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Impacts of local vs. trans-boundary emissions from different sectors on PM2.5 exposure in South Korea during the KORUS-AQ campaign.
- Source :
-
Atmospheric Environment . Apr2019, Vol. 203, p196-205. 10p. - Publication Year :
- 2019
-
Abstract
- Abstract High concentrations of PM 2.5 have become a serious environmental issue in South Korea, which ranked 1st or 2nd among OECD countries in terms of population exposure to PM 2.5. Quantitative understanding of PM 2.5 source attribution is thus crucial for developing efficient air quality mitigation strategies. Here we use a suite of extensive observations of PM 2.5 and its precursors concentrations during the international KORea-US cooperative Air Quality field study in Korea (KORUS-AQ) in May–June 2016 to investigate source contributions to PM 2.5 in South Korea under various meteorological conditions. For the quantitative analysis, we updated a 3-D chemical transport model, GEOS-Chem, and its adjoint with the latest regional emission inventory and other recent findings. The updated model is evaluated by comparing against observed daily PM 2.5 and its component concentrations from six ground sites (Bangnyung, Bulkwang, Olympic park, Gwangju, Ulsan, and Jeju). Overall, simulated concentrations of daily PM 2.5 and its components are in a good agreement with observations over the peninsula. We conduct an adjoint sensitivity analysis for simulated surface level PM 2.5 concentrations at five ground sites (except for Bangnyung because of its small population) under four different meteorological conditions: dynamic weather, stagnant, extreme pollution, and blocking periods. Source contributions by regions vary greatly depending on synoptic meteorological conditions. Chinese contribution accounts for almost 68% of PM 2.5 in surface air in South Korea during the extreme pollution period of the campaign, whereas an enhanced contribution from domestic sources (57%) occurs for the blocking period. Results from our sensitivity analysis suggest that the reduction of domestic anthropogenic NH 3 emissions could be most effective in reducing population exposure to PM 2.5 in South Korea (effectiveness = 14%) followed by anthropogenic SO 2 emissions from Shandong region (effectiveness = 11%), domestic anthropogenic NO x emissions (effectiveness = 10%), anthropogenic NH 3 emissions from Shandong region (effectiveness = 8%), anthropogenic NO x emissions from Shandong region (effectiveness = 7%), domestic anthropogenic OC emissions (effectiveness = 7%), and domestic anthropogenic BC emissions (effectiveness = 5%). Highlights • Source contributions to PM 2.5 in South Korea are investigated during the KORUS-AQ. • Source contributions by regions vary greatly depending on synoptic meteorological conditions. • Chinese contributions are up to ~68% of PM 2.5 in surface air in South Korea. • An enhanced contribution from domestic sources (57%) occurs for the blocking period. [ABSTRACT FROM AUTHOR]
Details
- Language :
- English
- ISSN :
- 13522310
- Volume :
- 203
- Database :
- Academic Search Index
- Journal :
- Atmospheric Environment
- Publication Type :
- Academic Journal
- Accession number :
- 135012609
- Full Text :
- https://doi.org/10.1016/j.atmosenv.2019.02.008