Hf. Causin et Aj. Barneix, REGULATION OF NH-4- EFFECT OF ROOT AMMONIUM CONCENTRATION AND AMINO-ACIDS( UPTAKE IN WHEAT PLANTS ), Plant and soil, 151(2), 1993, pp. 211-218
When N deficient 10-day-old wheat plants were supplied with 1.5 Mol m-
3 NH4+, net NH4+ uptake rapidly decreased during the first 6 h, while
root free-NH4+ and free amino acids concentration increased. However,
after 24 h the NH4+ uptake rate increased again, as the internal NH4concentration decreased. When plants were pretreated during 40 h with
different external NH4+ concentrations, net uptake measured on 1.0 mol
m-3 NH4+ decreased with the increasing ion concentration during the p
retreatment. This decrement coincided with both root free-NH4+ and tot
al free amino acids levels. When N-starved and NH4+ fed plants were tr
eated during 0, 3 or 6h with 1.0 mol m-3 NH4+ in the presence of 1.0 m
ol m-3 MSX2, net uptake (measured without MSX) decreased with the leng
th of the inhibitor treatment. In both groups, MSX significantly incre
ased root free-NH4+ concentration, while the level of total free amino
acids was only increased in N-starved plants. When N-starved plants w
ere externally supplied with 1.0 mol m-3 of different amino acids or a
mides, net NH4+ uptake was only strongly inhibited in the presence of
glutamine or asparagine. It is concluded that rapid changes in the con
centration of certain amino acids during NH4+ nutrition might regulate
the ion absorption, though at high endogenous levels of free NH4+ net
uptake could be suppressed independently of the root concentration of
free amino acids.