The assessment of uncertainties in global warming projections is often based on expert judgement, because a number of key variables in climate change are poorly quantified. In particular, the sensitivity of climate to changing greenhouse-gas concentrations in the atmosphere and the radiative forcing effects by aerosols are not well constrained, leading to large uncertainties in global warming simulations1. Here we present a Monte Carlo approach to produce probabilistic climate projections, using a climate model of reduced complexity. The uncertainties in the input parameters and in the model itself are taken into account, and past observations of oceanic and atmospheric warming are used to constrain the range of realistic model responses. W...
Implementing accurate calculations of radiative forcing can improve climate projection
PublishedJournal ArticleWe compare future changes in global mean temperature in response to differen...
In this thesis an energy balance model and regression with internal climate variability indices are ...
Tropospheric aerosol radiative forcing has persisted for many years as one of the major causes of un...
Tropospheric aerosol radiative forcing has persisted for many years as one of the major causes of un...
Tropospheric aerosol radiative forcing has persisted for many years as one of the major causes of un...
Anthropogenic aerosol emissions are predicted to decline sharply throughout the 21st century, in lin...
The continuing increase in atmospheric carbon dioxide (CO2) makes it essential that climate sensitiv...
This paper investigates the impact of aerosol forcing uncertainty on the robustness of estimates of ...
The largest uncertainty in the historical radiative forcing of climate is caused by the interaction ...
A systematic approach to quantifying uncertainty in climate projections is through the application o...
© 2011 Dr. Roger William BodmanThis research has investigated the sources of uncertainty that apply ...
The continuing increase in atmospheric carbon dioxide (CO 2) makes it essential that climate sensiti...
The future behaviour of the carbon cycle is a major contributor to uncertainty in temperature projec...
The Massachusetts Institute of Technology (MIT) Integrated Global System Model is used to make proba...
Implementing accurate calculations of radiative forcing can improve climate projection
PublishedJournal ArticleWe compare future changes in global mean temperature in response to differen...
In this thesis an energy balance model and regression with internal climate variability indices are ...
Tropospheric aerosol radiative forcing has persisted for many years as one of the major causes of un...
Tropospheric aerosol radiative forcing has persisted for many years as one of the major causes of un...
Tropospheric aerosol radiative forcing has persisted for many years as one of the major causes of un...
Anthropogenic aerosol emissions are predicted to decline sharply throughout the 21st century, in lin...
The continuing increase in atmospheric carbon dioxide (CO2) makes it essential that climate sensitiv...
This paper investigates the impact of aerosol forcing uncertainty on the robustness of estimates of ...
The largest uncertainty in the historical radiative forcing of climate is caused by the interaction ...
A systematic approach to quantifying uncertainty in climate projections is through the application o...
© 2011 Dr. Roger William BodmanThis research has investigated the sources of uncertainty that apply ...
The continuing increase in atmospheric carbon dioxide (CO 2) makes it essential that climate sensiti...
The future behaviour of the carbon cycle is a major contributor to uncertainty in temperature projec...
The Massachusetts Institute of Technology (MIT) Integrated Global System Model is used to make proba...
Implementing accurate calculations of radiative forcing can improve climate projection
PublishedJournal ArticleWe compare future changes in global mean temperature in response to differen...
In this thesis an energy balance model and regression with internal climate variability indices are ...