E. purpurea, also known as the purple coneflower, is a native North American perennial medicinal herb and widely used to treat cold, sore throats, upper respiratory infections, and some inflammatory conditions for hundreds of years. The main bioactive compounds responsible for the pharmacological actions are caffeic acid derivatives (CADs), such as caftaric acid, chlorogenic acid, caffeic acid, echinacoside and cichoric acid. Few researches have investigated the relationship between the fertilizer management and the content of bioactive compounds of E. purpurea in Taiwan. The aims of this study were: (1) to investigate the effects of different nitrogen (N) fertilizers and application rates on the growth and caffeic acid derivative contents of E. purpurea; and (2) to evaluate caffeic acid derivative contents of E. purpurea in two different growth stages. The study was conducted under completely randomized design with four replications. The treatments were Control (0 g N plot-1), Chem 1 (0.40 g N plot-1), Chem 2 (0.80 g N plot-1), Chem 3 (1.20 g N plot-1), Org 1 (0.80 g N plot-1), Org 2 (1.60 g N plot-1) and Org 3 (2.40 g N plot-1). The samples of plants (shoots and roots) and soil were taken and analyzed at 150 and 180 days after transplanting (DAT). The results showed that the application of organic fertilizer could maintain pH at a relatively constant level and increase the concentrations of total N, organic matter, Mehlich Ⅲ extractable phosphorus (P), calcium (Ca), magnesium (Mg) and manganese of soil after harvesting. Moreover, there was no significant difference on the dried weight of E. purpurea in all treatments. After blooming stage, E. purpurea would uptake considerable amount of N, P, K, Ca and Mg, and transported great amount of K from roots to shoots. The high application rate of chemical fertilizer could increase the N and Ca concentrations of the plant. The application of organic fertilizer would enhance the uptake of P and K, but decrease the production of phenol and caffeic acid derivatives in E purpurea. In summary, to consider the content of bioactive compounds and sustainable development of soil, the application of organic fertilizer is a better strategy for cultivating E. purpurea. The highest concentrations of total phenol (18.3 g kg-1) and coffeic acid derivatives (36.1 μmol g-1) were found in Org 1.