WANG Chunxiao, LING Fei, LU Zeqi, JIANG Wei, ZANG Hongwei, ZHANG Wei, YAO Jie, LAN Feng, LIU Xuan, WANG Zhixin, ZHENG Yongmei. Characteristics of nitrogen accumulation and utilization in peanuts (Arachis hypogaea) with different nitrogen use efficiencies[J]. Chinese Journal of Eco-Agriculture, 2019, 27(11): 1706-1713. DOI: 10.13930/j.cnki.cjea.190239
Citation: WANG Chunxiao, LING Fei, LU Zeqi, JIANG Wei, ZANG Hongwei, ZHANG Wei, YAO Jie, LAN Feng, LIU Xuan, WANG Zhixin, ZHENG Yongmei. Characteristics of nitrogen accumulation and utilization in peanuts (Arachis hypogaea) with different nitrogen use efficiencies[J]. Chinese Journal of Eco-Agriculture, 2019, 27(11): 1706-1713. DOI: 10.13930/j.cnki.cjea.190239

Characteristics of nitrogen accumulation and utilization in peanuts (Arachis hypogaea) with different nitrogen use efficiencies

  • Enhancing nitrogen (N) use efficiency at a genetic level would be an effective way to reduce N use and strive toward green cultivation. Understanding the N use characteristics of different peanut (Arachis hypogaea) varieties could provide some valuable insight for selecting and breeding peanut varieties with high N use efficiency and reduce applied N use in cultivation. In total, 19 peanut varieties were used to investigate the N accumulation and utilization characteristics under different N use efficiency conditions of varieties with differing yield potentials in a pot experiment via 15N isotope tracing analysis. Based on the average yields and N use efficiencies, the 19 peanut varieties were divided into the following four types:high yield and high N use efficiency (HYHN), high yield and low N use efficiency (HYLN), low yield and high N use efficiency (LYHN), and low yield and low N use efficiency (LYLN). The results showed that there were significant differences in different peanut varieties. The varieties with moderate N content in the vegetative organs were conducive to a simultaneous increase in the yield and N use efficiency, while no significant differences were detected in the N content of the reproductive organs or whole plants across various peanut varieties. Increases in the N allocation rates in reproductive organs were characteristic of the HYHN varieties under the assumption that there was sufficient N accumulation in the peanut plants. The results also showed that the available N levels and N use efficiencies of the soil's N source and fertilizer's N source were consistent in various peanut varieties, whereas different yields among the varieties determined the fixed N from the N source at nodulation. In addition, under similar N use efficiency conditions, a higher N-fixing nodule level favored increased yield. The N supplying from the soil's N source increased in the high-N type varieties compared with that in the low-N type varieties; however, it was the opposite with regards to the fixed N source at nodulation. This showed that were desirable compensatory effects between the soil's N and fixed N sources. Meanwhile, there were no significant differences in the N supplying ratios with regards to the fertilizer's N source in various varieties. The yields and N use efficiencies of different varieties were highly consistent with the N use efficiency and partial productivity of the N fertilizer, whereas there were negligible differences in the N use efficiencies among various peanut varieties. In conclusion, there were significant differences among different peanut varieties with respect to the yield and N use efficiency. Breeding a HYHN peanut variety is of great importance and appears feasible. This is an effective method to decrease the N use in peanut cultivation in the future.
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