Add to ORKGStomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxide for photosynthesis and water loss through transpiration, closely linking the biosphere and atmosphere and influencing climate. Yet, the range and pattern of gs in plants from natural ecosystems across broad geographic, climatic, and taxonomic ranges remains poorly quantified. Furthermore, attempts to characterize gs on such scales have predominantly relied upon meta-analyses compiling data from many different studies. This approach may be inherently problematic as it combines data collected using unstandardized protocols, sometimes over decadal time spans, and from different habitat groups. Using a standardized protocol, we measured leaf-l...
Background and Aims: Studies have indicated that plant stomatal conductance (gs) decreases in respon...
Optimal stomatal theory predicts that stomata operate to maximise photosynthesis (Anet) and minimise...
Rising levels of atmospheric CO2 concentration (Cₐ) and simultaneous climate change profoundly affec...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) is a key land-surface attribute as it links transpiration, the dominant co...
A principle response of C3 plants to increasing concentrations of atmospheric CO2 (CO2) is to reduce...
Models of vegetation function are widely used to predict the effects of climate change on carbon, wa...
The response of tree leaf gas exchange to elevated CO2 concentrations has been investigated in numer...
Background and Aims: Studies have indicated that plant stomatal conductance (gs) decreases in respon...
Optimal stomatal theory predicts that stomata operate to maximise photosynthesis (Anet) and minimise...
Rising levels of atmospheric CO2 concentration (Cₐ) and simultaneous climate change profoundly affec...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxi...
Stomatal conductance (gs) is a key land-surface attribute as it links transpiration, the dominant co...
A principle response of C3 plants to increasing concentrations of atmospheric CO2 (CO2) is to reduce...
Models of vegetation function are widely used to predict the effects of climate change on carbon, wa...
The response of tree leaf gas exchange to elevated CO2 concentrations has been investigated in numer...
Background and Aims: Studies have indicated that plant stomatal conductance (gs) decreases in respon...
Optimal stomatal theory predicts that stomata operate to maximise photosynthesis (Anet) and minimise...
Rising levels of atmospheric CO2 concentration (Cₐ) and simultaneous climate change profoundly affec...