他の論文・書籍・報告書等
- Katata, G., Watanabe, M., Oikawa, S., Takahashi, A., Kubota, T., Takase, Y., Enomoto, T., Sakagami, N., Suzuki, Y., Fukushima, K., and Ueda, M. U.: Evidence of NOx and O3 concentration reduction by kudzu (Pueraria lobata) invasion at a Japanese highway, Atmospheric Pollution Research, 14, 101644, https://doi.org/10.1016/j.apr.2022.101644, 2023.
- Ryuichiro Shinohara; Yoji Tanaka; Ariyo Kanno; Kazuo Matsushige.Relative impacts of increases of solar radiation and air temperature on the temperature of surface water in a shallow, eutrophic lake,Hydrology Research(2021) Vol 52 No 4, 916-926
- 伏見暁洋,田邊潔,高橋克行,高見昭憲(2021)非加熱除湿β線方式のPM2.5時間値測定法の開発および標準法・認証機との関係性,大気環境学会誌56, 5, 85-95.
- Fushimi A., Nakajima D., Furuyama A., Suzuki G., Ito T., Sato K., Fujitani Y., Kondo Y., Yoshino A., Ramasamy S., Schauer J. J., Fu P., Takahashi Y., Saitoh K., Saito S., Takami A. (2021) Source Contributions to Multiple Toxic Potentials of Atmospheric Organic Aerosols, Science of the Total Environment, 773, 145614, 1-10,
- Win-Shwe, T.-T., Thein, Z. L., Aung, W. Y., Yi, E. E. P. N., Maung, C., Nway, N. C., Thant, Z., Suzuki, T., Mar, O., Ishigaki, Y., Nakajima, D.: Improvement of GPS-attached Pocket PM2.5 Measuring Device for Personal Exposure Assessment, Journal of UOEH, 42, 307-315 (2020).
- Fujitani, Y.; Fushimi, A.; Saitoh, K.; Sato, K.; Takami, A.; Kondo, Y.; Tanabe, K.; Kobayashi, S., Mid carbon (C6+-C29+) in refractory black carbon aerosols is a potential tracer of open burning of rice straw: Insights from atmospheric observation and emission source studies. Atmos. Environ. 2020, 238.
- Fujitani Y., Takahashi K., Fushimi A., Hasegawa S., Kondo Y., Tanabe K., Kobayashi S. (2020) Particle number emission factors from diesel trucks at a traffic intersection: Long-term trend and relation to particle mass-based emission regulation, Atmospheric Environment: X 5, 100055, 1-15.
- Li, J.; Sakamoto, Y.; Kohno, N.; Fujii, T.; Matsuoka, K.; Takemura, M.; Zhou, J.; Nakagawa, M.; Murano, K.; Sadanaga, Y.; Nakashima, Y.; Sato, K.; Takami, A.; Yoshino, A.; Nakayama, T.; Kato, S.; Kajii, Y., Total hydroxyl radical reactivity measurements in a suburban area during AQUAS-Tsukuba campaign in summer 2017. The Science of the total environment 2020, 740, 139897.
- 伏見暁洋(2019)第5章 知られざるPM2.5 -何が原因? どこからやってくる?,140-161,In “地球をめぐる不都合な物質 拡散する化学物質がもたらすもの”,日本環境化学会 編著,講談社 ブルーバックス,pp. 272.
- Sakamoto, Y.; Sadanaga, Y.; Li, J.; Matsuoka, K.; Takemura, M.; Fujii, T.; Nakagawa, M.; Kohno, N.; Nakashima, Y.; Sato, K.; Nakayama, T.; Kato, S.; Takami, A.; Yoshino, A.; Murano, K.; Kajii, Y., Relative and Absolute Sensitivity Analysis on Ozone Production in Tsukuba, a City in Japan. Environ Sci Technol 2019, 53, (23), 13629-13635.
- 国立環境研究所プロジェクト報告第133号(2018)未規制燃焼由来粒子状物質の動態解明と毒性評価,SR- 133-2018.
- 伏見暁洋(2018)最近の大気中PM2.5 の起源と稲わら等の野焼きの影響,国立環境研究所ニュース「特集 化学物質曝露の包括的・網羅的把握に向けて」,Vol.36,No.6,5-8.
- Yi, E. E. P. N.; Nway, N. C.; Aung, W. Y.; Thant, Z.; Wai, T. H.; Hlaing, K. K.; Maung, C.; Yagishita, M.; Ishigaki, Y.; Win-Shwe, T.-T.; Nakajima, D.; Mar, O., Preliminary monitoring of concentration of particulate matter (PM2.5) in seven townships of Yangon City, Myanmar. Environmental Health and Preventive Medicine 2018, 23, (53), 1-8.
- 富山一,田邊潔,茶谷聡,小林伸治,藤谷雄二,古山昭子,佐藤圭,伏見暁洋,近藤美則,菅田誠治,森野悠,早崎将光,小熊宏之,井手玲子,日下博幸,高見昭憲(2017)稲作残渣野焼きによる大気汚染物質排出量の時間分布推計,大気環境学会誌52, 4, 105-117.
- Fushimi A., Saitoh K., Hayashi K., Ono K., Fujitani Y., Villalobos A.M., Shelton B.R., Takami A., Tanabe K., Schauer J.J. (2017) Chemical characterization and oxidative potential of particles emitted from open burning of cereal straws and rice husk under flaming and smoldering conditions, Atmospheric Environment, 163, 118–127.