Camptothecin and its analogues are potent anticancer agents, and two of its semi-synthetic derivatives are now applied to clinical treatment for cancer. Most camptothecin was extracted from camptothecin-containing plants. High concentration of camptothecin alkaloids presents in Nothapodytes foetida, however, only few researches concentrated on the effects of cultivation on the camptothecin production in N. foetida. The objective of this study was to investigate the effect of nitrogen (N) application rate, water stress, and shading on the growth, nutrient uptake, and the production of camptothecin in N. foetida. The studied plants were three-year-old N. foetida, grown in the greenhouse of farm of National Taiwan University. The treatments contained low and high N application rates (2N & 3N), water stress (3ND) and shading (3NS). All treatments were replicated four times and were arranged in randomized complete block design. All shoots were cut off from the 37 cm in height above ground on May 9, 2008, and all plants sprouted on May 24, 2008. Two months of cultivation and one month of treatments were conducted after budding. Two grams of urea-N, 0.25 g superphosphate-P and 0.25 g KCl-K per plant were applied on May 24, 2004. Later one gram urea-N per plant was applied to each plant except the 2N treatment on July 8, 2004. For water stress treatment, the plants were withheld water until leaf wilting. After one jour of the leaf wilting, the plants were watered and a new drought cycle started. The shading treatment was processed with a black shade cloth that reduces 66% full sunlight. On October 24, all shoots were harvested with one shoot remaining. Then another treatment cycle was conducted. The whole plants were harvested after the second treatments. Five centimeter from the top of each shoot was defined as young leaves and young stems, and the remaining parts were mature leaves and mature stems. The results showed that treatments had no significant effect on the dry weight of the upper parts of plants; however, water stress treatment resulted in increase in the dry weight of root. The higher rate of N application resulted in increase in the concentration of total N, nitrate-N, and soluble reduced N of plants. There was no significant effect of treatment on the camptothecin concentration. Water stress resulted in decrease in the manganese concentration of the root, and increase in the amount and concentration of camptothecin of the root. Shading resulted in increase in the concentrations of the nitrate-N of all parts of plants and camptothecin of the trunk. The camptothecin concentration in different parts of plants decreased in following order: root > trunk > stem > leaf. The camptothecin concentrations were lower in young leaves and young stems than that in mature parts.