Abstract Nitrogen (N) and phosphorus (P) are important resources of soil for plant growth. Different fertilization managements and cropping systems affect the transformation and availability of N and P in soil. The purpose of this study was to investigate the effects of different fertilization management after different periods on the form and transformation of N and P in soils. A sequential extraction technique to fractionate P and the method proposed by Bremner to separate N in different fractions were used. Soil samples were taken from a nine-year field experiment (TARI) with seven treatments, a sixteen-year experiment (KDARES-CBS) with two rotation systems combined with three fertilization managements, and a four-year greenhouse experiment (TDARES) with seven treatments, respectively. The results indicated that application of compost and chemical fertilizer increased the concentrations of available P in soil at TARI. Soil total N and total hydrolyzable N were significantly influenced by the application of organic fertilizer. Compared with CK treatment, application of fertilizer increased the proportion of H2O-P fraction, NaHCO3-IP fraction, and NaOH-IP fraction, respectively. This result indicated that application of P fertilizer increased labile inorganic P. In KDARES-CBS experimental soil, the concentrations of available P in soils of organic farming and intermediate farming were higher than that of conventional farming. Application of organic fertilizer decreased the proportion of total hydrolyzable N fraction and hydrolyzable NH4-N fraction, and increased the proportion of nonhydrolyzable N fraction and unidentified hydrolyzable N fraction, respectively. In TDARES experimental soils, except SBM and PC treatments, the concentrations of total N and total hydrolyzable N of other organic fertilizer treatments are higher than those of Chem treatment. In conclusion, the characteristics of N and P of soil change significantly after different fertilization managements. Key words: Fertilization management, Phosphorus fractions, Nitrogen fractions.