Journal
FORESTS
Volume 12, Issue 12, Pages -Publisher
MDPI
DOI: 10.3390/f12121700
Keywords
drought stress; forest dieback; Pinus halepensis Mill; Pinus sylvestris L; Pinus pinaster Ait; tree mortality
Categories
Funding
- project FORMAL [RTI2018-096884-B-C31]
- FPI fellowship, Spanish Ministry of Science and Innovation [PRE2019-089800]
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The study reveals that drought constrains tree growth in regions like the western Mediterranean Basin, leading to tree mortality. Living and dead trees display significant differences in growth trends and responses to drought, particularly after the climate shifted towards warmer and drier conditions in the 1980s.
Drought constrains tree growth in regions with seasonal water deficit where growth decline can lead to tree death. This has been observed in regions such as the western Mediterranean Basin, which is a climate-warming hotspot. However, we lack information on intra- and inter-specific comparisons of growth rates and responses to water shortage in these hotspots, considering tree species with different drought tolerance. We sampled several sites located in north-eastern Spain showing dieback and high mortality rates of three pine species (Pinus sylvestris, Pinus pinaster, Pinus halepensis). We dated death years and reconstructed the basal area increment of coexisting living and recently dead trees using tree ring data. Then, we calculated bootstrapped Pearson correlations between a drought index and growth. Finally, we used linear mixed-effects models to determine differences in growth trends and the response to drought of living and dead trees. Mortality in P. sylvestris and P. pinaster peaked in response to the 2012 and 2017 droughts, respectively, and in sites located near the species' xeric distribution limits. In P. halepensis, tree deaths occurred most years. Dead trees showed lower growth rates than living trees in five out of six sites. There was a strong growth drop after the 1980s when climate shifted towards warmer and drier conditions. Tree growth responded positively to wet climate conditions, particularly in the case of living trees. Accordingly, growth divergence between living and dead trees during dry periods reflected cumulative drought impacts on trees. If aridification continues, tree drought mortality would increase, particularly in xeric distribution limits of tree species.
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