Physiological traits and response strategies of four subtropical tree species exposed to drought

Abstract

World-wide, forests are experiencing drought-induced mortality. However, physiological adaptation to drought is highly variable, which may lead to differential mortality patterns and alter community structure. In this study, saplings of four common tree species ( Ormosia pinnata , Dalbergia odorifera , Castanopsis fissa and Michelia macclurei ) grown in subtropical plantations in southern China were subjected to average rainfall and three drought treatments, consisting of low (25% rainfall reduction), moderate (50% rainfall reduction) and high (75% rainfall reduction) drought. To investigate their drought response strategies and select tree species with higher drought tolerance, we examined plant traits, including tree growth, stomatal regulation, water relations, carbon dynamics and morphology, that might contribute to drought tolerance. We found that O. pinnata adapted to drought by decreasing turgor loss point (TLP) and increasing leaf dry matter content and leaf mass per area (LMA). D. odorifera exhibited low leaf minimum conductance and high LMA as the key drought traits to reduce water loss. C. fissa was slowest to initiate stomatal closure but completed stomatal closure more rapidly than the other species. Drought reduced light-saturated photosynthetic rates (A sat ) for O. pinnata , D. odorifera and C. fissa primarily due to declining stomatal conductance (g s ), with lesser limitations due to the biochemical capacity of Rubisco carboxylation (V cmax ) and electron transport (J max ). M. macclurei was the first species to close stomata. Drought did not affect A sat for M. macclurei due to stable photosynthetic biochemical processes; however, V cmax regulation of A sat increased with drought intensity. There was trait variation in the capacity of study trees to tolerate drought, with M. macclurei exhibiting the highest capacity to tolerate drought due to key stomatal (earlier stomatal closure) and hydraulic (lower TLP) traits reducing plant water loss with progressive drought stress. • Selecting species with morphological and physiological traits that confer high drought tolerance and resistance will be critical for designing and managing plantations. • M. macclurei might be the best adapted plantation tree for growth in future drier climates. • M. macclurei exhibited high drought avoidance and resistance, and maintained photosynthesis.