highest concentration of silica was obtained by using nanosilica. The highest nitrogen and potassium concentrations were obtained with 70 kg N ha-1. For each cultivar, the highest concentration of potassium potassium was obtained using 70 kg of nitrogen plus nanoparticulate and nano-silica. Therefore, the use of nanoparticles in both cultivars increased the quantitative and qualitative yield of rice.
ISSN:2423-7671
2783-4689