Wetenschappelijke publicatie

Simulation of tropospheric chemistry and aerosols with the climate model EC-Earth

TPC van Noije, P Le Sager, AJ Segers, PFJ van Velthoven, MC Krol, W Hazeleger, AG Williams, CD Chambers

We have integrated the atmospheric chemistry and transport model TM5 into the global climate model EC-Earth version 2.4. We present an overview of the TM5 model and the two-way data exchange between TM5 and the IFS model from the European Centre for Medium-Range Weather Forecasts (ECMWF), the atmospheric general circulation model of EC-Earth. In this paper we evaluate the simulation of tropospheric chemistry and aerosols in a one-way coupled configuration. We have carried out a decadal simulation for present-day conditions and calculated chemical budgets and climatologies of tracer concentrations and aerosol optical depth. For comparison we have also performed offline simulations driven by meteorological fields from ECMWF's ERA-Interim reanalysis and output from the EC-Earth model itself. Compared to the offline simulations, the online-coupled system produces more efficient vertical mixing in the troposphere, which reflects an improvement of the treatment of cumulus convection. The chemistry in the EC-Earth simulations is affected by the fact that the current version of EC-Earth produces a cold bias with too dry air in large parts of the troposphere. Compared to the ERA-Interim driven simulation, the oxidizing capacity in EC-Earth is lower in the tropics and higher in the extratropics. The atmospheric lifetime of methane in EC-Earth is 9.4 years, which is 7% longer than the lifetime obtained with ERA-Interim but remains well within the range reported in the literature. We further evaluate the model by comparing the simulated climatologies of surface radon-222 and carbon monoxide, tropospheric and surface ozone, and aerosol optical depth against observational data. The work presented in this study is the first step in the development of EC-Earth into an Earth system model with fully interactive atmospheric chemistry and aerosols.

Bibliografische gegevens

TPC van Noije, P Le Sager, AJ Segers, PFJ van Velthoven, MC Krol, W Hazeleger, AG Williams, CD Chambers. Simulation of tropospheric chemistry and aerosols with the climate model EC-Earth
Journal: Geosci. Model Dev., Volume: 7, Year: 2014, First page: 2435, Last page: 2475, doi: 10.5194/gmd-7-2435-2014

Niet gevonden wat u zocht? Zoek meer wetenschappelijke publicaties