The objective of this study was to investigate the effects of various forms
of nitrogen (NO3-, NH4+) supplied to the roots via a nutrient solution on
the apoplastic pH in intact leaves determined by fluorescence ratio imaging
. In contrast to NH4+, higher apoplastic pH values in leaves of Phaseolus v
ulgaris and Helianthus annuus were measured with NO3- nutrition. In this co
ntext no significant differences were found in leaves of vicia faba and Zea
mays supplied with the various forms of N. Comparative studies on apoplast
ic pH in leaves of Vicia faba, Zea mays and Helianthus annuus demonstrated
that NO3- reductase activity in roots was responsible for the differences i
n NO3- concentration and pH in the leaf apoplast. Light-induced pH changes
in the leaf apoplast also occur and may overlap the effects of various form
s of N. Increasing concentrations of NO3- supply to the roots did not signi
ficantly affect apopla of leaves whereas NH3 gas exposure caused a biphasic
response in apoplastic pH.stic pH in leaves of Helianthus annuus. Depletio
n of NO3- in the nutrient solution led to lower apoplastic pH in leaves of
Zea mays. Leaf fertilization with NH4+ led to a decline in apoplastic pH.