Stomatal responses in grapevine become increasingly more tolerant to low water potentials throughout the growing season
Langue
EN
Article de revue
Ce document a été publié dans
The Plant Journal. 2022-02, vol. 109, n° 4, p. 804-815
Résumé en anglais
The leaf of a deciduous species completes its life cycle in a few months. During leaf maturation, osmolyte accumulation leads to a significant reduction of the turgor loss point (ΨTLP), a known marker for stomatal closure. ...Lire la suite >
The leaf of a deciduous species completes its life cycle in a few months. During leaf maturation, osmolyte accumulation leads to a significant reduction of the turgor loss point (ΨTLP), a known marker for stomatal closure. Here we exposed two grapevine cultivars to drought at three different times during the growing season to explore if the seasonal decrease in leaf ΨTLP influences the stomatal response to drought. The results showed a significant seasonal shift in the response of stomatal conductance to stem water potential (gs Ψstem), demonstrating that grapevines become increasingly tolerant to low Ψstem as the season progresses in coordination with the decrease in ΨTLP. We also used the SurEau hydraulic model to demonstrate a direct link between osmotic adjustment and the plasticity of gs Ψstem. To understand the possible advantages of gs Ψstem plasticity, we incorporated a seasonally dynamic leaf osmotic potential into the model that simulated stomatal conductance under several water availabilities and climatic scenarios. The model demonstrated that a seasonally dynamic stomatal closure threshold results in trade-offs: it reduces the time to turgor loss under sustained long-term drought, but increases overall gas exchange particularly under seasonal shifts in temperature and stochastic water availability. A projected hotter future is expected to lower the increase in gas exchange that plants gain from the seasonal shift in gs Ψstem. These findings show that accounting for dynamic stomatal regulation is critical for understanding drought tolerance.< Réduire
Mots clés en anglais
Water stress
Vitis vinifera
Vine hydraulics
Pressure-volume curves
Osmotic adjustment
Drought acclimation
Isohydric
Anisohydric
Stomatal conductance
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