Lisianthus [Eustoma grandiflorum (Raf.) Shinn.] is an important cut flower for export trade in Taiwan. Market demand has been increasing with increasing planting area and production. However, nutrition management during plug production for Eustoma has not been well established. This study aimed to determine the effects of nitrogen (N), phosphorus (P), and potassium (K) concentration, and nitrogen form of nutrient solution during plug production on seedling growth at 25/20oC and subsequent plant growth and flowering performance of Eustoma ‘Claris Pink’, ‘Rin’, and ‘Ceremony Blue Flash’ grown in summer and winter. Johnson’s solution containing 4-24 and 4-36 mM N were weekly applied from cotyledon fully expanded to the third leaf pair stage during summer and winter, respectively. Seedlings fertilized with 16-20 mM N took shorter time from treatment to the first, second, and third leaf pairs expanded. Seedlings received 24-36 mM N did not exhibit faster growth, while those fertilized with 4-12 mM N grow slower. Whole plant net photosynthesis rate (Pn), increased with increasing N concentretion from 4 to 20-24 mM, and further increased N at 28-36 mM did not increase Pn. Seedlings fertilized with 4-8 mM N had significant lower Pn. Leaf Fv/Fm value increased from 0.67-0.76 to 0.80-0.82 when N concentration increased from 4 to 16-20 mM. Leaf area, whole plant, shoot, and root dry weight increased with increasing N concentration from 4 to 20-24 mM. Tissue N concentration increased with increasing solution N concentration. Tissue P, K, calcium (Ca), and magnesium (Mg) concentration decreased with increasing solution N concentration from 4 to 12 mM, but tissue P, K, Ca, and Mg did not decrease with higher solution N concentration (16-36 mM). After transplanting, plnats took longer time to bolt and flower when seedlings received 4-8 mM N, as compared with other treatments. Time to flowering and harvest was earlier when seedlings fertilized with 20-28 mM N. Seedlings were fertilized weekly with Johnson’s solution containing 20 mM N in 0:100, 25:75, 50:50, 75:25, and 100:0 of NH4+ to NO3－ ratio. Medium EC increased and pH decreased with increasing NH4+ ratio. Pn, root activity, leaf area, and whole plant, shoot, and root dw increased with increasing NH4+ ratio. After transplanting, plants bolted earlier and had longer stem when seedlings fertilized with 50% or higher NH4+ as N source. Seedlings were fertilized weekly with Johnson’s solution containing 0-2.5 and 0-2.0 mM P during summer and winter, respectively. Pn increased when P concentration increased from 0 to 1.0 mM, but decreased when P concentration increased to 2 mM. Leaf Fv/Fm value (0.8) did not differ between treatments, while those fertilized with 0 mM P, had the lowest Fv/Fm value. Seedlings fertilized with 2 mM P had the lowest root activity. Total leaf number, leaf area, and dry weight increased when P concentration increased from 0 to 1.0 mM, but decreased when P concentration increased to 2.0-2.5 mM. Tissue P concentration increased with increasing solution P concentration. Tissue N, K, Ca, and Mg concentration slightly increased when solution P concentration increased from 0 to 0.125-0.25 mM, but did not change significantly with further increases in P concentration. Plants took longer to flower when seedlings were fertilized with 0-0.25 mM P and some plants rosetted in summer when plug seedlings were fertilized without P. Flowering performance was not affected in plants when fertilized with 0.5-2.5 mM P during plug stage. Seedlings were fertilized weekly with Johnson’s solution containing 0-10 mM K during summer and winter, respectively. Solution K concentration did not affect Pn and leaf Fv/Fm value. Tissue K concentration increased with increasing solution K concentration. Plants leaf area and total dry weight in ‘Claris Pink’ increased with increasing K concentretion from 0 to 4 mM, and further increased K to 10 mM did not increase growth in summer. Solution K concentration did not affect growth of ‘Rin’ and ‘Ceremony Blue Flash’ grown in summer. ‘Claris Pink’ and ‘Ceremony Blue Flash’ had higher leaf area and total dry weight when received 0-4 mM K during plug stage in winter High K (8-10 mM) treatments during plug stage reduced leaf area and total dry weight in plants grown in winter. Solution K concentration during plug stage did not affect growth of ‘Rin’ in winter. Flowering performance was not affected in plants when fertilized with 0-10 mM K during plug stage. From the results as shown above, Eustoma seedlings of tested cultivars should be fertilized with Johnson’s solution containing 24-28 mM N with more than 50% NH4-N, 0.5-1.0 mM P, and 4-6 mM K weekly from cotyledon fully expanded to the third leaf pair expanded.