Abstract
The present work is a first approach to the study of the spatio-temporal variability of the submicrometer atmospheric aerosol in Spain. The aerosol measurements have been obtained simultaneously at seven monitoring stations that compose the REDMAAS network during two measurement campaigns corresponding to summer and winter seasons.In both summer and winter periods those measurement stations with a direct influence of anthropogenic emissions recorded the highest concentrations of particle number. In the summer campaign, the average daily pattern of the aerosol size distribution in the traffic and background urban stations was conditioned by the traffic emissions and secondary aerosol formation through photochemical reactions (new particle formation events, NPF). However, the secondary aerosol had a higher contribution to the aerosol total number concentration in the rural background and high-altitude stations. In the winter campaign, in all sampling sites with the exception of Izaña station, the traffic and domestic activity emissions had a greater contribution than secondary aerosol formation on particle number total concentration.New particle formation events were identified at all sites during the summer period, and at sites without direct influence of anthropogenic emissions during the winter campaign. Some aerosol shrinkage processes were also observed at the Madrid and El Arenosillo stations.
Highlights
IntroductionCompilations of aerosol measurements with spatio-temporal dimension are scarce in the literature
Aerosol size distribution plays a crucial role on climate forcing and the knowledge on its spatial and temporal variability has important implications in the understanding of climate impact.Compilations of aerosol measurements with spatio-temporal dimension are scarce in the literature
At the rural background and highaltitude stations, with low or zero direct anthropogenic emissions, number concentration (Nt) was greater during the summer period because a greater atmospheric dynamics and the presence of gaseous precursors in the atmosphere facilitated the nucleation processes
Summary
Compilations of aerosol measurements with spatio-temporal dimension are scarce in the literature. These works are framed within aerosol instrumentation networks such as [1] focused on submicrometer atmospheric aerosol measurements in Germany obtained from the German Ultrafine Aerosol Network (GUAN, 2008) or [2] presenting submicrometer atmospheric aerosol measurements in Europe carried out within the Aerosols, Clouds, and Trace gases Research InfraStructure (ACTRIS) Network (www.actris.net). The strong climate variability and geographical features diversity confer unique characteristics to the study of the atmospheric aerosol in Spain. To the moment there is no study on the variability of the characteristics of submicron aerosol size distributions in Spain on a temporal and spatial scale basis
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