Cite this article: Kumar, A. and Attri, A.K. (2016). Biomass Combustion a Dominant Source of Carbonaceous Aerosols in the Ambient Environment of Western Himalayas.
Aerosol Air Qual. Res.
16: 519-529. https://doi.org/10.4209/aaqr.2015.05.0284
Analysis of Carbonaceous aerosol from the Western Himalayas: a 14 month study.
PM2.5 constitutes 68%, and Carbonaceous aerosol 35% to the ambient PM10 load.
CA composition manifested a strong variability with change of season.
Char-EC/Soot-EC estimates revealed that > 90% of the EC was Char-EC.
Association of K+ with PM-carbon forms reflected dominance of biomass emissions.
Use of biomass combustion as primary energy source emit substantial amounts of carbonaceous aerosols (CA) in the Himalayan environment. Any understanding regarding the impact of CA on human health and climate requires a reliable estimation of compositional variability of CA associated carbon forms: Elemental carbon (EC), Organic carbon (OC), and Light absorbing organic carbon (LAOC). This investigation spanning over 14 months was undertaken in the rural part of the Western Himalayas to estimate temporal variability in the ambient aerosol load (PM10, PM2.5), CA associated carbon forms. All CA associated carbon forms were part of PM2.5 size fraction, their significantly high concentrations in winter corresponded with the high biomass combustion. Source apportionment of CA done on the basis of Char-EC/Soot-EC estimates showed that > 90% of the EC was Char-EC contributed by biomass and coal combustion in winter. Estimates of K+ (tracer for biomass combustion) showed a strong association with CA associated carbon forms. The estimated values of CA associated carbon forms during winter matched with the reported values of emission factors for biomass burning. Both the mass and composition of ambient aerosol were predominantly contributed by biomass combustion in the region.
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