Biosolid is the primarily organic solid product produced by municipal wastewater treatment processes which can be beneficially recycled. Applying municipal biosolid to agricultural area is an effective way to recycle the nutrients and organic matter from biosolid. In the past, biosolid application rates were usually applied to the soil based on nitrogen (N) requirements of vegetarian growth. In most cases of the world, applying biosolid based on the crop N needs usually supplies excess phosphorus (P) to the soil, which can cause the surface water or ground water pollution by eutrophication and other undesirable environment effect. Accurate predictions of biosolid application rates are one of the key factors for benefit crops without risk of excess N and P leaching from soil system. The studied sewage sludge (biosolid) was collected from Nei-Hu sewage treatment in Taipei, Taiwan. The sludge was dewatered and dried for about one month and grounded by the machine. Biosolid was thoroughly mixed with 3.6 kg of Sankengtzu loam soil for plot experiment. Two greenhouse plot studies were conducted based on pak-choi N and P fertilizer recommendation application rate (200 kg N ha-1 and 25 kg P ha-1) were added into the soil on August and September, 2004. In each experiment, four treatments was conducted, including control treatment, biosolid was applied by normal N (or P) fertilizer rate, biosolid was applied by two times of N (or P) fertilizer rate, and a chemical fertilizer application rate treatment. Pak-choi (Brassica rapa L. Chinensis Group cv. Fengshan pak-choi) was seeded and left 6 plants for each plot. The leaching experiment was started after 10 days based on annual and two-times of average precipitation (2500 mm yr-1). Pak-choi was harvested on 33rd day after it was seeding. Plant yield of all the treatments are not significantly different. Under leaching experiment, some biosolid treatments were flooded and make some influences on plant growth. The concentration of total nitrogen in the vegetable of the chemical fertilizer treatment is significantly higher than other treatments (p < 0.05). Nitrogen uptake was not significantly different to the different biosolid application rates (p < 0.05). The total phosphorus concentration and total uptake of vegetable are increasing by the application of biosolid. After application of biosolid into the soil, surface 10 cm soil pH will be significantly higher than that of chemical fertilizer treatment (p < 0.05). The increasing of pH is about 0.3 to 0.5 pH unit and the pH value of leachate solution is ranged from 6 to 7, which also higher than that of chemical treatment (soil pH ranged from 4 to 6). The electrical conductivity (EC) value of leachate solution increase to the highest value at the initial period, then the EC value decrease with the time. Biosolid application can accumulate the Bray-1 phosphorus on the surface 10 cm soil. The increasing of soil Bray-1 phosphorus was significantly correlated to the dissolved labile phosphorus (p < 0.001), and the phosphorus leaching loss under the precipitation of two-times of normal precipitation is more than 3.6 times than that of normal precipitation. We concluded that biosolid application rate should consider the risk of leaching phosphorus loss from the soil system. After biosolid was applied the soil, the soil exchangeable nitrogen is higher than that of chemical fertilizer treatment and the nitrogen loss in the leachate solution is significantly lower than that of chemical fertilizer treatment (p < 0.05). Biosolid application can decrease the loss of exchangeable nitrogen. Too much of precipitation will increase the nitrogen loss. Appropriate irrigation and good drainage can decrease the excess nitrogen and phosphorus leaching loss. Application biosolid into the soil can provide better soil environment condition and decrease the nitrogen loss from leaching, however, available phosphorus will accumulate on the surface soils and increasing the risk of phosphorus loss to the groundwater. From the result of this study, different biosolid application methods do not affect the vegetable yield. In the future, composting of sewage sludge is required to get a better way to recycle the biosolid for land use.