Abstract. The relationship between paleoclimates and the future climate, while not as simple as implied in the 'paleoanalog ' studies of Budyko and others, nevertheless provides ufficient constraints to broadly confirm the climate sensitivity range of theoretical models and perhaps eventually narrow the model-derived uncertainties. We use a new technique called 'paleocalibration ' to calculate the ratio of temperature response to forcing on a global mean scale for three key intervals of Earth history. By examining surface conditions reconstructed from geologic data for the Last Glacial Maximum, the middle Cretaceous and the early Eocene, we can estimate the equilibrium climate sensitivity to radiative forcing changes for...
Abstract: The best method so far devised for testing the ability of a general circulation model (GCM...
Many palaeoclimate studies have quantified climate changes of the pre-1 anthropogenic past to calcul...
Accurate estimates of past global mean surface temperature (GMST) help to contextualise future clima...
The addition of carbon dioxide (CO2) in the atmosphere due to human activities is the main driver of...
To assess the future impact of anthropogenic greenhouse gases on global climate, we need a reliable ...
Climate sensitivity represents the global mean temperature change caused by changes in the radiative...
Climate sensitivity represents the global mean temperature change caused by changes in the radiative...
Climate sensitivity is defined as the change in global mean equilibrium temperature after a doubling...
Many palaeoclimate studies have quantified pre-anthropogenic climate change to calculate climate sen...
The Paleocene–Eocene Thermal Maximum (PETM; 56 Ma) is one of our best geological analogs for underst...
During the period from approximately 150 to 35ĝ million years ago, the Cretaceous-Paleocene-Eocene (...
Abstract: The best method so far devised for testing the ability of a general circulation model (GCM...
Many palaeoclimate studies have quantified climate changes of the pre-1 anthropogenic past to calcul...
Accurate estimates of past global mean surface temperature (GMST) help to contextualise future clima...
The addition of carbon dioxide (CO2) in the atmosphere due to human activities is the main driver of...
To assess the future impact of anthropogenic greenhouse gases on global climate, we need a reliable ...
Climate sensitivity represents the global mean temperature change caused by changes in the radiative...
Climate sensitivity represents the global mean temperature change caused by changes in the radiative...
Climate sensitivity is defined as the change in global mean equilibrium temperature after a doubling...
Many palaeoclimate studies have quantified pre-anthropogenic climate change to calculate climate sen...
The Paleocene–Eocene Thermal Maximum (PETM; 56 Ma) is one of our best geological analogs for underst...
During the period from approximately 150 to 35ĝ million years ago, the Cretaceous-Paleocene-Eocene (...
Abstract: The best method so far devised for testing the ability of a general circulation model (GCM...
Many palaeoclimate studies have quantified climate changes of the pre-1 anthropogenic past to calcul...
Accurate estimates of past global mean surface temperature (GMST) help to contextualise future clima...