硝态氮促进水稻生长和氮素吸收的生理机制

Rice is being increasingly cultivated in intermittently irrigated regious and also in aerobic soil in which Nitrate (NO₃^-) plays important role in nutrition of plant. However, there is no information regarding the influence of nitrate on the overall growth and uptake of nitrogen (N) in rice plant. Solution culture experiments were carried out to study the effects of NO₃^- on the plant growth, uptake of N, and uptake kinetics of NH₄⁺ in four typical rice (Oryza sativa L.) cultivars (conveutioual indica, conventional japonica, hybrid indica, and hybrid japonica), and on plasma membrane potential in roots of two conventional rice cultivars (indica and japonica) at the seedling stage. The results obtained indicated that a ratio of 50/50 NH₄⁺-N/NO₃^--N increased the average biomass of rice shoots and roots by 20% when compared with that of 100/0 NH₄⁺-N/NO₃^--N. In case of the 50/50 ratio, as compared with the 100/0 ratio, total N accumulated in shoots and roots of rice increased on an average by 42% and 57%, respectively. Conventional indica responds to NO₃^- more than any other cultivars that were tested. The NO₃^- supply increased the maximum uptake rate (V_max) of NH₄⁺ by rice but did not show any effect on the apparent Michaelis-Menten constant (K_m) value, with the average value of V_max for NH₄⁺ among the four cultivars being increased by 31.5% in comparison with those in the absence of NO₃^-. This suggested that NO₃^- significantly increased the numbers of the ammonium transporters. However, the lack of effect on the K_m value also suggested that the presence of NO₃^- had no effect on the affinity of the transporters for NH₄⁺. The plasma membrane potential in the roots of conventional indica and japonica were greatly increased by the addition of NO₃^-, suggesting that NO₃^- could improve the uptake of N by roots of the rice plant. In conclusion, the mechanisms by which NO₃^- enhances the growth and N uptake of rice plant was found by the increased value of V_max of NH₄⁺ and increased plasma membrane potential. Thus promotion of nitrification in paddy soil is of great significance for improving the production of rice.

Mechanisms of enhanced rice growth and nitrogen uptake by nitrate

Rice is being increasingly cultivated in intermittently irrigated regions and also in aerobic soil in which Nitrate (NO^?₃) plays important role in nutrition of plant. However, there is no information regarding the influence of nitrate on the overall growth and uptake of nitrogen (N) in rice plant. Solution culture experiments were carried out to study the effects of NO^?₃ on the plant growth, uptake of N, and uptake kinetics of NH⁺₄ in four typical rice (Oryza sativa L.) cultivars (conventional indica, conventional japonica, hybrid indica, and hybrid japonica), and on plasma membrane potential in roots of two conventional rice cultivars (indica and japonica) at the seedling stage. The results obtained indicated that a ratio of 50/50 NH⁺₄ -N/NO^?₃-N increased the average biomass of rice shoots and roots by 20% when compared with that of 100/0 NH⁺₄ -N/NO^?₃-N. In case of the 50/50 ratio, as compared with the 100/0 ratio, total N accumulated in shoots and roots of rice increased on an average by 42% and 57%, respectively. Conventional indica responds to NO^?₃more than any other cultivars that were tested. The NO^?₃supply increased the maximum uptake rate (V_max) of NH⁺₄ by rice but did not show any effect on the apparent Michaelis-Menten constant (K_m) value, with the average value of V_max for NH⁺₄ among the four cultivars being increased by 31.5% in comparison with those in the absence of NO^?₃. This suggested that NO^?₃ significantly increased the numbers of the ammonium transporters. However, the lack of effect on the K_m value also suggested that the presence of NO^?₃had no effect on the affnity of the transporters for NH⁺₄. The plasma membrane potential in the roots of conventional indica and japonica were greatly increased by the addition of NO^?₃, suggesting that NO^?₃could improve the uptake of N by roots of the rice plant. In conclusion, the mechanisms by which NO^?₃enhances the growth and N uptake of rice plant was found by the increased value of V_max of NH⁺₄ and increased plasma membrane potential. Thus promotion of nitrification in paddy soil is of great significance for improving the production of rice.