The roots of Phalaenopsis spp., which are naturally epiphytic orchids, are sensitive to high salinity. Little work has been done to investigate the salinity tolerance of the plants during various growth stages. Even under similar salinity, different ionic composition may affect the growth and nutrient absorption of Phalaenopsis plants. Phalaenopsis Sogo Yukidian 'V3' plants grown in 6-cm pots, 8.5-cm pots, and 10.5-cm pots were treated with fertilizer solutions with different salinities, which were achieved by adding various amounts of NaCl to a base nutrient solution containing a 15N-2.2P-12.5K fertilizer at 150 mg．L^(-1) N. Under salinity stress, the growth and spiking percentage of Phalaenopsis plants are adversely affected. Phalaenopsis plants in different growth stages have different tolerance levels to fertilizer solution salinity. The upper limit of fertilizer solution salinity for young plants in 6-cm pots is 1.15 dS．M^(-1) whereas for medium-sized plants in 8.5-cm pots it should be lower than 2.15 dS．M^(-1). The fertilizer solution salinity for Phalaenopsis mature plants grown in 10.5-cm pots should be lower than 3.15 dS．M^(-1); however, the EC value should be lower than 2.15 dS．M^(-1) for acceptable spiking rate. Roots of Phalaenopsis were sensitive to high medium EC, its dry weight decreased as the salinity increased; plants treated with water resulted in greatest root growth. When Phalaenopsis plants were fertilized with nutrient solutions having different ionic composition and salinity, antagonism between ions became more pronounced with increasing fertilizer solution salinity. Fertigation with salinity higher than 2.15 dS．m-1 reduced the absorption of calcium and magnesium by Phalaenopsis plants. Under similar EC values, raising the concentration of sodium in fertilizer solutions intensified the antagonism between ions, making it more difficult for the plants to absorb potassium, calcium, and magnesium.