Contrasting Responses of Two Grapevine Cultivars to Drought: The Role of Non-Structural Carbohydrates in Xylem Hydraulic Recovery.
Marco VuerichElisa PetrussaFrancesco BoscuttiEnrico BraidotAntonio FilippiFrancesco PetruzzellisMartina TomasellaGiuliana TrombaMauro PizzutoAndrea NardiniFrancesca SecchiValentino CasoloPublished in: Plant & cell physiology (2023)
Xylem embolism is one of the possible outcomes of decreasing xylem pressure when plants face drought. Recent studies have proposed a role for non-structural carbohydrates in osmotic pressure generation, required for refilling embolized conduits. Potted cuttings of grapevine Grenache and Barbera, selected for their adaptation to different climatic conditions, were subjected to a drought stress followed by re-irrigation. Stem embolism rate and its recovery were monitored in vivo by X-Ray Micro Computed Tomography (Micro-CT). The same plants were further analyzed for xylem conduits dimension and non-structural carbohydrates content. Both cultivars significantly decreased Ψpd in response to drought and recovered from xylem embolism after re-irrigation. However, although the mean vessel diameter was similar between the cultivars, Barbera was more prone to embolism. Surprisingly, vessel diameter was apparently reduced during recovery in this cultivar. Hydraulic recovery was linked to sugar content in both cultivars, showing a positive relationship between soluble non-structural carbohydrates and the degree of xylem embolism. However, when starch and sucrose concentrations were considered separately, the relationships showed cultivar-specific and contrasting trends. We showed that the two cultivars adopted different non-structural carbohydrates -use strategies in response to drought, suggesting two possible scenarios driving conduit refilling. In Grenache, sucrose accumulation seems to be directly linked to embolism formation, and possibly sustains refilling. In Barbera, maltose/maltodextrins could be involved in a conduit recovery strategy via formation of cell-wall hydrogels, likely responsible for the reduction of conduit lumen detected by Micro-CT.