Global temperature has increased significantly during the past century. Understanding the causes of observed global temperature change is impossible in the absence of adequate monitoring of changes in global climate forcings and radiative feedbacks. Climate forcings are changes imposed on the planet's energy balance, such as change of incoming sunlight or a human-induced change of surface properties due to deforestation. Radiative feedbacks are radiative changes induced by climate change, such as alteration of cloud properties or the extent of sea ice. Monitoring of global climate forcings and feedbacks, if sufficiently precise and long-term, can provide a very strong constraint on interpretation of observed temperature change. Such monitor...
As a consequence of fossil fuel burning, the atmospheric concentration of carbon dioxide has increas...
Radiative forcing is a useful tool for predicting equilibrium global temperature change. However, it...
International audienceThe temperature on Earth varied largely in the Pleistocene from cold glacials ...
Abstract Global-scale variations in the climate system over the last half of the twen...
A simple technique is proposed for calculating global mean climate forcing from transient integratio...
Radiative forcing has been widely used as a metric of climate change, i.e. as a measure by which v...
The traditional forcing-feedback framework has provided an indispensable basis for discussing global...
In the last century, the Earth has undergone a very fast and unusual change in the radiative forcing...
Over the past century global average temperature has increased by about 0.8 °C. Any substantial chan...
Satellite and surface measurements, if they are to serve as a climate monitoring system, must be acc...
The forcings that drive long-term climate change are not known with an accuracy sufficient to define...
In this paper, we breakdown the temperature response of coupled ocean-atmosphere climate models into...
The Earth's thermostat is a complex and delicate mechanism, at the heart of which lie the greenhouse...
Globally, latent heating associated with a change in precipitation is balanced by changes to atmosph...
We extend the theory of climate feedbacks to include atmospheric chemistry. A change in temperature ...
As a consequence of fossil fuel burning, the atmospheric concentration of carbon dioxide has increas...
Radiative forcing is a useful tool for predicting equilibrium global temperature change. However, it...
International audienceThe temperature on Earth varied largely in the Pleistocene from cold glacials ...
Abstract Global-scale variations in the climate system over the last half of the twen...
A simple technique is proposed for calculating global mean climate forcing from transient integratio...
Radiative forcing has been widely used as a metric of climate change, i.e. as a measure by which v...
The traditional forcing-feedback framework has provided an indispensable basis for discussing global...
In the last century, the Earth has undergone a very fast and unusual change in the radiative forcing...
Over the past century global average temperature has increased by about 0.8 °C. Any substantial chan...
Satellite and surface measurements, if they are to serve as a climate monitoring system, must be acc...
The forcings that drive long-term climate change are not known with an accuracy sufficient to define...
In this paper, we breakdown the temperature response of coupled ocean-atmosphere climate models into...
The Earth's thermostat is a complex and delicate mechanism, at the heart of which lie the greenhouse...
Globally, latent heating associated with a change in precipitation is balanced by changes to atmosph...
We extend the theory of climate feedbacks to include atmospheric chemistry. A change in temperature ...
As a consequence of fossil fuel burning, the atmospheric concentration of carbon dioxide has increas...
Radiative forcing is a useful tool for predicting equilibrium global temperature change. However, it...
International audienceThe temperature on Earth varied largely in the Pleistocene from cold glacials ...