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Photosynthesis limitations during water stress acclimation and recovery in the drought-adapted Vitis hybrid Richter-110 (V. berlandieri×V. rupestris)

2009; Oxford University Press; Volume: 60; Issue: 8 Linguagem: Inglês

10.1093/jxb/erp069

1460-2431

Jaume Flexas, Matilde Barón, Josefina Bota, Jean‐Marc Ducruet, Alexander Gallé, Jeroni Galmés, Miguel Jiménez, Alícia Pou, Miquel Ribas‐Carbó, Carlota Sajnani, Magdalena Tomás, H. Medrano,

Plant Stress Responses and Tolerance

The hybrid Richter-110 (Vitis berlandieri×Vitis rupestris) has the reputation of being a genotype strongly adapted to drought. A study was performed with plants of R-110 subjected to sustained water-withholding to induce acclimation to two different levels of water stress, followed by rewatering to induce recovery. The goal was to analyse how photosynthesis is regulated during acclimation to water stress and recovery. In particular, the regulation of stomatal conductance (gs), mesophyll conductance to CO2 (gm), leaf photochemistry (chlorophyll fluorescence and thermoluminescence), and biochemistry (Vc,max) were assessed. During water stress, gs declined to 0.1 and less than 0.05 mol CO2 m−2 s−1 in moderately and severely water-stressed plants, respectively, and was kept quite constant during an acclimation period of 1-week. Leaf photochemistry proved to be very resistant to the applied water-stress conditions. By contrast, gm and Vc,max were affected by water stress, but they were not kept constant during the acclimation period. gm was initially unaffected by water stress, and Vc,max even increased above control values. However, after several days of acclimation to water stress, both parameters declined below (gm) or at (Vc,max) control values. For the latter two parameters there seemed to be an interaction between water stress and cumulative irradiance, since both recovered to control values after several cloudy days despite water stress. A photosynthesis limitation analysis revealed that diffusional limitations and not biochemical limitations accounted for the observed decline in photosynthesis during water stress and slow recovery after rewatering, both in moderately and severely stressed plants. However, the relative contribution of stomatal (SL) and mesophyll conductance (MCL) limitations changes during acclimation to water stress, from predominant SL early during water stress to similar SL and MCL after acclimation. Finally, photosynthesis recovery after rewatering was mostly limited by SL, since stomatal closure recovered much more slowly than gm.