Aim: We investigate the effects of the environmental and geographical processes
driving growth resilience and recovery in response to drought in Mediterranean
Pinus pinaster forests. We explicitly consider how intraspecific variability modulates
growth resilience to drought.
Location: Western Mediterranean basin.
Methods: We analysed tree rings from a large network of 48 forests (836 trees)
encompassing wide ecological and climatic gradients, including six provenances. To
characterize the major constraints of P. pinaster growth under extremely dry conditions,
we simulated growth responses to temperature and soil moisture using a process-
based growth model coupled with the quantification of climate–growth
relationships. Then, we related growth–resilience indices to provenance and site
variables considering different drought events.
Results: Pinus pinaster displayed strong variation in growth resilience across its distributional
range, but common patterns were found within each provenance. Postdrought
resilience increased with elevation and drier conditions but decreased with
spring precipitation. Trees from dry sites were less resistant to drought but recovered
faster than trees from wet sites.
Main conclusions: Resilience strategies differed among tree provenances: wet forests
showed higher growth resistance to drought, while dry forests presented faster
growth recovery, suggesting different impacts of climate warming on forest productivity.
We detected geographically structured resilience patterns corresponding to
different provenances, confirming high intraspecific variability in response to
drought. This information should be included in species distribution models to simulate
forest responses to climate warming and forecasted aridification.