[1] The effects of natural and anthropogenic forcings (solar activity, volcanism, atmospheric CO2 concentration, deforestation) on climate changes are estimated with the Earth system model of intermediate complexity, CLIMBER-2, for the past millennium. Simulated surface air temperatures for the Northern Hemisphere from the combined forcing correlate reasonably well with paleoclimatic data (r = 0.70). The largest negative anomalies occur when insolation minima coincide with volcanic eruptions. Anthropogenic forcings impose additional climate changes after 1850. The increasing warming from increasing CO2 concentrations is attenuated by the cooling effect from deforestation. Results from differently combined forcings suggest that the relativel...
Historical climate simulations of the period 1861–2000 using two new Geophysical Fluid Dynamics Labo...
The last 6000 years are of particular interest to the understanding of the Earth System because the ...
Using a coupled atmosphere/ocean general circulation model, we have simulated the climatic response ...
[1] The effects of natural and anthropogenic forcings (solar activity, volcanism, atmospheric CO2 co...
In older to estimate the effect of historical land cover change (deforestation) on climate, we perfo...
The past is the key to the future. Contrary to popular belief, climate models are not the principal ...
Temperature observations from the Northern Hemisphere reveal a warming since 1861 which is larger in...
The MPM-2, an Earth system model of intermediate complexity, is employed to study the climate system...
We assess the extent to which observed large-scale changes in near-surface temperatures over the lat...
Understanding and quantifying natural climate variability is a prerequisite to detect and attribute ...
Understanding and quantifying natural climate variability is necessary to detect and attribute anthr...
A long-standing task in climate research has been to distinguish between anthropogenic climate chang...
Seventy-one sensitivity experiments have been performed using a two-dimensional sector-averaged glob...
The past 1500 years provides a valuable opportunity to study the role of external forcings in drivin...
Climate patterns are influenced by internal variability and forcing. A major forcing is carbon dioxi...
Historical climate simulations of the period 1861–2000 using two new Geophysical Fluid Dynamics Labo...
The last 6000 years are of particular interest to the understanding of the Earth System because the ...
Using a coupled atmosphere/ocean general circulation model, we have simulated the climatic response ...
[1] The effects of natural and anthropogenic forcings (solar activity, volcanism, atmospheric CO2 co...
In older to estimate the effect of historical land cover change (deforestation) on climate, we perfo...
The past is the key to the future. Contrary to popular belief, climate models are not the principal ...
Temperature observations from the Northern Hemisphere reveal a warming since 1861 which is larger in...
The MPM-2, an Earth system model of intermediate complexity, is employed to study the climate system...
We assess the extent to which observed large-scale changes in near-surface temperatures over the lat...
Understanding and quantifying natural climate variability is a prerequisite to detect and attribute ...
Understanding and quantifying natural climate variability is necessary to detect and attribute anthr...
A long-standing task in climate research has been to distinguish between anthropogenic climate chang...
Seventy-one sensitivity experiments have been performed using a two-dimensional sector-averaged glob...
The past 1500 years provides a valuable opportunity to study the role of external forcings in drivin...
Climate patterns are influenced by internal variability and forcing. A major forcing is carbon dioxi...
Historical climate simulations of the period 1861–2000 using two new Geophysical Fluid Dynamics Labo...
The last 6000 years are of particular interest to the understanding of the Earth System because the ...
Using a coupled atmosphere/ocean general circulation model, we have simulated the climatic response ...
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