Abstract. The rising atmospheric concentration of carbon dioxide resulting from the burning of fossil fuels and deforestation is likely to provoke significant climate perturbations, while having far-reaching consequences for the terrestrial biosphere. Some plants could maintain the same intake of CO2 for photosynthesis by reducing their stomatal openings, thus limiting the transpiration and providing a positive feedback to the projected surface warming. Other plants could benefit from the higher CO2 level and the warmer climate to increase their productivity, which would on the contrary promote the transpiration. The relevance of these feedbacks has been investigated with the Météo-France atmospheric general circulation model. The model h...
the radiative and physiological effects of doubled atmospheric carbon dioxide concentration (CO2) on...
The effects of increases in carbon dioxide and temperature on the vegetation‐atmosphere‐cloud intera...
Abstract The concentration of carbon dioxide in the atmosphere acts to control the stomatal conducta...
The radiative and physiological effects of doubled atmospheric carbon dioxide (CO2) on climate are i...
The radiative and physiological effects of doubled atmospheric carbon dioxide (CO2) on climate are ...
The radiative and physiological effects of doubled atmospheric carbon dioxide (CO2) on climate are i...
The potential for feedbacks between terrestrial vegetation, climate, and the atmospheric CO2 partial...
The potential for feedbacks between terrestrial vegetation, climate, and the atmospheric CO2 partial...
Thesis (Master's)--University of Washington, 2020Increasing concentrations of CO2 in the atmosphere ...
International audienceIncreasing atmospheric CO 2 affects photosynthesis involving directly increasi...
Increasing atmospheric carbon dioxide (CO2) directly affects plant physiology. Using a coupled land...
Increasing concentrations of atmospheric carbon dioxide (CO(2)) influence climate by suppressing can...
We performed an ensemble of twelve five-year experiments using a coupled climate-carbon-cycle model ...
A coupled global vegetation–climate model is used to investigatethe effects of vegetation feedbacks ...
Increasing concentrations of atmospheric CO2 decrease stomatal conductance of plants and thus supp...
the radiative and physiological effects of doubled atmospheric carbon dioxide concentration (CO2) on...
The effects of increases in carbon dioxide and temperature on the vegetation‐atmosphere‐cloud intera...
Abstract The concentration of carbon dioxide in the atmosphere acts to control the stomatal conducta...
The radiative and physiological effects of doubled atmospheric carbon dioxide (CO2) on climate are i...
The radiative and physiological effects of doubled atmospheric carbon dioxide (CO2) on climate are ...
The radiative and physiological effects of doubled atmospheric carbon dioxide (CO2) on climate are i...
The potential for feedbacks between terrestrial vegetation, climate, and the atmospheric CO2 partial...
The potential for feedbacks between terrestrial vegetation, climate, and the atmospheric CO2 partial...
Thesis (Master's)--University of Washington, 2020Increasing concentrations of CO2 in the atmosphere ...
International audienceIncreasing atmospheric CO 2 affects photosynthesis involving directly increasi...
Increasing atmospheric carbon dioxide (CO2) directly affects plant physiology. Using a coupled land...
Increasing concentrations of atmospheric carbon dioxide (CO(2)) influence climate by suppressing can...
We performed an ensemble of twelve five-year experiments using a coupled climate-carbon-cycle model ...
A coupled global vegetation–climate model is used to investigatethe effects of vegetation feedbacks ...
Increasing concentrations of atmospheric CO2 decrease stomatal conductance of plants and thus supp...
the radiative and physiological effects of doubled atmospheric carbon dioxide concentration (CO2) on...
The effects of increases in carbon dioxide and temperature on the vegetation‐atmosphere‐cloud intera...
Abstract The concentration of carbon dioxide in the atmosphere acts to control the stomatal conducta...