Cynanchum taiwanianum is an indigenous medicinal plants in Taiwan, its whole plant can be harvested for use as medicine and food. Traditionally, C. taiwanianum is used to treat snake bites, however, in recent years it is also popularly used for treating stomach ulcers, acne, liver disease, cholesterol and other diseases. Studies have shown that cynandione A is the main bioactive compound of C. taiwanianum. This compound had been demonstrated to have anti-inflammatory, anti-tumor, hepatoprotective, and neuroprotective. To date, due to the lack of basic information on its growth, and without good cultivation techniques, this has resulted in poor harvest, instable supply and poor quality of this medicinal ingredient. The main aim of this study was to investigate the effects of nitrogen and potassium fertilizers on the growth and the biosynthesis of main bioactive compound (cynandione A) and polyphenolic compounds in pot and field cultivated C. taiwanianum. Pot experiment consisted of two nitrogen rates (100 and 150 kg N ha-1) and three different rates of potassium (100,150 and 200 kg K2O ha-1) to form six different treatments, namely N1K1, N1K2, N1K3, N2K1, N2K2 and N2K3. Field experiment comprised of nitrogen and potassium treatments; nitrogen treatment contained three application rates, including 100, 150 and 200 kg N ha-1, and was named N100, N150 and N200, respectively, whereas potassium treatment contained three application rates, including 100,150 and 200 kg K2O ha-1, and was named K100, K150 and K200, respectively. The results showed that after fertilization treatments, although both shoot and root biomass were higher than the Control, there was no significant difference between fertilization treatments. The total phenolic and total flavonoid concentrations in the shoots and roots of fertilization treatments were not significantly different from each other. The total flavonoid concentrations in the shoot of the Control were significant higher than the fertilization treatments in the pot experiment. In the shoots, the concentration of ferulic acid was the highest in the N1K3 treatment. In the roots, the concentrations of polyphenolic compounds were not significantly different between treatments. Cynandione A was only detected in the roots and was found to have no significant difference between treatments. This study concludes that both nitrogen and potassium fertilizers are important elements for the development of C. taiwanianum roots. The different fertilization treatments showed no obvious effects on the concentrations of functional compounds. However, the combination of 150 kg N ha-1 nitrogen fertilizer and potassium fertilizer in a ratio lower than 1 were shown to be the best condition for the production of root biomass and the contents of functional compounds.