Add to ORKGThis study aimed at characterizing leaf ecophysiological behavior of two clones of Eucalyptus sp related to environmental variables such as photosynthetically active radiation (Qleaf) and vapor pressure deficit of the atmosphere (VPD) at two scales (pot and plot), as well as promoting a change of information obtained from a smaller scale to a higher one. The study was conducted at UNICAMP, Sao Paulo, Brazil. For data transpiration (E) and stomata conductance (Gs) porometry an infrared gas analyzer was used. Local environmental variables associated with Qleaf and VPD were recorded by the automatic station of CEPAGRI/UNICAMP installed at the study site. At all scales, individuals were under the same range of predawn leaf water potential (0 to...
Selecting plantation species to balance water use and production requires accurate models for predic...
The constraints on transpiration were studied in plantation grown Eucalyptus globulus trees over th...
Summary To identify environmental and biological drivers of nocturnal vapour exchange, we quantified...
This study aimed to characterize the effects of environmental variables on the transpiration (E), st...
This study had as objective to evaluate transpiration and stomatal conductance of two commercial clo...
Predawn leaf water potential, stomatal conductance and microclimatic variables were measured on 13 s...
Resumo: O crescimento e o desenvolvimento dos vegetais é conseqüência de vários processos fisiológic...
This study aimed to characterize the effects of environmental variables on the transpiration (E), st...
This study aimed at characterizing leaf ecophysiological behavior of two clones of Eucalyptus sp rel...
studied water use by Eucalyptus tereticornis Sm. in two plantations, differing in tree density (1800...
In order to determine how environmental and physiological factors affect leaf gas exchange in a 9-ye...
Models of stomatal conductance (gs) are based on coupling between gs and CO2 assimilation (Anet), an...
Representation of stomatal physiology in models of plant-atmosphere gas exchange is minimal, and dir...
Rising atmospheric concentrations of CO₂ (Cₐ) can reduce stomatal conductance and transpiration rate...
Aim of the study: To analyze the course of leaf water status, water-use efficiency and growth in Euc...
Selecting plantation species to balance water use and production requires accurate models for predic...
The constraints on transpiration were studied in plantation grown Eucalyptus globulus trees over th...
Summary To identify environmental and biological drivers of nocturnal vapour exchange, we quantified...
This study aimed to characterize the effects of environmental variables on the transpiration (E), st...
This study had as objective to evaluate transpiration and stomatal conductance of two commercial clo...
Predawn leaf water potential, stomatal conductance and microclimatic variables were measured on 13 s...
Resumo: O crescimento e o desenvolvimento dos vegetais é conseqüência de vários processos fisiológic...
This study aimed to characterize the effects of environmental variables on the transpiration (E), st...
This study aimed at characterizing leaf ecophysiological behavior of two clones of Eucalyptus sp rel...
studied water use by Eucalyptus tereticornis Sm. in two plantations, differing in tree density (1800...
In order to determine how environmental and physiological factors affect leaf gas exchange in a 9-ye...
Models of stomatal conductance (gs) are based on coupling between gs and CO2 assimilation (Anet), an...
Representation of stomatal physiology in models of plant-atmosphere gas exchange is minimal, and dir...
Rising atmospheric concentrations of CO₂ (Cₐ) can reduce stomatal conductance and transpiration rate...
Aim of the study: To analyze the course of leaf water status, water-use efficiency and growth in Euc...
Selecting plantation species to balance water use and production requires accurate models for predic...
The constraints on transpiration were studied in plantation grown Eucalyptus globulus trees over th...
Summary To identify environmental and biological drivers of nocturnal vapour exchange, we quantified...