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Fossil and Nonfossil Sources of Organic and Elemental Carbon Aerosols in the Outflow from Northeast China

Authors
Zhang, Yan-LinKawamura, KimitakaAgrios, KonstantinosLee, MeehyeSalazar, GarySzidat, Sonke
Issue Date
21-6월-2016
Publisher
AMER CHEMICAL SOC
Citation
ENVIRONMENTAL SCIENCE & TECHNOLOGY, v.50, no.12, pp.6284 - 6292
Indexed
SCIE
SCOPUS
Journal Title
ENVIRONMENTAL SCIENCE & TECHNOLOGY
Volume
50
Number
12
Start Page
6284
End Page
6292
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/88317
DOI
10.1021/acs.est.6b00351
ISSN
0013-936X
Abstract
Source quantification of carbonaceous aerosols in the Chinese outflow regions still remains uncertain despite their high mass concentrations. Here, we unambiguously quantified fossil and nonfossil contributions to elemental carbon (EC) and organic carbon (OC) of total suspended particles (TSP) from a regional receptor site in the outflow of Northeast China using radiocarbon measurement. OC and EC concentrations were lower in summer, representing mainly marine air, than in other seasons, when air masses mostly traveled over continental regions in Mongolia and northeast China. The annual-mean contribution from fossil-fuel combustion to EC was 76 +/- 11% (0.1-1.3 mu g m(-3)). The remaining 24 +/- 11% (0.03-0.42 mu g m(-3)) was attributed to biomass burning, with slightly higher contribution in the cold period (similar to 31%) compared to the warm period (similar to 21%) because of enhanced emissions from regional biomass combustion sources in China. OC was generally dominated by nonfossil sources, with an annual average of 66 +/- 11% (0.5-2.8 mu g m(-3)), approximately half of which was apportioned to primary biomass burning sources (34 +/- 6%). In winter, OC almost equally originated from primary OC (POC) emissions and secondary OC (SOC) formation from fossil fuel and biomass-burning sources. In contrast, summertime OC was dominated by primary biogenic emissions as well as secondary production from biogenic and biomass-burning sources, but fossil-derived SOC was the smallest contributor. Distinction of POC and SOC was performed using primary POC-to-EC emission ratios separated for fossil and nonfossil emissions.
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