DIURNAL REGULATION OF NO3- UPTAKE IN SOYBEAN PLANTS .3. IMPLICATION OF THE ZIONI,DIJKSHOORN,BEN MODEL IN RELATION WITH THE DIURNAL CHANGES IN NO3- ASSIMILATION
P. Delhon et al., DIURNAL REGULATION OF NO3- UPTAKE IN SOYBEAN PLANTS .3. IMPLICATION OF THE ZIONI,DIJKSHOORN,BEN MODEL IN RELATION WITH THE DIURNAL CHANGES IN NO3- ASSIMILATION, Journal of Experimental Botany, 47(300), 1996, pp. 885-892
According to the Dijkshoorn-Ben Zioni model, NO3- uptake in the roots
is stimulated by NO3- assimilation in the shoots, through downward phl
oem transport of malate synthesized in response to reduction of NO2- t
o NH3. In this paper, one hypothesis resulting from this model was tes
ted, i.e. that the diurnal changes in NO3- uptake are due to the light
dependence of NO3- reduction in the leaves, This dependence was studi
ed in detached leaves transferred to deionized water or supplied via t
he transpiration stream with similar amounts of (NO3-)-N-15 in light o
r darkness. In the dark, the reduction of previously stored NO3- or xy
lem-borne (NO3-)-N-15 was generally about 40-50% of that measured in t
he light, Glucose supply to the detached leaves stimulated NO3- reduct
ion in the dark, but not enough to increase it up to the same rate as
in the light, Nitrite reduction in detached leaves was much less affec
ted by darkness, and could be maintained at a high level by exogenous
supply of substrate. Advantage was taken from this last observation to
sustain NO2- reduction in attached darkened shoots at the same rate a
s in the light, by ensuring an appropriate delivery of NO2- from the x
ylem, Although this was assumed to restore the light level of the asso
ciated synthesis of malate, it led to a marked inhibition of NO3- upta
ke. In addition, the direct supply of malate to the shoots or to the r
oots failed to prevent the decrease of NO3- uptake in darkness, Thus,
our conclusion is that the mechanisms evoked in the Dijkshoorn-Ben Zio
ni model do not play an important role in the diurnal variations of NO
3- uptake in soybean plants.