Tracing of atmospheric aerosol sources using stable carbon isotopes

Abstract

The identification of the pollution sources of incoming carbonaceous aerosols (total aerosol mass and PM_2.5) at the Preila environment background station (Lithuania) during a winter period (2008) using the stable carbon isotope ratio δ¹³C is presented. For air mass transport analysis the Hybrid Single-Particle Lagrangian Integrated Trajectories (HYSPLIT) model was used. During the experiment the aerosol carbon isotopic δ¹³C ratio  ranged from –24.0±v0.1 to –30.9±0.2^∘/_∘∘. The measurement data of the total aerosol mass particle δ¹³C values had not shown a significant variation and did not depend on the air mass transport directions. The mean δ¹³C value of these aerosol particles was –25.5±0.7^∘/_∘∘. It can be attributed to the local aerosol particle origin and it is of the same order as that of marine aerosol PM_2.5δ¹³C values. The δ¹³C values for the aerosol particles PM_2.5 transported from longer distances depended on the air mass transport directions. The mean value of δ¹³C (–30.9±0.2^∘/_∘∘) of aerosol particles in the continental air masses of the eastern direction was lower than that of aerosol particles in relatively clear marine air masses of the western direction (–24.0±0.1 to –25.4±0.3^∘/_∘∘). In the cases of other air mass transport events, samples (PM_2.5) collected at the Preila site were a mix of aerosol particles from the marine environment and anthropogenic (fossil fuel combustion products) pollution sources.
Keywords: aerosol, PM_2.5, carbon isotopic ratio
PACS: 92.20.Bk, 91.65.Dt, 91.62.La