Abstract
Abstract. A series of experiments (the Southern Oxidant and Aerosol Study – SOAS) took place in central Alabama in June–July, 2013 as part of the broader Southern Atmosphere Study (SAS). These projects were aimed at studying oxidant photochemistry and formation and impacts of aerosols at a detailed process level in a location where high biogenic organic vapor emissions interact with anthropogenic emissions, and the atmospheric chemistry occurs in a subtropical climate in North America. The majority of the ground-based experiments were located at the Southeastern Aerosol Research and Characterization (SEARCH) Centreville (CTR) site near Brent, Alabama, where extensive, unique aerometric measurements of trace gases and particles and meteorology were made beginning in the early 1990s through 2013. The SEARCH network data permits a characterization of the temporal and spatial context of the SOAS findings. Our earlier analyses of emissions and air quality trends are extended through 2013 to provide a perspective for continued decline in ambient concentrations, and the implications of these changes to regional sulfur oxide, nitrogen–ozone, and carbon chemistry. The narrative supports the SAS program in terms of long-term average chemistry (chemical climatology) and short-term comparisons of early summer average spatial variability across the southeastern US at high temporal (hourly) resolution. The long-term measurements show that the SOAS experiments took place during the second wettest and coolest year in the 2000–2013 period, with lower than average solar radiation. The pollution levels at CTR and other SEARCH sites were the lowest since full measurements began in 1999. Changes in anthropogenic gas and particle emissions between 1999 and 2013 account for the decline in pollutant concentrations at the monitoring sites in the region. The data provide an opportunity to contrast SOAS results with temporally and spatially variable conditions in support of the development of tests for the robustness of SOAS findings.
Highlights
An important element of atmospheric science is the reconciliation of the results of short-term field campaigns with long-term measurements
Mobile organic carbon (OC) comprises less than 10 % of the total POC emissions in the region (Blanchard et al, 2013c), but secondary organic carbon (SOC) derived from mobile volatile organic compounds (VOCs) emissions could augment the mobile POC contributions; OC derived from a combination of motor vehicle emissions of POC and of low-volatility www.atmos-chem-phys.net/14/11893/2014/
The electric generating units (EGUs) emissions of SO2 and NOx show a “common” increase in daytime emissions, rising at about 06:00 LST through the daytime followed by a decrease in evening after 18:00 LST
Summary
An important element of atmospheric science is the reconciliation of the results of short-term field campaigns with long-term measurements Such comparisons are used to estimate the extent to which the results from special studies apply to other times, different locations, or under different aerometric conditions. This paper provides a context for, and an assessment1o33f1, the representativeness of the SOAS experimental period 1u33s2ing long-term surface data, excluding mercury (mercury d11a3333t34a are available for some sites in Atmospheric Research a13n3d5 Analysis (ARA) 2014), collected at the observational site133a6t. We first consider the climate of the southeastern United States in which the rural Centreville site (CTR) is located This description is followed by a summary of pollutant emission trends in the region and a survey of the role of meteorology in mediating the southeastern air chemical climatology. The narrative is supported with additional tables and figures in the Supplement
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
