Cumulus clouds in the atmospheric boundary layer play a key role in the hydrologic cycle, in the onset of severe weather by thunderstorms and in modulating Earth’s reflectivity and climate1. How these clouds respond to climate change, in particular over land, and how they interact with the carbon cycle are poorly understood2,3. It is expected that as a consequence of rising atmospheric CO2 concentrations the plant stomata will close4,5, leading to lower latent heat fluxes and higher sensible heat fluxes. Here we show that this causes a decline in boundary-layer cloud formation in middle latitudes. This could be partly counteracted by the greater ability of a warmer atmosphere to take up water and by a growth in biomass due to CO2 fertilizat...
Abstract The concentration of carbon dioxide in the atmosphere acts to control the stomatal conducta...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
The effects of plant responses to cumulus (Cu) cloud shading are studied from free convective to she...
Cumulus clouds in the atmospheric boundary layer play a key role in the hydrologic cycle, in the ons...
Cumulus clouds in the atmospheric boundary layer play a key role in the hydrologic cycle, in the ons...
The effects of increases in carbon dioxide and temperature on the vegetation‐atmosphere‐cloud intera...
Understanding the interactions between the land surface and the atmosphere is key to model boundary-...
Increasing concentrations of atmospheric carbon dioxide (CO(2)) influence climate by suppressing can...
Understanding the interactions between the land surface and the atmosphere is key to modelling bound...
When analyzing the terrestrial carbon cycle, a strong focus is generally placed on its surface drive...
Land-surface models used in studies of the atmosphere and vegetation during droughts usually include...
<p>Croplands are a managed type of vegetation, with a carbon storage that is highly optimized for fo...
As CO2 concentration in the atmosphere rises, there is a need for improved physical understanding of...
Abstract The concentration of carbon dioxide in the atmosphere acts to control the stomatal conducta...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
The effects of plant responses to cumulus (Cu) cloud shading are studied from free convective to she...
Cumulus clouds in the atmospheric boundary layer play a key role in the hydrologic cycle, in the ons...
Cumulus clouds in the atmospheric boundary layer play a key role in the hydrologic cycle, in the ons...
The effects of increases in carbon dioxide and temperature on the vegetation‐atmosphere‐cloud intera...
Understanding the interactions between the land surface and the atmosphere is key to model boundary-...
Increasing concentrations of atmospheric carbon dioxide (CO(2)) influence climate by suppressing can...
Understanding the interactions between the land surface and the atmosphere is key to modelling bound...
When analyzing the terrestrial carbon cycle, a strong focus is generally placed on its surface drive...
Land-surface models used in studies of the atmosphere and vegetation during droughts usually include...
<p>Croplands are a managed type of vegetation, with a carbon storage that is highly optimized for fo...
As CO2 concentration in the atmosphere rises, there is a need for improved physical understanding of...
Abstract The concentration of carbon dioxide in the atmosphere acts to control the stomatal conducta...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
The effects of plant responses to cumulus (Cu) cloud shading are studied from free convective to she...
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