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Influence of nanoscale micro-nutrient α-Fe2O3 on seed germination, seedling growth, translocation, physiological effects and yield of rice (Oryza sativa) and maize (Zea mays) | Plant Sciences and Genetics in Agriculture

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Influence of nanoscale micro-nutrient α-Fe2O3 on seed germination, seedling growth, translocation, physiological effects and yield of rice (Oryza sativa) and maize (Zea mays)

Citation:

Prerna, D. I. ; Govindaraju, K. ; Tamilselvan, S. ; Kannan, M. ; Vasantharaja, R. ; Chaturvedi, S. ; Shkolnik, D. . Influence Of Nanoscale Micro-Nutrient Α-Fe2O3 On Seed Germination, Seedling Growth, Translocation, Physiological Effects And Yield Of Rice (Oryza Sativa) And Maize (Zea Mays). Plant Physiology and Biochemistry 2021, 162, 564-580.

Abstract:

In the present study, nanoscale micronutrient iron (α-Fe2O3) has been prepared via co-precipitation using marine macro alga Turbinaria ornata. The nanoscale micronutrient iron has been used as priming agent for enhancing seed germination, seed quality, uptake, translocation, physiological effects and yield level of rice and maize crops. The physico-chemical characterization techniques results showed the successful preparation of nanoscale micronutrient iron. Seeds primed with nanoscale micronutrient iron at 25 mg/L significantly enhanced the seed germination and seedling parameters in comparison with conventional hydro-priming. ROS production in germinating nano-primed seeds of rice and maize enhanced the seed germination better than the conventional hydro-priming. Uptake and distribution of nanoscale micronutrient iron in rice and maize seedlings were studied using HR-SEM & ICP-MS analysis. Foliar application of low concentration (10 mg/L) nanoscale micronutrient iron under field conditions significantly increased the chlorophyll content, yield attributes of rice and maize crops.

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