Field comparisons of photosynthesis and leaf conductance in Ziziphus mauritiana and other fruit tree species in Zimbabwe

Abstract

Data are presented for gas exchange in exposed leaves in field grown Ziziphus mauritiana (Lamk.) at a highland site and potted seedlings at a hotter lowland site in tropical Zimbabwe, together with indigenous and locally-grown commercial fruit crops. The field trial at the highland site included local Ziziphus mauritiana, introduced Indian Z. mauritiana (cv. Umran), fig and peach. In all species assimilation was highest early in the morning, followed by a gradual decline throughout the remainder of the day. Leaf conductance followed the same trend as assimilation for fig and peach, but in Ziziphus cv. Umran and Ziziphus Musau, conductance tracked irradiance, reaching a maximum in the middle of the day. In all species, sub-stomatal CO2 concentrations increased with declining assimilation indicating that during high irradiance, assimilation was mainly controlled by mesophyll limitations rather than conductance. At the highland site both Ziziphus cv. Umran and Musau were highly productive, with light saturated assimilation significantly higher than in either fig or peach (P < 0.01). At the warmer lowland site, assimilation and conductance in Ziziphus Musau were also higher than in other indigenous fruit tree species growing under similar conditions. Despite increased assimilation in Ziziphus, when compared to the other species, there was no increase in the assimilation ratio (ratio of assimilation/conductance) which was offset by the high conductance values. The data indicate that under conditions where water was not limiting, young Ziziphus showed no enhanced stomatal control over water loss, but was highly productive (per unit leaf area) relative to the other species.