Abstract
Abstract. We chose a relatively weak Southeast Asian summer monsoon (SEASM) year (1998) and a relatively strong year (2002) to examine the impact of the monsoon strength on the transport of organic carbon (OC) aerosol emitted from the South Asia (75°–105° E, 10°–25° N) by using the global 3-D chemical transport model GEOS-Chem driven by the assimilated meteorological fields. Simulated surface layer concentrations and column burdens of OC indicate that OC levels are much higher in the weak SEASM year 1998 than in the strong SEASM year 2002. The sensitivity experiments with global OC emissions turned off except those over the South Asia show that OC aerosol emitted from South Asia contributes to 50–70% of OC mass over southern China and 20–50% of OC over the western North Pacific between 850 hPa and 400 hPa in 1998. The outflow of OC from the South Asia is larger in 1998 than in 2002. Three factors contribute to the larger buildup of summer time OC in the weak SEASM year of 1998. The first is the weakened summer monsoon rainfall over the Southeast Asia that leads to less wet deposition and higher OC concentrations. The second is the enhancement of deep convection in the western Indian continent and the weakened upward lifting over the western North Pacific. The last and the most important factor is the abnormal circulation in the lower and middle troposphere that contributes to the long-range transport of OC from South Asia to Southern China and the western North Pacific.
Highlights
South Asia is one of the areas with high aerosol concentrations, as a result of recent rapid urbanization and population growth (Chung et al, 2002; Li et al, 2005; Fu et al, 2007)
Examining the impact of Southeast Asian summer monsoon (SEASM) intensity on outflow of organic carbon (OC) from the South Asia (75◦–105◦ E, 10◦–25◦ N) can help us to understand the interannual export of South Asian pollutants to the downwind areas and the pathways for long-range transport affected by summer monsoon strength
It should be noted that precipitation and wet depositions are larger over southern China and most of the western North Pacific (WNP) in 1998, the RatiosOC are still higher in 1998 than in 2002, suggesting that the transport of pollutants plays a very important role in influencing air quality in China
Summary
South Asia is one of the areas with high aerosol concentrations, as a result of recent rapid urbanization and population growth (Chung et al, 2002; Li et al, 2005; Fu et al, 2007). Examining the impact of SEASM intensity on outflow of OC from the South Asia (75◦–105◦ E, 10◦–25◦ N) can help us to understand the interannual export of South Asian pollutants to the downwind areas and the pathways for long-range transport affected by summer monsoon strength. We address here this issue using a global three-dimensional (3-D) chemical transport model (GEOS-Chem) driven by assimilated meteorological observations. The special attention has been paid to the interannual variation of the SEASM strength in relatively weak and strong monsoon years, and its impact on transport of South Asian pollutants to China and the western North Pacific (WNP) during summer.
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