Abstract Theactive metabolites of Centella asiatica, centelloside, could improve synthesis of collagen, treat some skin diseases and enhance learning and memory. It could be a drug used after brain attack and epilepsy. C. asiatica is a herbaceous annual plant, having creeping stolons with a low biomass yield. Therefore, high biomass yield and high concentration of centelloside are very important in order to use this plant. The study was conducted in the green house of National Taiwan University with two types of culture, i.e., soil culture and water culture. All treatments were arranged in a randomized complete design. In the soil culture, there were six treatments, including: five rates of nitrogen (N) fertilizer treatments (0, 3, 6, 12, 24 g N m-2) and an organic fertilizer treatment (6 g N m-2). The same amounts of phosphorous (P) (3 g P m-2) and potassium (K) (4.5 g K m-2) as potassium dihydrogen phosphate and potassium chloride, respectively, were applied to all treatments except for the organic one. The plants were harvested two times, 70 days and 112 days after planting (DAP). Only the shoot was sampled at 70 DAP and the whole plant was harvested at 112 DAP. The soils were also sampled at 112 DAP. In the water culture, 1/2 strength modified Hoagland’s solution was used. There were four rates of N fertilizer treatments (N 105, 161, 217, 329 mg L-1) by adding different amounts of ammonium nitrate. Treatments were initiated after preculturing for 14 days and the whole plant was harvested after treating for 42 days. The plants were separated into leaf, stem and root then oven drying at 70℃ for three days. The concentration of total N, nitrate-N, ammonium-N, P, K, calcium (Ca), magnesium (Mg), iron (Fe), manganese (Mn), copper (Cu), zinc (Zn), madecassoside, asiaticoside, madecassic acid and asiatic acid were analyzed. The pH, electric conductivity of saturation extract and the concentrations of total N, nitrate-N, ammonium-N, Bray-1 P, organic matter, Mehlich III extractable K, Ca, Mg, Fe, Mn, Cu and Zn of soil were also determined. Nitrogen fertilizer application resulted in decrease soil pH, increase EC and nitrate-N concentration. However, organic fertilizer application resulted in increase soil pH. Treatment of 24 g N m-2 resulted in the highest Mn concentration in all parts of C. asiatica. The dry matter yield of N 217 mg L-1 treatment was the highest and that of N 329 mg L-1 treatment was the lowest in water culture. The concentrations of centelloside of different parts of C. asiatica were sensitive to the N concentration applied in the nutrient solution and decreased in the order: stem > leaf > root. Madecassoside and asiaticoside were most significant affected by N fertilizer treatment in the four chemicals studied. The centelloside yield was the lowest under N 329 mg L-1 treatment.