1 |
Kim, K. Y., Hwang, E. H., Lee, Y. K., Lee, C. W., 2014, Sakurajima volcano eruption detected by GOCI and geomagnetic variation analysis A case study of the 18 Aug. 2013 eruption- , Kor. Remote Sen., 30, 259-274.
DOI
|
2 |
Ishimine Y., 2015, The health hazard of volcanic ash and gases, Earozoru Kenkyu, 30, 177-182.
|
3 |
Langmann, B., Folch, A., Hensch, M., Volker, M., 2012, Volcanic ash over Europe during the eruption of Eyjafjallajokull on Iceland, April-May 2010, Atmos. Environ., 48, 1-8.
DOI
|
4 |
Lee, S. H., Jang, E. S., Lee, H. M., 2012, A Case analysis of volcanic ash dispersion under various volcanic explosivity index of the Mt. Baegdu, Kor. Ear. Sci. Soc., 33, 360-372.
|
5 |
Lee, S. H., Yun, S. H., 2011, Impact of meteorological wind fields average on predicting volcanic tephra dispersion of Mt. Baekdu, Kor. Ear. Sci. Soc., 32, 360-372.
|
6 |
Mizuno, T., Tanaka, C., Fujimura, M., 1996, A Case study of particulate sulfur concentration over the Kanto plain-effect of long distance transport of volcanic gas from Sakurajima-, Jpn. Atmos. Environ., 31, 20-29.
|
7 |
Mori, A., Uno, I., Wakamatsu, S., Murano, K., 1999, SO2 concentration and aerosol compositions observed at Mt. Unzen dodake, Jpn. Atmos. Environ., 34, 176-191.
|
8 |
Sakamoto, M., Kinoshita, K., 2015, Effect of volcanic ejecta from Sakurajima on the atmospheric environment, Bul. Kagoshima Pre. Mus., 34, 49-64.
|
9 |
von Glasow, R., Bobrowski, N., Kern, C., 2009, The effects of volcanic eruptions on atmospheric chemistry, Chem. Geol., 263, 131-142.
DOI
|
10 |
Uno, I., Wakamatsu, S., Ueda, H., Murano, K., Sakamaki, F., Kurita, H., Satsumabayashi, H., Horai, S., 1997, Behavior of secondary pollutants and volcanic SO2 over Kyushu during a spring-time high pressure system, Jpn. Atmos. Environ., 32, 404-424.
|
11 |
Yamamura, Y., Niiya, S., Chikara, H., Nakagawa, S., Wang, Z., Uno, I., 2020, Contribution of volcanic SO2 emission to high concentration PM2.5 under summertime Pacific high condition, Jpn. Atmos. Environ., 55, 169-181.
|
12 |
Tameguri, T., Iguchi, M., 2019, Characteristics of microearthquake swarms preceding eruptions at Showa crater of Sakurajima volcano, Jpn, Volcanol. Geotherm. Res., 372, 4-33.
|
13 |
Watanabe, K., Yamazaki, N., Mizuochi, R., Iwamoto, Y., Matsuki, A., Sadanaga, Y., Bandow, H., Iwasaka, Y., 2015, High concentrations of sulfur dioxide and sulfate particles observed in Suzu city, the Noto peninsula in late July 2012: on the influence of the smoke of Sakurajima, Tenki, 43-50.
|
14 |
Draxler, R. R., Rolph, G. D., 2013, HYSPLIT (hybrid single-particle Lagrangian integrated trajectory) model access via NOAA ARL READY Website (http://ready.arl.noaa.gov/HYSPLIT_traj.php).
|
15 |
JMA, 2018, Sakurajima volcanic activity commentary, July 2018, 12.
|
16 |
Lee, J. Y., Lee, S. S., Son, H. A., Hwang, S. T., Heo, D. Y., 2017, Probabilistic estimation of spatial distribution of volcanic ashes from Mt. Baekdu and Mt. Aso, Kor. Wind Eng. Ins., 21, 113-120.
|
17 |
Lee, S. K., Lee, C. W., 2014, Predicting the hazard area of the volcanic ash caused by Mt, Ontake eruption, Kor. Remote Sen., 30, 777-786.
DOI
|
18 |
Nakagomi, K., Hanaoka, Y., Homma, D., Igarashi, A., Miyaji, T., Sasaki, K., Hosoi, Y., 2015, Source apportionment of sulfate in PM2.5 in Nagano city during the summer, Jpn. Atmos. Environ., 50, 176-184.
|
19 |
Tsuji, A., Hioki, T., Saito, Y., 2015, Characteristic analysis based on temporal and spatial variations of ionic components and inorganic elements in relation to a PM2.5 pollution episode on February 25-26, 2014, Kyoto Heal. & Environ. Report, 60, 57-64.
|