Whole‐plant ABA flux and the regulation of water loss in Cedrella odorata

Three‐month‐old Cedrella odorata seedlings were exposed to a soil‐drying treatment. During this period, xylem sap was periodically collected from the plant by applying pneumatic pressure to the roots. This also allowed whole‐plant water status to be measured by recording the balancing pressure applied. The concentration of ABA in xylem sap ( C ) was related to the whole‐plant transpiration rate ( V ) which was measured with a sap flow gauge. The analysis of these paired measurements centred on how the reciprocal of C (R) varied with respect to V. This revealed that (1) the observed increases in C could not be explained by the reductions in V alone, (2) initially, decreases in V were associated with proportional increases in the whole‐plant ABA flux ( M ), and (3) this relationship broke down at low values of V since zero flow was associated with a finite value for C estimated to be 41 pmol ABA mmol −1 H 2 O. A simple static model is developed from the observations that is able to explain the data well, and the results are discussed in terms of the effects of ABA on stomatal conductance ( g sw ).