<departmental bulletin paper>
Trans-boundary transport of PM_〈2.5〉 to the western Japan and Japan Sea side regions based on the Source-Receptor Analysis
Creator | |
---|---|
Language | |
Publisher | |
Date | |
Source Title | |
Vol | |
First Page | |
Last Page | |
Publication Type | |
Access Rights | |
JaLC DOI | |
Abstract | Long-term synergetic fine and coarse mode aerosol observations were analyzed at 1-h intervals at the Chikushi-campus of Kyushu University, Fukuoka, Japan, from December 2013 to March 2015. The GEOS-Ch...em chemical transport model, including dust and sea-salt acid uptake processes, was used for detailed analysis of observation data. Long-range anthropogenic aerosol trans-boundary transport events were observed during our analysis period, and the numerical model generally captured the observed time variation of PM_〈2.5〉 aerosols. In order to have a better understanding of trans-boundary PM_〈2.5〉 contribution, the model domain was divided into 15 major source regions, and emission intensity sensitivity analysis was conducted to show the detailed source-receptor relationship. We found the Japanese domestic contribution to annual averaged PM_〈2.5〉 concentration at Fukuoka was 20 %, and another 80% were coming from outside Japan (19.6 % and 16.3% were coming from central north China region and Korea, respectively). From late fall to early spring when the PM_〈2.5〉 concentration became higher, the trans-boundary fraction reached up to 90%, and this fraction was higher when the daily PM_〈2.5〉 concentration exceeded the environmental standards of 35μm/m^3.show more |
Table of Contents | 1.緒言 2.解析方法 3.化学輸送モデルの再現性 4.ソース・リセプター解析結果 5.まとめ |
Hide fulltext details.
File | FileType | Size | Views | Description |
---|---|---|---|---|
p001 | 6.04 MB | 323 |
Details
PISSN | |
---|---|
NCID | |
Record ID | |
Subject Terms | |
Funding Information | |
Created Date | 2018.05.01 |
Modified Date | 2023.02.27 |