Distribution profile of stomatal conductance and its interrelations to transpiration rate and water dynamics in young maize laminas under sulfate deprivation

Abstract

Seven-day-old maize (Zea mays) plants were grown hydroponically for 10 days in S-deprived nutrient solution. The distribution profiles according to the position on the stem of the S-deprived laminas’ stomatal conductance, transpiration rate, photosynthetic rate, dry mass, water content, and specific surface area were monitored relative to control among others. Photochemical efficiency of photosystem II remained unaffected by the deprivation, as well as the specific surface area of all but the embryonic laminas after d2. In S-deficient plants, the embryonic (L0) and the uppermost lamina or the one below it presented mostly significant changes. The response ratios (Rr) of the L0 stomatal conductance oscillated; the oscillation started with an increase at d2. The corresponding Rr values of L0 transpiration and photosynthetic rates started oscillating at d4 in the same fashion. At d8, an increasing gradient appeared in water-content Rr values from L1 to the uppermost lamina. At d10, all but the embryonic laminas presented significantly reduced Rr values in water content. Changes in dry mass and surface area of laminas were synchronized. In control, the transpiration rate expressed per DM unit remained constant during the examined period, while under the deprivation it followed a power function of surface area.