OAK-B135 The project involved a study of a fundamental response of terrestrial vegetation to rising atmospheric carbon dioxide (CO2) concentration, namely, the change in leaf conductance to gas diffusion associated with a change in the aperture of the microscopic pores (stomata) on the surface of leaves
Background and Aims Studies have indicated that plant stomatal conductance (g s) decreases in respon...
The response of adaxial and abaxial stomatal conductance in Rumex obtusifolius to growth at elevated...
Plant responses to elevated atmospheric CO2 have been characterized generally by stomatal closure an...
Earth is undergoing anthropogenic induced climate change yet it is unclear what the reaction of plan...
The response of tree leaf gas exchange to elevated CO2 concentrations has been investigated in numer...
Stomata control the flow of gases between plants and the atmosphere. This review is centered on stom...
To test whether stomatal density measurements on oak leaf remains are reliable tools for assessing p...
Background and Aims: Studies have indicated that plant stomatal conductance (gs) decreases in respon...
The atmospheric carbon dioxide concentration have always been fluctuating. In the past [CO2] did not...
To test whether stomatal density measurements on oak leaf remains are reliable tools for assessing p...
The stomatal response of seedlings grown in 360 or 720 fitno \ mo r 1 to irradiance and leaf-to-air ...
Our study demonstrated that the species respond non-linearly to increases in CO2 concentration when ...
Increasing atmospheric carbon dioxide (CO2) directly affects plant physiology. Using a coupled land...
Definitions of the variables used and the units are given in Table 1 The literature reports enormous...
Contrasting effects on the stomatal index (SI), stomatal density, epidermal cell size and number wer...
Background and Aims Studies have indicated that plant stomatal conductance (g s) decreases in respon...
The response of adaxial and abaxial stomatal conductance in Rumex obtusifolius to growth at elevated...
Plant responses to elevated atmospheric CO2 have been characterized generally by stomatal closure an...
Earth is undergoing anthropogenic induced climate change yet it is unclear what the reaction of plan...
The response of tree leaf gas exchange to elevated CO2 concentrations has been investigated in numer...
Stomata control the flow of gases between plants and the atmosphere. This review is centered on stom...
To test whether stomatal density measurements on oak leaf remains are reliable tools for assessing p...
Background and Aims: Studies have indicated that plant stomatal conductance (gs) decreases in respon...
The atmospheric carbon dioxide concentration have always been fluctuating. In the past [CO2] did not...
To test whether stomatal density measurements on oak leaf remains are reliable tools for assessing p...
The stomatal response of seedlings grown in 360 or 720 fitno \ mo r 1 to irradiance and leaf-to-air ...
Our study demonstrated that the species respond non-linearly to increases in CO2 concentration when ...
Increasing atmospheric carbon dioxide (CO2) directly affects plant physiology. Using a coupled land...
Definitions of the variables used and the units are given in Table 1 The literature reports enormous...
Contrasting effects on the stomatal index (SI), stomatal density, epidermal cell size and number wer...
Background and Aims Studies have indicated that plant stomatal conductance (g s) decreases in respon...
The response of adaxial and abaxial stomatal conductance in Rumex obtusifolius to growth at elevated...
Plant responses to elevated atmospheric CO2 have been characterized generally by stomatal closure an...
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