Affiliation:
1. Aix Marseille Univ., Univ Avignon, CNRS, IRD, IMBE Marseille France
2. Aix Marseille Univ., CEA, CNRS UMR 7265 BIAM, CEA/Cadarache Saint‐Paul‐lès‐Durance France
3. Aix Marseille Univ., CNRS, ICR, UMR 7273 Marseille France
Abstract
SUMMARYWith climate change, an aggravation in summer drought is expected in the Mediterranean region. To assess the impact of such a future scenario, we compared the response of Quercus pubescens, a drought‐resistant deciduous oak species, to long‐term amplified drought (AD) (partial rain exclusion in natura for 10 years) and natural drought (ND). We studied leaf physiological and physico‐chemical trait responses to ND and AD over the seasonal cycle, with a focus on chemical traits including major groups of central (photosynthetic pigments and plastoquinones) and specialized (tocochromanols, phenolic compounds, and cuticular waxes) metabolites. Seasonality was the main driver of all leaf traits, including cuticular triterpenoids, which were highly concentrated in summer, suggesting their importance to cope with drought and thermal stress periods. Under AD, trees not only reduced CO2 assimilation (−42%) in summer and leaf concentrations of some phenolic compounds and photosynthetic pigments (carotenoids from the xanthophyll cycle) but also enhanced the levels of other photosynthetic pigments (chlorophylls, lutein, and neoxanthin) and plastochromanol‐8, an antioxidant located in chloroplasts. Overall, the metabolomic adjustments across seasons and drought conditions reinforce the idea that Q. pubescens is highly resistant to drought although significant losses of antioxidant defenses and photoprotection were identified under AD.
Subject
Cell Biology,Plant Science,Genetics
Cited by
3 articles.
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