Representing uncertainty in climate change scenarios: a Monte-Carlo approach
Authors
Mark New
University of Oxford
Mike Hulme
University of East Anglia
Abstract
Climate change impact assessment is subject to a range of uncertainties due to both incomplete and unknowable knowledge. This paper presents an approach to quantifying some of these uncertainties within a probabilistic framework. A hierarchical impact model is developed that addresses uncertainty about future greenhouse gas emissions, the climate sensitivity, and limitations and unpredictability in general circulation models. The hierarchical model is used in Bayesian Monte-Carlo simulations to define posterior probability distributions for changes in seasonal-mean temperature and precipitation over the United Kingdom that are conditional on prior distributions for the model parameters. The application of this approach to an impact model is demonstrated using a hydrological example.
Author Biographies
Mark New, University of Oxford
School of Geography and the Environment
Mike Hulme, University of East Anglia
Climatic Research Unit, School of Environmental Sciences
