Multimodel ensemble simulations of present‐day and near‐future tropospheric ozone
University of Edinburgh · Joint Research Centre · +21 more institutions
Abstract
Global tropospheric ozone distributions, budgets, and radiative forcings from an ensemble of 26 state‐of‐the‐art atmospheric chemistry models have been intercompared and synthesized as part of a wider study into both the air quality and climate roles of ozone. Results from three 2030 emissions scenarios, broadly representing “optimistic,” “likely,” and “pessimistic” options, are compared to a base year 2000 simulation. This base case realistically represents the current global distribution of tropospheric ozone. A further set of simulations considers the influence of climate change over the same time period by forcing the central emissions scenario with a surface warming of around 0.7K. The use of a large…
Citation impact
- FWCI
- 48.38
- Percentile
- 100%
- References
- 164
Authors
40Topics & keywords
- Radiative forcing
- Environmental science
- Tropospheric ozone
- Climatology
- Ozone
- Atmospheric sciences
- Forcing (mathematics)
- Climate model
- Climate action