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Low-nitrogen stress tolerance and nitrogen agronomic efficiency among maize inbreds: comparison of multiple indices and evaluation of genetic variation |
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| Authors: | Yongshen Wu Wenguo Liu Xinhai Li Mingshun Li Degui Zhang Zhuanfang Hao Jianfeng Weng Yunbi Xu Li Bai Shihuang Zhang Chuanxiao Xie |
| Institution: | 1. Institute of Crop Sciences, Chinese Academy of Agricultural Sciences/National Key Facilities for Crop Gene Resource and Genetic Improvement, Beijing, 100081, China 2. Guangxi Maize Research Institute of Maize Research, Guangxi Academy of Agricultural Sciences, Nanning Guangxi, 530227, China 3. Institute of Maize Research, Jilin Academy of Agricultural Sciences, Gong-Zhu-Ling, Jilin, 136100, China 4. Chinese Academy of Agricultural Sciences and International Maize and Wheat Improvement Center (CIMMYT) Joint Research Center, Beijing, 100081, China |
| Abstract: | Limited information is available on genetic variation in low-nitrogen (low-N) stress tolerance and N-use efficiency (NUE) among maize inbreds. To unveil this information, a panel of 189 diverse maize inbred lines was evaluated under contrasting levels of N availability over 2 years. Low-N agronomic efficiency (LNAE), absolute grain yield (GY) at low-N conditions, and the ratio between GY at low-N and optimum-N conditions were taken into account to represent low-N tolerance. Additionally, N-agronomic efficiency (NAE) along with other agronomic traits was also analyzed. Analysis of variance revealed significant effects of genotype on LNAE, NAE, and GY. The estimated broad-sense heritability was 0.38 for LNAE while it was only 0.11 for NAE, implying that selection based on LNAE should be more effective than NAE. LNAE exhibited highly positive genotypic and phenotypic correlations with GY, ear kernel number (EKN), kernel weight, plant height (PH), and chlorophyll content at low-N conditions, while it was negatively correlated with grain-N content and anthesis-silking interval. Path analysis indicated that the EKN at low-N stress had the highest positive effects on LNAE. |
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