Optimized N application improves N absorption, population dynamics, and ear fruiting traits of wheat

Xiangqian Zhang; Yunji Xu; Shizhou Du; Yuqiang Qiao; Chengfu Cao; Huan Chen

doi:10.3389/fpls.2023.1199168

Optimized N application improves N absorption, population dynamics, and ear fruiting traits of wheat

Front Plant Sci. 2023 Aug 29:14:1199168. doi: 10.3389/fpls.2023.1199168. eCollection 2023.

Authors

Xiangqian Zhang¹, Yunji Xu², Shizhou Du¹, Yuqiang Qiao¹, Chengfu Cao¹, Huan Chen¹

Affiliations

¹ Crops Research Institute, Anhui Academy of Agricultural Sciences, Hefei, Anhui, China.
² Joint International Research Laboratory of Agriculture and Agri-product Safety, The Ministry of Education of China, Yangzhou University, Yangzhou, Jiangsu, China.

Abstract

Optimizing the N application amount and topdressing ratio can increase crop yield and decrease N loss, but its internal mechanisms have not been well studied, especially from the aspects of population dynamics and structure, ear fruiting traits. Here, field experiments, with three N rates 120 (N1), 180 (N2), and 240 (N3) kg N ha^-1 and three N topdressing ratios T1 (7:3), T2 (6:4), and T3 (5:5) were conducted. At the same N level, results showed that the N accumulation amounts in the leaf, grain, and plant in T2 were higher than in T3 and T1, and increasing 60 kg N ha^-1 (N3 compared to N2, N2 compared to N1) significantly enhanced N accumulation amounts. The effect of the N topdressing ratio on partial factor productivity of applied N was consistently T2 > T3 > T1, but T1 was more conducive to improving N utilization efficiency for grain and biomass production. After the jointing stage, compared to T1 and T3, T2 was more conducive to increasing the population growth rate of plant height, leaf area index, leaf area growth rate, dry matter weight, dry matter accumulation rate, light interception rate, and spikelets of population, and the above-mentioned indexes of population could be significantly enhanced by increasing 120 kg N ha^-1. T2 increased the fruiting spikelets per ear, grains per ear, grain weight per ear, fruiting rate per ear, grain filling rate per ear, and yield but decreased the sterile spikelets at the top and bottom and imperfect grains per ear. Increasing N from 120 kg ha^-1 to 180 kg ha^-1 or from 180 kg ha^-1 to 240 kg ha^-1 significantly enhanced yield. The N accumulation amount in the grain, leaf, plant, leaf area growth rate, dry matter accumulation rate, light interception rate, population spikelets, fruiting spikelets per ear, grain filling rate, and yield were significantly positively correlated with each other. This study demonstrates a suitable N application rate with a N topdressing ratio 6:4 would more effectively improve N efficiency, population dynamics, structure, ear fruiting traits, and yield, but the effect of the N topdressing ratio is not as significant as that of increasing 60 kg N ha^-1.

Keywords: N use efficiency; ear fruiting traits; leaf area; light interception rate; yield.

Grants and funding

This research was funded by the National Key Research and Development Program of China (2016YFD0300408), the Transformation and Application Special Project in Agricultural Scientific and Technological Achievements of Anhui Province (2021ZH002), the Anhui Natural Science Foundation of China (2108085QC111), and the Open Project from Joint International Research Laboratory of Agriculture and Agri-Product Safety of Yangzhou University (JRK2018004).