Changes in the water relations of balsam fir and white birch saplings after thinning

Abstract

In the autumn of 1987, young balsan fir (Abies balsamea (L.) Mill.) and white birch (Betula papyrifera Marsh.) trees were thinned and their water relations followed during the next two growing seasons. At the beginning of the first summer following treatment, thinned trees of both species had lower osmotic potentials at full saturation (.PSI..pi.,sat) and at turgor loss point (.PSI..pi.,tlp) compared with controls. At this time, .PSI..pi.,sat was linearly related to the percentage of full sunlight reaching the trees. A higher sugar concentration in leaves was an important component of the lower .PSI..pi.,sat of thinned trees. For the other two sampling dates during the first growing season after treatment and all three sampling dates during the second growing season after treatment, littel osmotic adjustment of the thinned trees relative to the control trees was observed in either species. The absence of osmotic adjustment during the second growing season following thinning suggests that other mechanisms were responsible for the acclimating of the treated trees to the higher atmospheric evaporative demand. Sapwood permeability (k) of white birch was higher than that of balsam fir, but no differences in k or in sapwood area were found between treated and control trees of either species. Predawn water potentials (.PSI.pred) of treated trees were less negative than those of controls.