Interactive effects of K+ and N (principally NH4+) on plant growth and
ion uptake were investigated using hydroponically grown rice (Oryza s
ativa L. cv, M202) seedlings by varying the availability of NH4+ or NO
3- and K+ during an 18 d growth period, a 3 d pretreatment period and
during flux measurements, Plants grew best in media containing 100 mmo
l m(-3) NH4+ and 200 mmol m(-3) K+ (N100/K200), followed by N2/K200>N1
00/K2>N2/K2. Rb-86(+)(K+) fluxes were increased by exposure to N durin
g the 18 d growth period and the 3 d of pretreatment, but decreased by
the presence of NH4+ during flux measurements, This inhibition was a
function of prior N/K provision and the [NH4+](o) present during flux
determinations. NH4+ was least inhibitory to Rb-86(+)(K+) influx in hi
gh-N/low-K plants, Pretreatments with K+ failed to stimulate NH4+ upta
ke, and the presence of K+ in the uptake solutions reduced NH4+ fluxes
only in high-N/low-K plants.