Keywords: 
• ozone /
• rice /
• nitrogen metabolism /
• nitrate reductase /
• antioxidant system /
• glutathione

Abstract: Ozone (O₃) is recognized as one of the most important air pollutants. It is of significance to accuratly evaluate the effect of elevated O₃ concentration on the growth and development of rice which is the main food crop. The ozone-induced visible injury symptom, and the effects of ozone on nitrogen metabolism, proline content and glutathione content in rice leaf were studied using open top chamber (OTC) method. Results showed that O₃ stress could significantly make damage to the rice leaf, such as chlorosis, brown spots, etiolation and withering in old leaf sheath, causing the grain to shrink and not full, causing rice maturity ahead of time. There were significant effects on the activities of nitrate reductase (NR) of the rice leaf under O₃ stress. When the O₃ concentrations were 40, 80 and 120 nL·L^-1, compared with the control group, the activities of NR in rice leaf decreased by 25.3%, 67.4% and 86.3% in the tillering stage, by 57.4%, 75.7% and 97.8% in the jointing stage, by 91.0%, 97.2% and 99.3% in the heading stage, and by 89.5%, 89.5% and 96.7% in the milk stage, rerpectively. The contents of NH₄⁺ -N and NO₃^--N in rice leaf decreased significantly with increasing of the O₃ concentration. For example, when the O₃ concentrations were 40, 80 and 120 nL·L^-1, compared with the control group, the content of NO₃^--N decreased by 46.3%, 52.7% and 65.7%, and the content of NH₄⁺ -N decreased by 6.5%, 12.9% and 43.4%. The effects of O₃ on proline contents in rice leaf varied in different stages. The contents of proline dramatically increased at the O₃ concentration of 40 nL·L^-1 but gradually decreased with further increasing O₃ concentrations in the tillering stage, the jointing stage and the heading stage. The contents of proline significantly decreased when the O₃ concentrations increased in the milk stage of rice. O₃ stress decreased GSH contents in the rice leaf while increased GSSG contents compared with the control group. At the O₃ concentrations of 40, 80 and 120 nL·L^-1, GSH contents in the rice leaf decreased by 68.7%, 80.2% and 78.2%, while GSSG contents increased by 494.4%, 527.2% and 439.8% compared with the control group in the rice milk stage. It can be concluded that O₃ stress had significant effects on nitrogen metabolism and anti-oxidant system of rice leaf.