In Taiwan, growers usually use sphagnum moss as potting medium to plant Phalaenopsis. The pH of sphagnum moss medium decreases during the cultivation of Phalaenopsis and the causes of this phenomenon are still unknown. Generally, change of medium pH affects mineral effectiveness, which might lead to nutritional deficiency or toxicity, and consequently reduces plant quality. This study aims to explore the causes of medium acidification and to understand the relationship between medium acidification and the preferred pH range of Phalaenopsis. Moreover, root secretions of Phalaenopsis were analyzed, in order to clarify causes of medium acidification. This study aimed to realize if medium types, fertilizer application, and Phalaenopsis Sogo Yukidian ‘V3’ itself are related to the medium acidification. The results showed that the initial medium pH value decreased with increasing fertilizer concentration. However, fertilizer application was not the main cause of continuous medium acidification, since a gradual pH decrease occurred only when Phalaenopsis was planted. Although the patterns of pH change were different between medium types, all media pH decreased with time. Although higher temperature improved vegetative growth of Phalaenopsis and light-transmission clear pot increased the root quality of Phalaenopsis, both temperature and light transmission had no effect on medium acidification. In conclusion, Phalaenopsis is the main cause of continuous medium acidification. Some other experiments were conduced to understand the relationship between medium acidification and the preferred pH range of Phalaenopsis. The results showed that Phalaenopsis in sphagnum moss pretreated with higher concentrations of CaCO3 solution (12 and 24 g•L-1) had poor root growth. Therefore, when using lime to increase the sphagnum moss medium pH, the applied concentration should be less than 12 g•L-1. In ebb and flow culture with various pH, though only tested for one month, higher pH of solution (pH 9 and pH 10.5) also resulted in poor root quality. Thereby it is recommended that the cultivation of Phalaenopsis should avoid high rhizosphere pH. In order to find out what Phalaenopsis roots have secreted to acidify medium, cultural solution after growing Phalaenopsis for 14 days was analyzed. The results showed that when Phalaenopsis was planted, regardless of fertilization, one more absorbance peak was recorded in HPLC analysis compared with solution where no Phalaenopsis was planted. The maximum UV absorption of the additional peak was below 200 and the NMR results showed that at least two sugar moieties might have composed the disaccharide derivative, and the LC-MS-MS analysis showed the molecular weight was 526 amu. Therefore, the exudation of Phalaenopsis roots contained a disaccharide derivative with molecular weight of 526 amu. In summary, Phalaenopsis was the main cause of the continuous medium acidification. High pH environment should be avoided when cultivating Phalaenopsis. Presently, a disaccharides derivative with molecular weight of 526 amu secreted from Phalaenopsis root was detected, but its relationship to medium acidification needed further studies.