Add to ORKGTree mortality during global-change-type drought is usually attributed to xylem dysfunction, but as climate change increases the frequency of extreme heat events, it is necessary to better understand the interactive role of heat stress. We hypothesized that some drought-stressed plants paradoxically open stomata in heatwaves to prevent leaves from critically overheating. We experimentally imposed heat (>40°C) and drought stress onto 20 broadleaf evergreen tree/shrub species in a glasshouse study. Most well-watered plants avoided lethal overheating, but drought exacerbated thermal damage during heatwaves. Thermal safety margins (TSM) quantifying the difference between leaf surface temperature and leaf critical temperature, where photosynt...
Our global climate is changing. In addition to rising CO2 concentrations and increasing average temp...
Temperature (T) and vapour pressure deficit (VPD) are important drivers of plant hydraulic conductiv...
plants suffer from fever? In a recent article by David Beerling and colleagues1, an increase in stom...
Tree mortality during global-change-type drought is usually attributed to xylem dysfunction, but as ...
The number and intensity of heat waves has increased, and this trend is likely to continue throughou...
The number and intensity of heat waves has increased, and this trend is likely to continue throughou...
Climate models predict more frequent and more severe extreme events (e.g., heat waves, extended drou...
The frequency and severity of heatwave events are increasing, exposing species to conditions beyond ...
Key message: Stomatal and mesophyll conductance were the dominant limitations to photosynthesis in r...
Global warming could increase leaf transpiration and soil evaporation, which can potentially cause w...
Future climate regimes characterized by rising [CO2], rising temperatures and associated droughts ma...
© 2018 John Wiley & Sons Ltd Heatwaves are likely to increase in frequency and intensity with climat...
Global warming could increase leaf transpiration and soil evaporation, which can potentially cause w...
Worldwide forest die-off events have been observed in a number of forest biomes due to severe drough...
Climate models project an important increase in the frequency and intensity of heat waves. In gaugin...
Our global climate is changing. In addition to rising CO2 concentrations and increasing average temp...
Temperature (T) and vapour pressure deficit (VPD) are important drivers of plant hydraulic conductiv...
plants suffer from fever? In a recent article by David Beerling and colleagues1, an increase in stom...
Tree mortality during global-change-type drought is usually attributed to xylem dysfunction, but as ...
The number and intensity of heat waves has increased, and this trend is likely to continue throughou...
The number and intensity of heat waves has increased, and this trend is likely to continue throughou...
Climate models predict more frequent and more severe extreme events (e.g., heat waves, extended drou...
The frequency and severity of heatwave events are increasing, exposing species to conditions beyond ...
Key message: Stomatal and mesophyll conductance were the dominant limitations to photosynthesis in r...
Global warming could increase leaf transpiration and soil evaporation, which can potentially cause w...
Future climate regimes characterized by rising [CO2], rising temperatures and associated droughts ma...
© 2018 John Wiley & Sons Ltd Heatwaves are likely to increase in frequency and intensity with climat...
Global warming could increase leaf transpiration and soil evaporation, which can potentially cause w...
Worldwide forest die-off events have been observed in a number of forest biomes due to severe drough...
Climate models project an important increase in the frequency and intensity of heat waves. In gaugin...
Our global climate is changing. In addition to rising CO2 concentrations and increasing average temp...
Temperature (T) and vapour pressure deficit (VPD) are important drivers of plant hydraulic conductiv...
plants suffer from fever? In a recent article by David Beerling and colleagues1, an increase in stom...