How much does VPD drive tree water stress and forest disturbances?

Abstract: Vapor Pressure Deficit (VPD, atmospheric drought) and soil water potential (Ψsoil, soil drought) have both been reported to affect terrestrial plant water stress, plant functions (growth, stomatal conductance, transpiration) and vulnerability to ecosystem disturbances (mortality or vulnerability to wildfires). Which of atmospheric drought or soil drought has the greatest influence on these responses is yet an unresolved question. Using a state-of-the-art soil-plant-atmosphere hydraulic model, we conducted an i… Show more

“…There are potential benefits of such integration, in particular the possibility to improve climate change impact simulations by mechanistically accounting for the combined effect of atmospheric and soil drought on the plant water status (e.g. water potential, Allen et al, 2015;Martin-StPaul et al, 2023; see Section I; Fig. 1).…”

Plant hydraulics at the heart of plant, crops and ecosystem functions in the face of climate change

“…There are potential benefits of such integration, in particular the possibility to improve climate change impact simulations by mechanistically accounting for the combined effect of atmospheric and soil drought on the plant water status (e.g. water potential, Allen et al, 2015;Martin-StPaul et al, 2023; see Section I; Fig. 1).…”

Plant hydraulics at the heart of plant, crops and ecosystem functions in the face of climate change