A single-cross maize hybrid, Tainung No. 351, and a double-cross hybrid, Tainan No. 11, were grown in the field at a density of 58,800 plants/ha in the fall of 1983. N rates of 75, 150, 225 and 300 kg/ha were supplied in the form of ammoniom sulfate. Samplings were made at a two-week interval starting from mid-silking to maturity. Leaf area and N and total nonstroctural carbohydrate (TNC) concentrations were dater-mined in plant fractions. The purposes of this study were to compare the physiological differences between the two hybrids and to clarify the physiological basis of the high yield potential of Tainung No. 331. Results showed that increased N fertilization delayed the dates of heading and silking. Grain yield of Tainung No. 351 increased with increasing N level, doe mainly to higher kernel number per ear which could compensate for the loss of lower 100-kernel weight. N had positive effects on plant N concentration, leaf area and dry matter accumulation. N use efficiencies (unit grain yield per unit N supplied) of Tainung No. 351 were 90.5 and 27.3 at N rates of 75 and 300 kg/ha, respactively. Corresponding values for Tainan No. 11 were 68.9 and 19.9 Yield efficiencies (unit grain yield per unit leaf area) were 3.06 and 2.96 g/dm^2 for Tainung No. 351 and 3.50 and 3.17 g/dm^2 for Tainan No. 11 at N rates of 150 and 300 kg/ha, respectively. Within 2 weeks after silking, stalk and cob acted as temporary sinks to store N and TNC for the subsequent needs of grain filling. TNC concentration was above 13% in the stalk of mature Tainung No. 351 plants hut was below 3% in Tainan No. 11. This fact indicated that carbohydrate translocation of the high-yielding Tainung No. 351 was less efficient. Yield could be further enhanced through increasing kernel weight. Limiting factors to grain yield of Tainan No. 11 were presumed to be both source capacity and sink size. Experimental results suggested that nutritional requirements of Tainung No. 351 was high. Appropriate dense planting might be a good measure under satisfactory conditions to increase leaf area and photosynthetic ability. Further understanding of the interaction between N and C metabolism was important in order to increase kernel number and kernel weight simultaneously and hence the yield of Tainung No. 351.