Add to ORKGReduced stomatal conductance is a common plant response to rising atmospheric CO2 and increases water use efficiency (W). At the leaf-scale, W depends on water and nitrogen availability in addition to atmospheric CO2. In hydroclimate models W is a key driver of rainfall, droughts, and streamflow extremes. We used global climate data to derive Aridity Indices (AI) for forests over the period 1965-2015 and synthesised those with data for nitrogen deposition and W derived from stable isotopes in tree rings. AI and atmospheric CO2 account for most of the variance in W of trees across the globe, while cumulative nitrogen deposition has a significant effect only in regions without strong legacies of atmospheric pollution. The relation of aridity ...
Rates of change in intrinsic water use efficiency (W) of trees relative to those in atmospheric...
Understanding relations among forest carbon (C) uptake and water use is critical for predicting fore...
Plant water-use efficiency (WUE), which is the ratio of the uptake of carbon dioxide through photosy...
Water use efficiency is a key measure of plant responses to climate change. Here, the authors invest...
Plant Water Use Efficiency (WUE), which is the ratio of the uptake of carbon dioxide through photosy...
BackgroundThe analysis of tree-ring carbon isotope composition (δ(13)C) has been widely used to esti...
The objective of this study is to globally assess the effects of atmospheric nitrogen deposition and...
Background: The analysis of tree-ring carbon isotope composition (d13C) has been widely used to esti...
The objective of this study is to globally assess the effects of atmospheric nitrogen deposition and...
Multiple lines of evidence suggest that plant water-use efficiency (WUE) -the ratio of carbon assimi...
Elevated CO2 increases intrinsic water use efficiency (WUEi) of forests, but the magnitude of this e...
Plant water-use efficiency (WUE), which is the ratio of the uptake of carbon dioxide through photosy...
Dynamic global vegetation models (DGVM) exhibit high uncertainty about how climate change, elevated ...
Increasing water-use efficiency (WUE), the ratio of carbon gain to water loss, is a key mechanism th...
The objective of this study is to globally assess the effects of atmospheric nitrogen deposition and...
Rates of change in intrinsic water use efficiency (W) of trees relative to those in atmospheric...
Understanding relations among forest carbon (C) uptake and water use is critical for predicting fore...
Plant water-use efficiency (WUE), which is the ratio of the uptake of carbon dioxide through photosy...
Water use efficiency is a key measure of plant responses to climate change. Here, the authors invest...
Plant Water Use Efficiency (WUE), which is the ratio of the uptake of carbon dioxide through photosy...
BackgroundThe analysis of tree-ring carbon isotope composition (δ(13)C) has been widely used to esti...
The objective of this study is to globally assess the effects of atmospheric nitrogen deposition and...
Background: The analysis of tree-ring carbon isotope composition (d13C) has been widely used to esti...
The objective of this study is to globally assess the effects of atmospheric nitrogen deposition and...
Multiple lines of evidence suggest that plant water-use efficiency (WUE) -the ratio of carbon assimi...
Elevated CO2 increases intrinsic water use efficiency (WUEi) of forests, but the magnitude of this e...
Plant water-use efficiency (WUE), which is the ratio of the uptake of carbon dioxide through photosy...
Dynamic global vegetation models (DGVM) exhibit high uncertainty about how climate change, elevated ...
Increasing water-use efficiency (WUE), the ratio of carbon gain to water loss, is a key mechanism th...
The objective of this study is to globally assess the effects of atmospheric nitrogen deposition and...
Rates of change in intrinsic water use efficiency (W) of trees relative to those in atmospheric...
Understanding relations among forest carbon (C) uptake and water use is critical for predicting fore...
Plant water-use efficiency (WUE), which is the ratio of the uptake of carbon dioxide through photosy...