Temperature observations from the Northern Hemisphere reveal a warming since 1861 which is larger in winter than in summer. Possible explanations for a decline in seasonal spread are discussed using the Earth system model CLIMBER-2. Simulations forced by natural and anthropogenic factors (Milankovitch forcing, solar variability, volcanism, atmospheric CO2 concentration, deforestation) generate specific seasonal responses. While the Milankovitch forcing increased the millennial seasonal spread, and solar variability and volcanism proved ancillary in reducing the spread on the centennial timescale, the anthropogenic factors appear the primary agents to attenuate the seasonal spread. The climatic effect of the anthropogenic factors is amplifie...
In older to estimate the effect of historical land cover change (deforestation) on climate, we perfo...
It has been widely reported that anthropogenic warming is detectable with high confidence after the ...
A concept for the physical understanding of insolation-driven temperature variability on orbital tim...
Temperature observations from the Northern Hemisphere reveal a warming since 1861 which is larger in...
[1] The effects of natural and anthropogenic forcings (solar activity, volcanism, atmospheric CO2 co...
Numerical experiments have been carried Out with a two-dimensional sector-averaged global climate mo...
Comparison of simulated and reconstructed past climate variability within the last millennium provid...
International audienceA reasonable past millennial climate simulation relies heavily on the specifie...
[1] The effects of natural and anthropogenic forcings (solar activity, volcanism, atmospheric CO2 co...
Historical climate simulations of the period 1861–2000 using two new Geophysical Fluid Dynamics Labo...
Climate-model simulations of the large-scale temperature responses to increased radiative forcing in...
We assess the extent to which observed large-scale changes in near-surface temperatures over the lat...
The annual and seasonal temperatures in the Arctic over the past 1150 years are analyzed in simulati...
The response of atmospheric CO2 and climate to the reconstructed variability in solar irradiance and...
Milankovitch proposed that variations in the earth’s orbit cause climate variability through a local...
In older to estimate the effect of historical land cover change (deforestation) on climate, we perfo...
It has been widely reported that anthropogenic warming is detectable with high confidence after the ...
A concept for the physical understanding of insolation-driven temperature variability on orbital tim...
Temperature observations from the Northern Hemisphere reveal a warming since 1861 which is larger in...
[1] The effects of natural and anthropogenic forcings (solar activity, volcanism, atmospheric CO2 co...
Numerical experiments have been carried Out with a two-dimensional sector-averaged global climate mo...
Comparison of simulated and reconstructed past climate variability within the last millennium provid...
International audienceA reasonable past millennial climate simulation relies heavily on the specifie...
[1] The effects of natural and anthropogenic forcings (solar activity, volcanism, atmospheric CO2 co...
Historical climate simulations of the period 1861–2000 using two new Geophysical Fluid Dynamics Labo...
Climate-model simulations of the large-scale temperature responses to increased radiative forcing in...
We assess the extent to which observed large-scale changes in near-surface temperatures over the lat...
The annual and seasonal temperatures in the Arctic over the past 1150 years are analyzed in simulati...
The response of atmospheric CO2 and climate to the reconstructed variability in solar irradiance and...
Milankovitch proposed that variations in the earth’s orbit cause climate variability through a local...
In older to estimate the effect of historical land cover change (deforestation) on climate, we perfo...
It has been widely reported that anthropogenic warming is detectable with high confidence after the ...
A concept for the physical understanding of insolation-driven temperature variability on orbital tim...