超级杂交稻“Y两优1号”对氮肥用量的响应及其氮肥利用率

Response of super hybrid rice “Y Liangyou No. 1” to N-fertilizer dose and its N use efficiency

  • 摘要: 以超级杂交稻“Y两优1号”为材料, 设置0 (N0)、90 kg·hm-2 (N1)、135 kg·hm-2 (N2)、180 kg·hm-2 (N3)、225 kg·hm-2 (N4)、270 kg·hm-2 (N5)6种氮水平, 研究了不同供氮水平对水稻产量及氮肥利用效率的影响。由施氮量-产量模型可得, 施氮量为245.9 kg·hm-2时可夺取水稻高产(11.42 t·hm-2), 而施氮量为213.5 kg·hm-2时能更好地协调水稻产量和肥料利用率的矛盾, 获得最佳经济效益。不同供氮水平下, 分别采用Logistic函数对生育时期-总生物量进行动态模拟, 各模型因施氮水平的不同而异; 各模型均表明, 灌浆期群体总生物量增长速率最大; 随施氮量的梯度递增, 氮肥吸收利用率(NRE)与氮肥农学利用率(NAE)均呈现不同程度下降趋势。本研究设置的处理水平下, N4处理能较好地协调施氮量、产量和氮肥利用率的矛盾, 确保夺取高产及相对较高的氮肥利用率。本研究表明, 20%穗肥相对较少, 不能满足水稻后期灌浆结实需要, 超级杂交稻大田栽培建议加大穗肥施用比例。

     

    Abstract: Six doses of N 0 kg·hm-2 (N0), 90 kg·hm-2 (N1), 135 kg·hm-2 (N2), 180 kg·hm-2 (N3), 225 kg·hm-2 (N4) and 270 kg·hm-2 (N5) were used to compare grain yield composition and N use efficiency of “Y Liangyou No. 1” super hybrid rice. Based on the model of N dose-yield, yield is highest (11.42 t·hm-2) at N application rate 245.9 kg·hm-2. On the other hand, economic benefit is highest at 213.5 kg·hm-2 N amount due to the harmony between rice yield and N use efficiency. A Logistic model was used to simulate dynamic of total biomass production under different N doses. Though there exist different models for different N doses, total biomass generally increases rapidly at grain-filling stage. With increasing N dose, N recovery efficiency (NRE) and N agronomic efficiency (NAE) continuously decrease, but at different degrees. However, N4 treatment gives the best conditions for N dose, grain yield and N-fertilizer use efficiency. It has the highest yield and N-fertilizer use efficiency. As 20% total N dose for earing fertilizer does not meet grain-filling requirement, it is suggested to increase N application rate at booting stage of super hybrid rice cultivation.

     

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