Soil pot experiments were conducted in a greenhouse to examine the effects of different nitrogen (N) supply (low, 0.15 g N/kg; middle, 0.3 g N/kg; and high, 0.6 g N/kg dry soil) on the growth, photosynthetic chara...Soil pot experiments were conducted in a greenhouse to examine the effects of different nitrogen (N) supply (low, 0.15 g N/kg; middle, 0.3 g N/kg; and high, 0.6 g N/kg dry soil) on the growth, photosynthetic characteristics and photosynthetic nitrogen use efficiency (PNUE) of tobacco seedlings (Nicotiana tabacum L. Yunyan 87). The results showed middle and high N significantly enhanced seedling growth including plant stem and leaf dry weight comparing with low N. High N supply could lead to a dramatic increase in the photosynthetic capacity of tobacco seedlings under low N conditions. There were significant differences in leaf N content between nitrogen treatments. About a 76% increase in leafN content in plants fed by high N resulted in about 43% increase in Rubisco content and 27% in net photosynthetic rate. The non-corresponding increases in photosynthetic rate in tobacco seedlings fed by high N relative to low N resulted from Rubisco activity and/or carboxylation efficiency (CE). These results indicated that tobacco seedlings under high N application can maintain high net photosynthetic rate (Pn) but lower PNUE, will finally result in a decline in N use efficiency.展开更多
文摘Soil pot experiments were conducted in a greenhouse to examine the effects of different nitrogen (N) supply (low, 0.15 g N/kg; middle, 0.3 g N/kg; and high, 0.6 g N/kg dry soil) on the growth, photosynthetic characteristics and photosynthetic nitrogen use efficiency (PNUE) of tobacco seedlings (Nicotiana tabacum L. Yunyan 87). The results showed middle and high N significantly enhanced seedling growth including plant stem and leaf dry weight comparing with low N. High N supply could lead to a dramatic increase in the photosynthetic capacity of tobacco seedlings under low N conditions. There were significant differences in leaf N content between nitrogen treatments. About a 76% increase in leafN content in plants fed by high N resulted in about 43% increase in Rubisco content and 27% in net photosynthetic rate. The non-corresponding increases in photosynthetic rate in tobacco seedlings fed by high N relative to low N resulted from Rubisco activity and/or carboxylation efficiency (CE). These results indicated that tobacco seedlings under high N application can maintain high net photosynthetic rate (Pn) but lower PNUE, will finally result in a decline in N use efficiency.
