Abstract:
The isotopic characterization of trace organic species produced during biomass burning may allow a better understanding of the source and fate of combustion-derived organic matter. In order to assess the utility of compound specific isotope analysis (CSIA) of fatty acids as a means to distinguish the sources of these species in atmospheric aerosols, the isotopic signatures of fatty acids extracted from unburned C4 and C3 vegetation have been determined. Carbon isotopic signatures of fatty acids from unburned C4 vegetation ranged from -21.1%% to -28.2%%, whereas those from C3 vegetation ranged from -32.4%% to -38.5%%. Fatty acids isolated from aerosols produced during controlled laboratory burns of C4 vegetation showed an isotopic depletion of 2%% to 6%% relative to those extracted from the unburned plant. However, the opposite relationship was observed for C3 vegetation, with the aerosol fatty acids exhibiting and isotopic enrichment of 2%% to 7%% relative to those from the unburned plant. Combustion-derived fatty acids may be distinguished from those species that arise from erosion of unburned plant debris. CSIA of fatty acids produced during field burns of C4 and C3 vegetation suggests that isotopic characterization of these species in atmospheric aerosols may be useful in determining the fate of organic matter produced during biomass burning.