The response of atmospheric CO2 and climate to the reconstructed variability in solar irradiance and radiative forcing by volcanoes over the last millennium is examined by applying a coupled physical-biogeochemical climate model that includes the Lund-Potsdam-Jena dynamic global vegetation model (LPJ-DGVM) and a simplified analogue of a coupled atmosphere- ocean general circulation model. The modeled variations of atmospheric CO2 and Northern Hemisphere (NH) mean surface temperature are compatible with reconstructions from different Antarctic ice cores and temperature proxy data. Simulations where the magnitude of solar irradiance changes is increased yield a mismatch between model results and CO2 data, providing evidence for modest changes...
International audienceAtmospheric carbon dioxide (CO2) measured in Antarctic ice cores shows a natur...
The covariation of carbon dioxide (CO2) concentration and temperature in Antarctic ice-core records ...
The current Quaternary Ice Age is characterized by multiple switches of the global climate between g...
The response of atmospheric CO2 and climate to the reconstructed variability in solar irradiance and...
A long-standing task in climate research has been to distinguish between anthropogenic climate chang...
The fluctuations of atmospheric CO2 concentrations over the preindustrial Common Era are generally a...
Studying the climate of the last millennium gives the possibility to deal with a relatively well-doc...
The covariation of carbon dioxide (CO2) concentration and temperature in Antarctic ice-core records ...
The climate of nine interglacials of the past 800,000 years has been simulated with both snapshot an...
The climate of the nine interglacials of the past 800,000 years has been simulated with both snapsho...
Understanding and quantifying natural climate variability is a prerequisite to detect and attribute ...
Comparison of simulated and reconstructed past climate variability within the last millennium provid...
Present day global warming is primarily caused by the greenhouse effect of the increased CO2 emissio...
International audienceAtmospheric carbon dioxide (CO2) measured in Antarctic ice cores shows a natur...
The covariation of carbon dioxide (CO2) concentration and temperature in Antarctic ice-core records ...
The current Quaternary Ice Age is characterized by multiple switches of the global climate between g...
The response of atmospheric CO2 and climate to the reconstructed variability in solar irradiance and...
A long-standing task in climate research has been to distinguish between anthropogenic climate chang...
The fluctuations of atmospheric CO2 concentrations over the preindustrial Common Era are generally a...
Studying the climate of the last millennium gives the possibility to deal with a relatively well-doc...
The covariation of carbon dioxide (CO2) concentration and temperature in Antarctic ice-core records ...
The climate of nine interglacials of the past 800,000 years has been simulated with both snapshot an...
The climate of the nine interglacials of the past 800,000 years has been simulated with both snapsho...
Understanding and quantifying natural climate variability is a prerequisite to detect and attribute ...
Comparison of simulated and reconstructed past climate variability within the last millennium provid...
Present day global warming is primarily caused by the greenhouse effect of the increased CO2 emissio...
International audienceAtmospheric carbon dioxide (CO2) measured in Antarctic ice cores shows a natur...
The covariation of carbon dioxide (CO2) concentration and temperature in Antarctic ice-core records ...
The current Quaternary Ice Age is characterized by multiple switches of the global climate between g...