Shoot desiccation and hydraulic failure in temperate woody angiosperms during an extreme summer drought

Summary Plant water status and hydraulics were measured in six woody angiosperms growing in a karstic woodland, during an extreme summer drought. Our aim was to take advantage of an unusual climatic event to identify key traits related to species‐specific drought damage. The damage suffered by different species was assessed in terms of percentage of individuals showing extensive crown desiccation. Stem water potential ( Ψ stem ) and percent loss of hydraulic conductivity ( PLC ) were measured in healthy and desiccated individuals. Vulnerability to cavitation was assessed in terms of stem water potential inducing 50% PLC ( Ψ 50 ). Stem density ( ρ stem ) was also measured. Species‐specific percentage of desiccated individuals was correlated to Ψ 50 and ρ stem . Crown desiccation was more widespread in species with less negative Ψ 50 and lower ρ stem . Desiccated individuals had lower Ψ stem and higher PLC than healthy ones, suggesting that hydraulic failure was an important mechanism driving shoot dieback. Drought‐vulnerable species showed lower safety margins ( Ψ stem  −  Ψ 50 ) than resistant ones. The Ψ 50 , safety margins and ρ stem values emerge as convenient traits to be used for tentative predictions of differential species‐specific impact of extreme drought events on a local scale. The possibility that carbohydrate depletion was also involved in induction of desiccation symptoms is discussed.