Due to restrictions in the available computing resources and a lack of suitable observational data, transient climate change experiments with global coupled ocean-atmosphere models have been started from an initial state at equilibrium with the present day forcing. The historical development of greenhouse gas forcing from the onset of industrialization until the present has therefore been neglected. Studies with simplified models have shown that this "cold start" error leads to a serious underestimation of the anthropogenic global warming. In the present study, a 150-year integration has been carried out with a global coupled ocean-atmosphere model starting from the greenhouse gas concentration observed in 1935, i.e., at an early time of in...
Several scenario experiments of the IPCC 4th Assessment Report (AR4) are performed by version g1.0 o...
Global mean surface temperatures (GMST) warmed in the early 20th century, experienced a mid-century ...
Using a coupled atmosphere/ocean general circulation model, we have simulated the climatic response ...
Due to restrictions in the available computing resources and a lack of suitable observational data, ...
Climate changes during the next 100 years caused by anthropogenic emissions of greenhouse gases have...
This article reviews some problems associated with the use of coupled atmosphere-ocean General Circu...
Four time-dependent greenhouse warming experiments were performed with the same global coupled atmos...
This paper investigates the impact of aerosol forcing uncertainty on the robustness of estimates of ...
The observed warming in the atmosphere and ocean can be used to estimate the climate sensitivity lin...
A methodology is formulated to evaluate the possible changes in decadal-timescale (10–20-yr period) ...
The ability of climate models to simulate large-scale temperature changes during the twentieth centu...
Historical climate simulations of the period 1861–2000 using two new Geophysical Fluid Dynamics Labo...
The evolution of industrial-era warming across the continents and oceans provides a context for futu...
Several scenario experiments of the IPCC 4th Assessment Report (AR4) are performed by version g1.0 o...
Global mean surface temperatures (GMST) warmed in the early 20th century, experienced a mid-century ...
Using a coupled atmosphere/ocean general circulation model, we have simulated the climatic response ...
Due to restrictions in the available computing resources and a lack of suitable observational data, ...
Climate changes during the next 100 years caused by anthropogenic emissions of greenhouse gases have...
This article reviews some problems associated with the use of coupled atmosphere-ocean General Circu...
Four time-dependent greenhouse warming experiments were performed with the same global coupled atmos...
This paper investigates the impact of aerosol forcing uncertainty on the robustness of estimates of ...
The observed warming in the atmosphere and ocean can be used to estimate the climate sensitivity lin...
A methodology is formulated to evaluate the possible changes in decadal-timescale (10–20-yr period) ...
The ability of climate models to simulate large-scale temperature changes during the twentieth centu...
Historical climate simulations of the period 1861–2000 using two new Geophysical Fluid Dynamics Labo...
The evolution of industrial-era warming across the continents and oceans provides a context for futu...
Several scenario experiments of the IPCC 4th Assessment Report (AR4) are performed by version g1.0 o...
Global mean surface temperatures (GMST) warmed in the early 20th century, experienced a mid-century ...
Using a coupled atmosphere/ocean general circulation model, we have simulated the climatic response ...