The active constituents of Centella asiatica are pentacyclic triterpenes, centelloside comprising of madecassoside, asiaticoside, medacassic acid and asiatica acid, which has anti-inflammatory, wound healing, stimulation of type I collagen and neuroprotection. Centelloside can also be used as a drug to treat epilepsy and leprosy. 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. In addition to tissue culture and metabolic engineering, cultivation of C. asiatica is the most popular practice to harvest centelloside. The objective of this study was to investiagate the effects of different concentrations of potassium (K), iron (Fe), manganese (Mn) nutrients and nitrate nitrogen (N) to ammonium N ratio on the biomass and centelloside concentrations of C. asiatica under hydroponic culture. The experiment was conducted in the green house of National Taiwan University. All treatments were arranged in a randomized comlete design. One half strength of modified Hoagland’s solution with nitrate N to ammonium N ratio of 5 : 1 was used as control (N5A1). The other treatments included : 1. solution with nitrate N to ammonium N ratio of 1 : 5 (N1A5), and 2. solution with K concentrations of 5, 7.5 mM (K-2 and K-3), and 3. Mn concentration of 45 μM (Mn-5), and 4. Fe concentration of 200 μM (Fe-5). All treatments were conducted with four replications. During the growth period, the plants were harvested three times, 35 days, 85 days and 135 days after planting (DAP). Only the shoots were sampled at 35 and 85 DAP and the whole plant was harvested at 135 DAP. The nutrient solutions were sampled at 85 and 135 DAP. The plants of the third harvesting were separated into shoot and root. The concentrations of total N, nitrate-N, ammonium-N, phosphorus (P), K, calcium (Ca), magnesium (Mg), Fe, Mn, copper (Cu), zinc (Zn), madecassoside, asiaticoside, medacassic acid and asiatic acid were analyzed. The soluble carbon, total free amino acids and total colony counts of nutrient solution were analyzed. The results showed that the dry matter yield was the greatest in N5A1 treatment and the least in Fe-5 treatment. The nitrate N concentration in C. asiatica of N1A5 was significantly lower than the control. There was no difference in the concentrations and amount of K among different K treatments. Mn concentration in plant of Mn-5 treatment was significantly higher than the Mn-1 treatment. Higher Fe concentration in nutrient solution resulted in the higher concentration of Fe in the plant, however, the uptake of Fe decreased with the higher Fe concentration treatment. The soluble carbon and total free amino acids in different hydroponic solutions decreased with the cultivation time. However, this was not true in Mn-5 and Fe-5 treatments. The concentration of madecassoside in plant was significantly higher in K-3 treatment, while the concentrations of madecassic acid and asiatic acid were significantly higher in N1A5 and K-2 treatments as compared with the other treatments.