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Hydraulic plasticity and water use regulation act to maintain the hydraulic safety margins of Mediterranean trees in rainfall exclusion experiments.

Authors :
Moreno, Myriam
Limousin, Jean‐Marc
Simioni, Guillaume
Badel, Eric
Rodríguez‐Calcerrada, Jesus
Cochard, Hervé
Torres‐Ruiz, José M.
Dupuy, Jean‐Luc
Ruffault, Julien
Ormeno, Elena
Delzon, Sylvain
Fernandez, Catherine
Ourcival, Jean‐Marc
Martin‐StPaul, Nicolas
Source :
Plant, Cell & Environment. Dec2024, Vol. 47 Issue 12, p4741-4753. 13p.
Publication Year :
2024

Abstract

Hydraulic failure due to xylem embolism has been identified as one of the main mechanisms involved in drought‐induced forest decline. Trees vulnerability to hydraulic failure depends on their hydraulic safety margin (HSM). While it has been shown that HSM globally converges between tree species and biomes, there is still limited knowledge regarding how HSM can adjust locally to varying drought conditions within species. In this study, we relied on three long‐term partial rainfall exclusion experiments to investigate the plasticity of hydraulic traits and HSM for three Mediterranean tree species (Quercus ilex L., Quercus pubescens Willd., and Pinus halepensis Mill.). For all species, a homeostasis of HSM in response to rainfall reduction was found, achieved through different mechanisms. For Q. ilex, the convergence in HSM is attributed to the adjustment of both the turgor loss point (Ψtlp) and the water potential at which 50% of xylem conductivity is lost due to embolism (P50). In contrast, the maintenance of HSM for P. halepensis and Q. pubescens is related to its isohydric behavior for the first and leaf area adjustment for the latter. It remains to be seen whether this HSM homeostasis can be generalized and if it will be sufficient to withstand extreme droughts expected in the Mediterranean region. Summary statement: Mediterranean species submitted to aggravated water stress have maintained their hydraulic safety margin (HSM). For Pinus halepensis and Quercus pubescens, HSM maintenance resulted from their capacity to escape water stress, while it results from the plasticity of Ψtlp and P50 for Quercus ilex. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01407791
Volume :
47
Issue :
12
Database :
Academic Search Index
Journal :
Plant, Cell & Environment
Publication Type :
Academic Journal
Accession number :
180681856
Full Text :
https://doi.org/10.1111/pce.15066