Add to ORKGUncertainties in the climate response to a doubling of atmospheric CO2 concentrations are quantified in a perturbed land surface parameter experiment. The ensemble of 108 members is constructed by systematically perturbing five poorly constrained land surface parameters of global climate model individually and in all possible combinations. The land surface parameters induce small uncertainties at global scale, substantial uncertainties at regional and seasonal scale and very large uncertainties in the tails of the distribution, the climate extremes. Climate sensitivity varies across the ensemble mainly due to the perturbation of the snow albedo parameterization, which controls the snow albedo feedback strength. The uncertainty range in the ...
Climate sensitivity in Earth system models (ESMs) is an emergent property that is affected by struct...
Climate model studies of the consequences of solar geoengineering are central to evaluating whether ...
Uncertainty in climate projections is large as shown by the likely uncertainty ranges in Equilibrium...
The Earth’s land surface and the atmosphere are strongly interlinked through the exchange of energy ...
International audienceThe land surface models JULES (Joint UK Land Environment Simulator, two versio...
The land surface models JULES (Joint UK Land Environment Simulator, two versions) and ORCHIDEE-MICT ...
We examine how soil moisture variability and trends affect the simulation of temperature and precipi...
This paper explores the relationship between the complexity of the land surface energy balance param...
The range of possibilities for future climate evolution needs to be taken into account when planning...
Global mean surface air temperature (GMST) change, due to increases in atmospheric carbon dioxide co...
The range of possibilities for future climate evolution needs to be taken into account when planning...
Temperature and precipitation extremes are examined in the Geoengineering Model Intercomparison Proj...
This paper explores the relationship between the complexity of the land surface energy balance param...
Climate sensitivity in Earth system models (ESMs) is an emergent property that is affected by struct...
Climate model studies of the consequences of solar geoengineering are central to evaluating whether ...
Uncertainty in climate projections is large as shown by the likely uncertainty ranges in Equilibrium...
The Earth’s land surface and the atmosphere are strongly interlinked through the exchange of energy ...
International audienceThe land surface models JULES (Joint UK Land Environment Simulator, two versio...
The land surface models JULES (Joint UK Land Environment Simulator, two versions) and ORCHIDEE-MICT ...
We examine how soil moisture variability and trends affect the simulation of temperature and precipi...
This paper explores the relationship between the complexity of the land surface energy balance param...
The range of possibilities for future climate evolution needs to be taken into account when planning...
Global mean surface air temperature (GMST) change, due to increases in atmospheric carbon dioxide co...
The range of possibilities for future climate evolution needs to be taken into account when planning...
Temperature and precipitation extremes are examined in the Geoengineering Model Intercomparison Proj...
This paper explores the relationship between the complexity of the land surface energy balance param...
Climate sensitivity in Earth system models (ESMs) is an emergent property that is affected by struct...
Climate model studies of the consequences of solar geoengineering are central to evaluating whether ...
Uncertainty in climate projections is large as shown by the likely uncertainty ranges in Equilibrium...