Journal
PLANT CELL AND ENVIRONMENT
Volume 40, Issue 9, Pages 1711-1724Publisher
WILEY
DOI: 10.1111/pce.12972
Keywords
allocation; carbon isotope; growth; pulse labelling; recovery
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Funding
- Swiss Federal Research Institute WSL [201409N1031]
- Alexander von Humboldt-Foundation
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Carbon reserves are important for maintaining tree function during and after stress. Increasing tree mortality driven by drought globally has renewed the interest in how plants regulate allocation of recently fixed C to reserve formation. Three-year-old seedlings of two species (Tilia platyphyllos and Pinus sylvestris) were exposed to two intensities of experimental drought during similar to 10 weeks, and C-13 pulse labelling was subsequently applied with rewetting. Tracking the C-13 label across different organs and C compounds (soluble sugars, starch, myo-inositol, lipids and cellulose), together with the monitoring of gas exchange and C mass balances over time, allowed for the identification of variations in C allocation priorities and tree C balances that are associated with drought effects and subsequent drought release. The results demonstrate that soluble sugars accumulated in P. sylvestris under drought conditions independently of growth trends; thus, non-structural carbohydrates (NSC) formation cannot be simply considered a passive overflow process in this species. Once drought ceased, C allocation to storage was still prioritized at the expense of growth, which suggested the presence of 'droughtmemory effects', possibly to ensure future growth and survival. On the contrary, NSC and growth dynamics in T. platyphyllos were consistent with a passive (overflow) view of NSC formation.
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