Functional relationships between hydraulic traits and the timing of diurnal depression of photosynthesis

Abstract

The hydraulic coordination along the water transport pathway helps trees provide adequate water supply to the canopy, ensuring that water deficits are minimized and that stomata remain open for CO 2 uptake. We evaluated the stem and leaf hydraulic coordination and the linkages between hydraulic traits and the timing of diurnal depression of photosynthesis across seven evergreen tree species in the southern Andes. There was a positive correlation between stem hydraulic conductivity (k s ) and leaf hydraulic conductance (K Leaf ) across species. All species had similar maximum photosynthetic rates (A max ). The species with higher k s and K Leaf attained A max in the morning, whereas the species with lower k s and K Leaf exhibited their A max in the early afternoon concurrently with turgor loss. These latter species had very negative leaf water potentials, but far from the pressure at which the 88% of leaf hydraulic conductance is lost. Our results suggest that diurnal gas exchange dynamics may be determined by leaf hydraulic vulnerability such that a species more vulnerable to drought restrict water loss and carbon assimilation earlier than species less vulnerable. However, under stronger drought, species with earlier CO 2 uptake depression may increase the risk of hydraulic failure, as their safety margins are relatively narrow.