The purpose of this study was to study the effects of nitrogen (N) fertilization management on the growth and nutrient uptake of rice and corn plants under corn-rice rotation system for eight years. There were seven treatments, which included: 1. check (CK); 2. chemical nitrogen fertilizer treated-plot (Chem-N); 3. compost treated-plot (Comp); 4. compost combined with additional one-third amount of N fertilizer as Chem-N treatment (Comp + 1/3 N); 5. compost combined with additional two-thirds amount of N fertilizer as Chem-N treatment (Comp + 2/3 N); 6. green manure combined with additional one-third amount of N fertilizer as Chem-N treatment (GM + 1/3 N); 7. peat combined with additional one-third amount of N fertilizer as Chem-N treatment (Comp + 1/3 N). The application rates of chemical fertilizer treated plot for corn and rice plants, were 140-80-80 kg ha-1 and 120-60-60 kg ha-1 for N, P2O5, and K2O, respectively. The same amount of superphosphate and potassium chloride as Chem-N plot were applied in all organic fertilizer treated plots. The treatments were replicated four time and arranged in randomized complete block design. Corn plants were sampled at knee high, tasseling, and maturity stage and rice plants were harvested at the most active tillering, primordial initiation, heading, and ripening stages, respectively. The concentrations of total N, ammonium N, nitrate N (for corn plants), insoluble N, phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), iron (Fe), manganese (Mn), copper (Cu), and zinc (Zn) in the various parts of the plants were determined. Some selected soil chemical properties before and after the harvest of the plants were also determined. The results showed that the dry matter yield of corn plants at maturity stage of the Comp + 2/3 N treatment was the highest among the all treatments. However, the dry matter yield of rice plants of Chem-N treatment was the highest at maturity stage. The amount of N absorption of Chem-N and Comp + 2/3 N treatments for both corn and rice plants were higher than that of the other treatments. Owing to the higher rate of P was applied in organic fertilizer treated plots, the absorption of P of these plots was higher in corn plants at maturity stage as compared with the Chem-N treatment and the highest amount of P uptake occurred in Comp + 1/3 N treatment. The Chem-N treated rice plant had the highest amount of P uptake at maturity stage. There was no significant difference in P uptake among the fertilized rice plants. The K uptake of corn plant increased with the rate of N applied in the compost treated plots. This also occurred in rice plant significantly at the maturity stage. In general, the effect of treatments on the uptake of Ca, Mg, Fe, Mn, Cu, and Zn was not statistically significant for both corn and rice plant at different growth stages. Key words: corn, rice, rotation system.