1. Effects of nitrogen application stage on grain yield and nitrogen use efficiency of high-yield summer maize
- Author
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P. Lü, J. W. Zhang, L. B. Jin, S. T. Dong, P. Liu, and W. Liu
- Subjects
0106 biological sciences ,Absorption (pharmacology) ,Crop yield ,Soil Science ,Biomass ,chemistry.chemical_element ,04 agricultural and veterinary sciences ,01 natural sciences ,Nitrogen ,Animal science ,Anthesis ,chemistry ,Agronomy ,Yield (chemistry) ,040103 agronomy & agriculture ,0401 agriculture, forestry, and fisheries ,Grain yield ,Stage (hydrology) ,010606 plant biology & botany - Abstract
This study aims to explore the optimum nitrogen (N) application method by analyzing effects of variable N application stages and ratios on the N absorption and translocation of high-yield summer maize (DH661). The study included field experiments and 15 N isotopic dilutions for pot experiments. Results showed that the yield was not increased in a one-off N application at the jointing stage. The uptake of fertilizer-derived N in the grain increased with the increasing of N applied t imes. Compared to a single or double application, total N uptake (N up ) and biomass increased significantly by supplying N at the six-leaf stage (V6), ten-leaf stage (V10) and 10 days after anthesis in ratios of 3:5:2 and 2:4:4. The fertilizer-derived recovery rates were 67.5% and 78.1%, respectively. The uptake and utilization of fertilizer-derived N was enhanced by increasing the recovery rate of N supplied after anthesis, and reducing the absorption of soil-derived N. Therefore, the 2:4:4 application ratios was the optimal N application method.
- Published
- 2012
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