The latest climate models and observations offer unprecedented opportunities to reduce the remaining uncertainties in future climate change, according to a paper published January 7 in Nature Climate Change by a team of 29 international authors, including Professor George Hurtt from the University of Maryland Department of Geographical Sciences.
Although the human impact of recent climate change is now clear, future climate change depends on how much additional greenhouse gas is emitted by humanity and also how sensitive the Earth System is to those emissions. Reducing uncertainty in the sensitivity of the climate to carbon dioxide emissions is necessary to determine what needs to happen to reduce the risk of dangerous climate change and to meet international climate targets.
The study, which emerged from an intense workshop at the Aspen Global Change Institute in August 2017, explains how new evaluation tools will enable a more complete comparison of models to ground-based and satellite measurements. As lead author Veronika Eyring from the University of Bremen in Germany explains, “We decided to convene a workshop at the AGCI to discuss how we can make the most of these new opportunities to take climate model evaluation to the next level.”
The agenda laid out includes plans to make the increasing number of global climate models, which are being developed worldwide, more than the sum of the parts. One promising approach involves using all the models together to find relationships between the climate variations being observed now and future climate change. “When considered together, the latest models and observations can significantly reduce uncertainties in key aspects of future climate change,” said workshop co-organizer Peter Cox of the University of Exeter in the UK.
The new paper is motivated by a need to rapidly increase the speed of progress in dealing with climate change. It is now clear that humanity needs to reduce emissions of carbon dioxide very rapidly to avoid crashing through the global warming limits of 1.5oC and 2oC set out in the Paris agreement. However, adapting to the climate changes that we will experience requires much more detailed information at the regional scale.
“To be most useful, model projections need to be as accurate as possible,” said UMD’s Professor Hurtt. “This paper discusses important new tools and strategies for rapid model evaluation with observations.”
The UMD Department of Geographical Sciences specializes in examining and addressing global environmental change through the use of computer models, remote sensing and other sources of big data.
*See original publication on the UMD BSOS website*