Understanding uncertainty in simulations of THC-related rapid climate change.
Lead Research Organisation:
University of Reading
Department Name: Meteorology
Abstract
The main tools that are used for making projections of climate change in the coming century resulting from greenhouse-gas and other emissions are detailed coupled three-dimensional models of the atmosphere and ocean. However, such models give widely different results for some important aspects of climate change, thus limiting our ability to make practically useful projections. One such aspect is changes that may happen in the Atlantic Ocean thermohaline circulation, often referred to as the Gulf Stream. This circulation transports a great deal of heat northwards. If it weakened, future warming in Europe in particular could be reduced or possibly reversed. The spread of model results basically reflects limitations in current understanding of how the large-scale climate system operates. The aim of this project is to identify which are the most important aspects of that uncertainty by making comparisons of the responses simulated by a range of climate models. The results are intended to help improve the models by focusing attention on the aspects which require further theoretical or observational study.
Organisations
People |
ORCID iD |
Jonathan Gregory (Principal Investigator) |
Publications
Balan Sarojini B
(2011)
High frequency variability of the Atlantic meridional overturning circulation
in Ocean Science
Balan Sarojini B
(2011)
High frequency variability of the Atlantic meridional overturning circulation
Edwards N
(2010)
Precalibrating an intermediate complexity climate model
in Climate Dynamics
Holden P
(2009)
A probabilistic calibration of climate sensitivity and terrestrial carbon change in GENIE-1
in Climate Dynamics
Holden P
(2010)
Dimensionally reduced emulation of an AOGCM for application to integrated assessment modelling
in Geophysical Research Letters
Sinha B
(2010)
The Sensitivity of a Coupled Climate Model to Its Ocean Component
in Journal of Climate