From field observations, we found that Sapindus mukorossi has good performance in water deficit habitat. In order to understand the adaptation mechanism of S. mukorossi, we planted three-year-old seedlings under various water treatments and measured the responses on phenology, physiology and internal adjustment of the seedlings. In this study we applied three water treatments based on soil relative water content. The results indicate that S. mukorossi had the best performance under sufficient water supply, but can survive on dry soil, which represent permanent wilting point for some other plants (RWC 4.96%). There’s no obvious difference in the biomass allocation and leaf morphological response among treatment, except the leaf angle. S. mukorossi shows strong avoidance function to avoid the loss of body water, such as low stomatal conductance, high apoplastic water content in tissue, dense cytoplasm and low elasticity coefficient of cell wall, which can help S. mukorossi to survive in drought environment. S. mukorossi grown under sufficient water supply had the best photosynthetic performance and the lowest which under drought treatment. However, the result of the analysis of leaf plasma membrane and chlorophyll fluorescence show that there’s no damage of photosystem under water deficit condition and plant can maintain photosynthetic capacity in drought environment. High level protection of the photosystem might contribute to the maintenance of photosynthetic capacity during water deficit. However, high tolerance of drought stress of S. mukorossi could inhibit photosynthetic potential, thus, under sufficient water supply condition, it would not be beneficial to compete with other similiar lifestyle plants.