Add to ORKGThe effects of an increase of air temperature on the stomatal conductance of beech, a widespread tree specie in Europe, have been examined by using a Jarvisian model of stomatal conductance calibrated on a sixth months long field experiment in northern Italy. An increase of few degrees centigrade in air temperature resulted in very little changes in the mean stomatal conductance of the trees, but the diurnal course of this important parameter underwent an evident change, consisting in increased stomatal conductance values in the first hours of the day and decreased values in the rest of the day, and particularly in the afternoon
Nocturnal transpiration constitutes a significant yet poorly understood component of the global wate...
Nocturnal transpiration constitutes a significant yet poorly understood component of the global wate...
Stomatal conductance influences both photosynthesis and transpiration, thereby coupling the carbon a...
Measurements of stomatal conductance in an oak canopy (Quercus robur) in The Netherlands are describ...
In forested regions, transpiration as a main component of evaporation fluxes is important for evapor...
Trees live in oscillating environments. Daytime light and warm periods alternate with night darkness...
Models of vegetation function are widely used to predict the effects of climate change on carbon, wa...
The transpiration of a mature beech (Fagus sylvatica L.) forest was measured over a whole season by ...
The transpiration of a mature beech (Fagus sylvatica L.) forest was measured over a whole season by ...
A model was developed earlier describing conductance for three conifers (Picea engelmannii Parry ex ...
Future climate change is expected to increase temperature (T) and atmospheric vapour pressure defici...
Trees live in oscillating environments. Daytime light and warm periods alternate with night darkness...
Environmental conditions and photoperiod length drive the seasonal variability of gas exchange in pl...
Understanding stomatal regulation is fundamental to predicting the impact of changing environmental ...
Nocturnal transpiration constitutes a significant yet poorly understood component of the global wate...
Nocturnal transpiration constitutes a significant yet poorly understood component of the global wate...
Nocturnal transpiration constitutes a significant yet poorly understood component of the global wate...
Stomatal conductance influences both photosynthesis and transpiration, thereby coupling the carbon a...
Measurements of stomatal conductance in an oak canopy (Quercus robur) in The Netherlands are describ...
In forested regions, transpiration as a main component of evaporation fluxes is important for evapor...
Trees live in oscillating environments. Daytime light and warm periods alternate with night darkness...
Models of vegetation function are widely used to predict the effects of climate change on carbon, wa...
The transpiration of a mature beech (Fagus sylvatica L.) forest was measured over a whole season by ...
The transpiration of a mature beech (Fagus sylvatica L.) forest was measured over a whole season by ...
A model was developed earlier describing conductance for three conifers (Picea engelmannii Parry ex ...
Future climate change is expected to increase temperature (T) and atmospheric vapour pressure defici...
Trees live in oscillating environments. Daytime light and warm periods alternate with night darkness...
Environmental conditions and photoperiod length drive the seasonal variability of gas exchange in pl...
Understanding stomatal regulation is fundamental to predicting the impact of changing environmental ...
Nocturnal transpiration constitutes a significant yet poorly understood component of the global wate...
Nocturnal transpiration constitutes a significant yet poorly understood component of the global wate...
Nocturnal transpiration constitutes a significant yet poorly understood component of the global wate...
Stomatal conductance influences both photosynthesis and transpiration, thereby coupling the carbon a...