Growth, transpiration, root-born cytokinins and gibberellins, and nutrient compositional changes in sesame exposed to low root-zone temperature under different ratios of nitrate:ammonium supply

The growth of sesame (Sesamum indicum L.) was studied at three root temperature regimes (25/25, 20/10 and 15/15 degrees C day/night) factorially combined with three NO(3)(-): NH(4)(+) ratios (mM ratios, 10:0, 8:2, or 6:4), as a source of nitrogen (N), in the irrigation solution. The air temperature was kept constant at 30 degrees C. Transpiration, nutrient composition, and level of root-born cytokinins and gibberellins in the xylem exudate were monitored. The two low root temperature regimes, 15/15 and 20/10 degrees C, restricted the growth of sesame, reduced transpiration and increased the accumulation of soluble carbohydrates in the shoot and in the roots compared to the 25/25 degrees C regime. The NO(3)(-):NH(4)(+) ratios had no effect on growth. Nutrient contents in the shoot at low root temperatures, particularly K(+), NO(3)(-), and H(2)PO(4)(-) were decreased markedly, but Na(+) increased relative to it's content in the 25/25 degrees C regime. Increasing NH(4)(+) proportion in the irrigation solution raised total N concentration in the plant tissues at all root temperatures. The amounts of cytokinins and gibberellins in the xylem exudate decreased at the low root temperature regimes relative to the 25/25 degrees C regime. Low root temperature reduced xylem transport of nutrients and root born-phytohormones, most probably because of reduced water flow through the plant relative to the 25/25 degrees C regime.