Abstract
Black carbon (BC) significantly contributes to atmospheric warming and glacier melting. However, the atmospheric lifetime of BC from different fuel sources remains poorly constrained. By analyzing Δ(14)C of BC in PM(2.5) and precipitation samples collected for three years at a remote site in the Tibetan Plateau, we found that BC from fossil fuel contribution (f(fossil) BC) in PM(2.5) exhibited greater seasonal variation than those from South Asia and emission inventories. Precipitation-induced fractionation between fossil fuel combustion-derived BC (BC(ff)) and biomass burning-derived BC (BC(bb)) resulted in an increase of f(fossil) BC to 68 ± 7% during the wet monsoon season, which is significantly higher than levels measured at a background site in South Asia and in simultaneously collected precipitation samples. Our findings provide direct evidence that the lifetime of BC(ff) is longer than that of BC(bb) during the monsoon season. These results emphasize the increased climate forcing of BC(ff) relative to BC(bb) at remote sites receiving long-range transported BC.