The Bristol Research Initiative for the Dynamic Global Environment (BRIDGE) was set up in 2003 by Paul Valdes. Its aim is to improve the understanding of natural climate and environmental variability and to use this knowledge to predict future changes more accurately and assess its impact on all aspects of human society. In the context of UK research, this remit is uniquely wide. BRIDGE provides information to the Intergovernmental Panel on Climate Change and this ultimately feeds into the government's policy considerations.

A principal research focus is Earth System Science, which looks at the complex interactions between all the Earth's components: the oceans, atmosphere, ice sheets, biosphere, and also the influence of human activity on global change. This approach requires the input of multidisciplinary teams, drawn from across the University (Bristol Glaciology Centre, Hydrology Group, Biogeochemical Cycles, Chemistry, Earth Sciences, Mathematics, Engineering, Biological Sciences, Archaeology, Personal Finance Research Centre) and beyond (Hadley Centre, British Antarctic Survey, UK Met Office, DEFRA, Environment Agency, Centre for Global Atmospheric Modelling, Oil Industry).

BRIDGE is the largest research group in the School, and when combined with associates from other Schools across the University has an active membership of > 100.  Leadership rotates among the BRIDGE faculty and is currently the joint responsibility of Fanny Monteiro and Dann Mitchell. Amonst the principal aims of the group within Geography is improved understanding of the causes of climate change, by testing the computer climate models used to predict future climate change. Major themes include:

• Quantifying environmental and climate change in the distant past through the combined use of data and models;
• Evaluating climate models with accurate proxy climate records, especially during periods of rapid climate change;
• Improving climate models by incorporating additional components of the Earth System and detailed analysis of these processes for past, present and future change;
• Assessing the impact of future climate change on spatial and temporal scales relevant to society and including timescales from decadal to millennial.