References
- MOE (Ministry of Environment, Japan). (2012) Survey report for photochemical air pollution: Focusing on future survey and research, 1-180 (in Japanese).
- Wakamatsu, S., Ogawa, Y., Murano, K., Goi, K., Aburamoto, Y. (1983) Aircraft survey of the secondary photochemical pollutants covering the Tokyo metropolitan area. Atmospheric Environment 17, 827-835. https://doi.org/10.1016/0004-6981(83)90434-1
- Wakamatsu, S., Uno, I., Suzuki, M. (1990) A field study of photochemical smog formation under stagnant meteorological conditions. Atmospheric Environment 24A, 1037-1050.
- Wakamatsu, S., Schere, K.L. (1991) A study using a three dimensional photochemical smog formation model under conditions of complex flow: Application of the Urban Airshed Model to the Tokyo metropolitan area. US EPA Report, EPA/600/S3-91/015, 1-84.
- Wakamatsu, S., Ohara, T., Uno, I. (1996) Recent trends in precursor concentrations and oxidant distribution in the Tokyo and Osaka areas. Atmospheric Environment 30, 715-721. https://doi.org/10.1016/1352-2310(95)00274-X
- Wakamatsu, S., Uno, I., Ohara, T., Schere, K.L. (1999) A study of the relationship between photochemical ozone and its precursor emissions of nitrogen oxides and hydrocarbons in the Tokyo area. Atmospheric Environment 33, 3097-3108. https://doi.org/10.1016/S1352-2310(97)00493-7
- Wakamatsu, S. (2005) Japanese countermeasures against urban air pollution. The 5th Korea/China/Japan Tripartite Joint Environmental Training, National Institute of Environmental Research, Ministry of Environment, Republic of Korea, November 20-26, 2005, Inchon, Republic of Korea, 33-47.
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