Black carbon and chemical characteristics of PM10 and PM2.5 at an urban site of North India

The concentrations of PM10, PM2.5 and their water-soluble ionic species were determined for the samples collected during January to December, 2007 at New Delhi (28.63A degrees N, 77.18A degrees E), India. The annual mean PM10 and PM2.5 concentrations (+/- standard deviation) were about 219 (+/- 84) and 97 (+/- 56) A mu gm(-3) respectively, about twice the prescribed Indian National Ambient Air Quality Standards values. The monthly average ratio of PM2.5/PM10 varied between 0.18 (June) and 0.86 (February) with an annual mean of similar to 0.48 (+/- 0.2), suggesting the dominance of coarser in summer and fine size particles in winter. The difference between the concentrations of PM10 and PM2.5, is deemed as the contribution of the coarse fraction (PM10-2.5). The analyzed coarse fractions mainly composed of secondary inorganic aerosols species (16.0 A mu gm(-3), 13.07%), mineral matter (12.32 A mu gm(-3), 10.06%) and salt particles (4.92 A mu gm(-3), 4.02%). PM2.5 are mainly made up of undetermined fractions (39.46 A mu gm(-3), 40.9%), secondary inorganic aerosols (26.15 A mu gm(-3), 27.1%), salt aerosols (22.48 A mu gm(-3), 23.3%) and mineral matter (8.41 A mu gm(-3), 8.7%). The black carbon aerosols concentrations measured at a nearby (similar to 300 m) location to aerosol sampling site, registered an annual mean of similar to 14 (+/- 12) A mu gm(-3), which is significantly large compared to those observed at other locations in India. The source identifications are made for the ionic species in PM10 and PM2.5. The results are discussed by way of correlations and factor analyses. The significant correlations of Cl-, SO (4) (2-) , K+, Na+, Ca2+, NO (3) (-) and Mg2+ with PM2.5 on one hand and Mg2+ with PM10 on the other suggest the dominance of anthropogenic and soil origin aerosols in Delhi.