Add to ORKGThis review explores the recent advances and issues with simulating cloud albedo in global climate models (GCM). GCMs represent the most comprehensive description of all interactions between atmospheric processes, or feedback mechanisms. Because of the currently abbreviated understanding of feedback mechanisms, the precision of these climate models is limited. Recent advances in GCMs and cloud parameterization show that more is understood today about climate processes than ever before. This continued acquisition of knowledge will eventually lead to an accurate simulation of most microprocesses in the Earth's climate. Fig.1 Earth's view from satellite. Shows cloud cover an
One of the possible ways to check the adequacy of the physical description of meteorological element...
What makes clouds ethereal and beautiful also makes them complex and challenging to understand and ...
What makes clouds ethereal and beautiful also makes them complex and challenging to understand and ...
Cloud feedback—the change in top‐of‐atmosphere radiative flux resulting from the cloud response to w...
Our ability to study and quantify the impact of cloud-radiation interactions in studying global scal...
The representation of clouds in Global Climate Models (GCMs) remains a major source of uncertainty i...
Clouds can reflect, absorb and re-emit radiation, thereby inducing a cooling or warming effect on th...
Abstract In estimates of climate sensitivity obtained from global models, the need to represent clou...
Clouds can reflect, absorb and re-emit radiation, thereby inducing a cooling or warming effect on th...
Abstract. Six years ago, we compared the climate sensitivity of 19 atmospheric general circulation m...
This report contains papers from the International Workshop on Cloud-Radiation Interactions and Thei...
Cloud properties and their evolution influence Earth's radiative balance. The cloud microphysical (C...
What makes clouds ethereal and beautiful also makes them complex and challenging to understand and ...
We participate in the Atmospheric Radiation Measurement by the surface albedo. We are currently eval...
Climate models are an important tool in understanding the mechanisms of the climate system and for p...
One of the possible ways to check the adequacy of the physical description of meteorological element...
What makes clouds ethereal and beautiful also makes them complex and challenging to understand and ...
What makes clouds ethereal and beautiful also makes them complex and challenging to understand and ...
Cloud feedback—the change in top‐of‐atmosphere radiative flux resulting from the cloud response to w...
Our ability to study and quantify the impact of cloud-radiation interactions in studying global scal...
The representation of clouds in Global Climate Models (GCMs) remains a major source of uncertainty i...
Clouds can reflect, absorb and re-emit radiation, thereby inducing a cooling or warming effect on th...
Abstract In estimates of climate sensitivity obtained from global models, the need to represent clou...
Clouds can reflect, absorb and re-emit radiation, thereby inducing a cooling or warming effect on th...
Abstract. Six years ago, we compared the climate sensitivity of 19 atmospheric general circulation m...
This report contains papers from the International Workshop on Cloud-Radiation Interactions and Thei...
Cloud properties and their evolution influence Earth's radiative balance. The cloud microphysical (C...
What makes clouds ethereal and beautiful also makes them complex and challenging to understand and ...
We participate in the Atmospheric Radiation Measurement by the surface albedo. We are currently eval...
Climate models are an important tool in understanding the mechanisms of the climate system and for p...
One of the possible ways to check the adequacy of the physical description of meteorological element...
What makes clouds ethereal and beautiful also makes them complex and challenging to understand and ...
What makes clouds ethereal and beautiful also makes them complex and challenging to understand and ...