Understanding physiological mechanisms of variation in grain filling of maize under high planting density and varying nitrogen applicate rate
文献类型: 外文期刊
第一作者: Ren, Hong
作者: Ren, Hong;Zhao, Ming;Zhou, Baoyuan;Zhou, Wenbin;Li, Kemin;Li, Congfeng;Ren, Hong;Qi, Hua;Jiang, Ying
作者机构:
关键词: maize; grain filling; C-13-photosynthates; vascular bundle structure; matter transport efficiency
期刊名称:FRONTIERS IN NUTRITION ( 影响因子:6.59; 五年影响因子:6.873 )
ISSN: 2296-861X
年卷期: 2022 年 9 卷
页码:
收录情况: SCI
摘要: Grain filling is a critical process for achieving a high grain yield in maize (Zea mays L.), which can be improved by optimal combination with genotype and nitrogen (N) fertilization. However, the physiological processes of variation in grain filling in hybrids and the underlying mechanisms of carbon (C) and N translocation, particularly under various N fertilizations, remain poorly understood. The field experiment was conducted at Gongzhuling Farm in Jilin, China. In this study, two maize hybrids, i.e., Xianyu 335 (XY335) and Zhengdan958 (ZD958) were grown with N inputs of 0, 150, and 300 kg N ha(-1) (N0, N150, and N300) in 2015 and 2016. Results showed that the N application significantly optimized grain-filling parameters for both maize hybrids. In particular, there was an increase in the maximum filling rate (G(max)) and the mean grain-filling rate (G(mean)) in XY335 by 8.1 and 7.1% compared to ZD958 under the N300 kg ha(-1) (N300) condition, respectively. Simultaneously, N300 increased the small and big vascular bundles area of phloem, and the number of small vascular bundles in peduncle and cob at the milking stage for XY335. XY335 had higher root bleeding sap (10.4%) and matter transport efficiency (8.4%) of maize under N300 conditions, which greatly enhanced the C-13 assimilates and higher C and N in grains to facilitate grain filling compared to ZD958. As a result, the grain yield and the sink capacity for XY335 significantly increased by 6.9 and 6.4% compared to ZD958 under N300 conditions. These findings might provide physiological information on appropriate agronomy practices in enhancing the grain-filling rate and grain yield for maize under different N applications, namely the optimization variety and N condition noticeably increased grain filling rate after silking by improving ear vascular structure, matter transport efficiency, and enhancing C and N assimilation translocation to grain, eventually a distinct improvement in the grain sink and the grain yield.
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