4.7 Article

Nitrogen nutrient index and leaf function affect rice yield and nitrogen efficiency

Journal

PLANT AND SOIL
Volume 445, Issue 1-2, Pages 7-21

Publisher

SPRINGER
DOI: 10.1007/s11104-019-04076-z

Keywords

Optimal nitrogen management; Rice yield; Nitrogen use efficiency; Nitrogen nutrient index; Leaf function; Grain-filling

Funding

  1. National Key Research and Development Program of China [2017YFD0200206]
  2. Special Fund for Agriculture Profession of China [20150312205]
  3. National Basic Research Program of China [2013CB127403]

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Aims To investigate the ability of higher nitrogen (N) use efficiency (NUE) in rice production to achieve higher grain yields by optimal N management (OPT). Methods In 2012 and 2013, four field experiments were conducted in Liyang and Rugao counties, Jiangsu Province, China to investigate the ability of the N-nutrient index (NNI) to mediate the effects of N-free control (CK), farmers' fertilizer practice (FFP), and OPT N management methods on grain yield and NUE through regulating the leaf functions of rice. Results Compared with FFP, the average rice yield and NUE for OPT were increased, while the N rate was reduced. NNI showed a dynamic change that reached an optimal status in OPT at the harvest stage. N management had a remarkable effect on the leaf area index (LAI), with OPT mitigating the differences between leaf positions, such that basal leaf LAI was improved to compensate for the decreased LAI of the top three leaves. During the grain-filling process, the top three leaves exhibited higher net photosynthesis rate (P-n) and higher grain weights and shorter grain-filling periods of both superior and inferior spikelets in OPT. Based on the contribution of different organs to grain production from the heading to harvest stage, two strategies of yield formation were observed, in which OPT enhanced the dependence on the stems (stem, sheath, and other leaves), while FFP was more dependent on the top three leaves. Conclusions Our results indicate that optimizing N application improves NNI and leaf functions to increase rice yield and NUE.

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