Evidence of a Role for Abscisic Acid in Mediating Stomatal Closure Induced by Obstructing Translocation from Leaves of Pearl Millet (Pennisetum americanum [L.] Leeke)

Application of a heat girdle near the base of the lamina ofthe fifth, fully expanded leaf of young pearl millet (Pennisetumamericanum L.] Leeke) plants resulted in a decrease in solutepotential, an increase in leaf dry matter content, and a declinein stomatal conductance and in the rate of CO₂ assimilation.Total water potential was largely unaffected by girdling whileturgor potential increased as a consequence of the decreasein solute potential. Abscisic acid (ABA) content of the leaf increased 5 to 6-foldwithin 1 h of girdling, then declined equally rapidly beforeincreasing again at a slower rate. The decline in conductance was correlated with both the decreasein solute potential and the increase in ABA. To determine whichof these factors could be controlling conductance, girdled leaveswere exposed either to 14 h of continuous light or to a similarperiod of darkness followed by a brief light treatment to allowstomata to open. Girdling reduced conductance equally followingdarkness or light but solute accumulation occurred only in thelight. ABA accumulated in girdled leaves in both darkness andlight. Simultaneous measurements of conductance and CO₂ assimilationshowed that intercellular CO₂ concentration did not increasefollowing girdling. It was concluded that the decrease in conductancein millet leaves after girdling was most probably mediated bythe increase in ABA content. Key words: Leaf girdling, Solute accumulation, Stomatal conductance, Abscisic acid; Pennisetum americanum