Water and nutrition are important factors influencing the primary productivity of ecosystems. Climate change has directly or indirectly changed many environmental factors, including water and nutrient availability, which has greatly affected the growth and even the survival of plants. Most epiphytes absorb nutrition and water directly from the atmosphere so they are likely more sensitive to climate change. Studies suggested that the nutrient limitation of epiphytes is similar to non-epiphytes of the ecosystem. Moreover, epiphytes have much shorter life spans than non-epiphytes, especially trees. Thus, fertilization experiments can be used to examine epiphyte nutrient limitation and infer ecosystem nutrient limitation. This study aims to examine how the response of epiphyte growth to water and nutrition manipulation. We collected Taiwan nest fern (Asplenium nidus Linn.) from Fushan Botanical Garden and Wulai Fushan Village, then manipulated their water availability (high and low) and nutrient availability (adding nitrogen , phosphorus, phosphorus plus nitrogen, control) in the greenhouse. It was found that the leaf area of A. nidus in the high water group was significantly greater than low water group. Among the different fertilization groups the nitrogen plus phosphorus fertilization group was the highest across different water treatments. Nitrogen addition and phosphorus addition showed opposite effects on A. nidus growth between high and low water treatments. Leaf elements content was overall higher in the high water group, but a few elements such as carbon and potassium were higher in the low water group. The results showed that the growth of A. nidus was more affected by water limitation than nutrient limitation and may be co-limited by nitrogen and phosphorus.