Abstract
Abstract. An eight-year long reanalysis of atmospheric composition data covering the period 2003–2010 was constructed as part of the FP7-funded Monitoring Atmospheric Composition and Climate project by assimilating satellite data into a global model and data assimilation system. This reanalysis provides fields of chemically reactive gases, namely carbon monoxide, ozone, nitrogen oxides, and formaldehyde, as well as aerosols and greenhouse gases globally at a horizontal resolution of about 80 km for both the troposphere and the stratosphere. This paper describes the assimilation system for the reactive gases and presents validation results for the reactive gas analysis fields to document the data set and to give a first indication of its quality. Tropospheric CO values from the MACC reanalysis are on average 10–20% lower than routine observations from commercial aircrafts over airports through most of the troposphere, and have larger negative biases in the boundary layer at urban sites affected by air pollution, possibly due to an underestimation of CO or precursor emissions. Stratospheric ozone fields from the MACC reanalysis agree with ozonesondes and ACE-FTS data to within ±10% in most seasons and regions. In the troposphere the reanalysis shows biases of −5% to +10% with respect to ozonesondes and aircraft data in the extratropics, but has larger negative biases in the tropics. Area-averaged total column ozone agrees with ozone fields from a multi-sensor reanalysis data set to within a few percent. NO2 fields from the reanalysis show the right seasonality over polluted urban areas of the NH and over tropical biomass burning areas, but underestimate wintertime NO2 maxima over anthropogenic pollution regions and overestimate NO2 in northern and southern Africa during the tropical biomass burning seasons. Tropospheric HCHO is well simulated in the MACC reanalysis even though no satellite data are assimilated. It shows good agreement with independent SCIAMACHY retrievals over regions dominated by biogenic emissions with some anthropogenic input, such as the eastern US and China, and also over African regions influenced by biogenic sources and biomass burning.
Highlights
Monitoring Atmospheric Composition and Climate (MACC) is a research project with the aim of establishing the core global and regional atmospheric environmental services for the European GMES (Global Monitoring for Environment and Security) initiative
This paper describes the setup of the reactive gas data assimilation system used in the MACC reanalysis of atmospheric composition
The background error correlations used in the operational European Centre for Medium-Range Weather Forecasts’ (ECMWF) data assimilation system were derived from an ensemble of forecast differences, using a method proposed by Fisher and Andersson (2001)
Summary
Monitoring Atmospheric Composition and Climate (MACC) is a research project with the aim of establishing the core global and regional atmospheric environmental services for the European GMES (Global Monitoring for Environment and Security) initiative. The reactive gases that were included as IFS model variables in the MACC reanalysis were ozone (O3), carbon monoxide (CO), nitrogen oxides (NOx = NO+NO2), and formaldehyde (HCHO). These four gases were chosen because they play a key role in the chemistry of the atmosphere and have been measured by spaceborne instruments with sufficient density and continuity to deliver strongly constrained analyses. Nitrogen oxides play a key role in tropospheric chemistry and are the main ingredient in the formation of ground-level ozone Their sources are anthropogenic emissions, biomass burning, soil emissions and, at altitude, lightning and aviation.
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