Model performance differences in fine-mode nitrate aerosol during wintertime over Japan in the J-STREAM model inter-comparison study

Syuichi Itahashi; Kazuyo Yamaji; Satoru Chatani; Kyo Kitayama; Yu Morino; Tatsuya Nagashima; Masahiko Saito; Masayuki Takigawa; Tazuko Morikawa; Isao Kanda; Yukako Miya; Hiroaki Komatsu; Tatsuya Sakurai; Hikari Shimadera; Katsushige Uranishi; Yuzuru Fujiwara; Tomoaki Hashimoto; Hiroshi Hayami

doi:10.3390/ATMOS11050511

Model performance differences in fine-mode nitrate aerosol during wintertime over Japan in the J-STREAM model inter-comparison study

Syuichi Itahashi^*, Kazuyo Yamaji, Satoru Chatani, Kyo Kitayama, Yu Morino, Tatsuya Nagashima, Masahiko Saito, Masayuki Takigawa, Tazuko Morikawa, Isao Kanda, Yukako Miya, Hiroaki Komatsu, Tatsuya Sakurai, Hikari Shimadera, Katsushige Uranishi, Yuzuru Fujiwara, Tomoaki Hashimoto, Hiroshi Hayami

^*この研究の対応する著者

国際理工学センター（理工学術院）

研究成果: Article › 査読

5 被引用数 (Scopus)

抄録

In this study, the results for nitrate (NO3-) aerosol during winter from the first-phase model inter-comparison study of Japan's Study for Reference Air Quality Modeling (J-STREAM) were analyzed. To investigate the models' external and internal settings, the results were limited to Community Multiscale Air Quality (CMAQ) models. All submitted models generally underestimated NO₃-over the urban areas in Japan (e.g., Osaka, Nagoya, and Tokyo); however, some model settings showed distinct behavior. The differences due to the model external settings were larger than the model internal settings. Emissions were an important factor, and emissions configured with lower NO_x emissions and higher NH₃ emissions led to a higher NO₃-concentration as the NH₃ was consumed under NH₃-rich conditions. The model internal settings of the chemical mechanisms caused differences over China, and this could affect western Japan; however, the difference over Tokyo was lower. To obtain a higher NO₃-concentration over the urban areas in Japan, the selection of the HONO option for the heterogenous reaction and the inline calculation of photolysis was desired. For future studies, the external settings of the boundary condition and the meteorological field require further investigation.

本文言語	English
論文番号	511
ジャーナル	ATMOSPHERE
巻	11
号	5
DOI	https://doi.org/10.3390/ATMOS11050511
出版ステータス	Published - 2020 5月 1

ASJC Scopus subject areas

環境科学（その他）

文献へのアクセス

10.3390/ATMOS11050511

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引用スタイル

Itahashi, S., Yamaji, K., Chatani, S., Kitayama, K., Morino, Y., Nagashima, T., Saito, M., Takigawa, M., Morikawa, T., Kanda, I., Miya, Y., Komatsu, H., Sakurai, T., Shimadera, H., Uranishi, K., Fujiwara, Y., Hashimoto, T., & Hayami, H. (2020). Model performance differences in fine-mode nitrate aerosol during wintertime over Japan in the J-STREAM model inter-comparison study. ATMOSPHERE, 11(5), Article 511. https://doi.org/10.3390/ATMOS11050511

Itahashi, S, Yamaji, K, Chatani, S, Kitayama, K, Morino, Y, Nagashima, T, Saito, M, Takigawa, M, Morikawa, T, Kanda, I, Miya, Y, Komatsu, H, Sakurai, T, Shimadera, H, Uranishi, K, Fujiwara, Y, Hashimoto, T & Hayami, H 2020, 'Model performance differences in fine-mode nitrate aerosol during wintertime over Japan in the J-STREAM model inter-comparison study', ATMOSPHERE, vol. 11, no. 5, 511. https://doi.org/10.3390/ATMOS11050511

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title = "Model performance differences in fine-mode nitrate aerosol during wintertime over Japan in the J-STREAM model inter-comparison study",

abstract = "In this study, the results for nitrate (NO3-) aerosol during winter from the first-phase model inter-comparison study of Japan's Study for Reference Air Quality Modeling (J-STREAM) were analyzed. To investigate the models' external and internal settings, the results were limited to Community Multiscale Air Quality (CMAQ) models. All submitted models generally underestimated NO3-over the urban areas in Japan (e.g., Osaka, Nagoya, and Tokyo); however, some model settings showed distinct behavior. The differences due to the model external settings were larger than the model internal settings. Emissions were an important factor, and emissions configured with lower NOx emissions and higher NH3 emissions led to a higher NO3-concentration as the NH3 was consumed under NH3-rich conditions. The model internal settings of the chemical mechanisms caused differences over China, and this could affect western Japan; however, the difference over Tokyo was lower. To obtain a higher NO3-concentration over the urban areas in Japan, the selection of the HONO option for the heterogenous reaction and the inline calculation of photolysis was desired. For future studies, the external settings of the boundary condition and the meteorological field require further investigation.",

keywords = "CMAQ, HONO heterogenous reaction, Inline photolysis calculation, Japan, Model inter-comparison study, NO-",

author = "Syuichi Itahashi and Kazuyo Yamaji and Satoru Chatani and Kyo Kitayama and Yu Morino and Tatsuya Nagashima and Masahiko Saito and Masayuki Takigawa and Tazuko Morikawa and Isao Kanda and Yukako Miya and Hiroaki Komatsu and Tatsuya Sakurai and Hikari Shimadera and Katsushige Uranishi and Yuzuru Fujiwara and Tomoaki Hashimoto and Hiroshi Hayami",

note = "Funding Information: Acknowledgments: This research was supported by the Environment Research and Technology Development Fund (5-1601) of the Environmental Restoration and Conservation Agency. Monitoring data from Air Pollution Monitoring Stations (APMSs) were obtained from the National Institute for Environmental Studies (http://www.nies.go.jp/igreen/). Funding Information: Funding: This research was funded by the Environment Research and Technology Development Fund (5-1601) of the Environmental Restoration and Conservation Agency. Funding Information: This research was funded by the Environment Research and Technology Development Fund (5-1601) of the Environmental Restoration and Conservation Agency. This research was supported by the Environment Research and Technology Development Fund (5-1601) of the Environmental Restoration and Conservation Agency. Monitoring data from Air Pollution Monitoring Stations (APMSs) were obtained from the National Institute for Environmental Studies (http://www.nies.go.jp/igreen/). Publisher Copyright: {\textcopyright} 2020 by the authors.",

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doi = "10.3390/ATMOS11050511",

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T1 - Model performance differences in fine-mode nitrate aerosol during wintertime over Japan in the J-STREAM model inter-comparison study

AU - Itahashi, Syuichi

AU - Yamaji, Kazuyo

AU - Chatani, Satoru

AU - Kitayama, Kyo

AU - Morino, Yu

AU - Nagashima, Tatsuya

AU - Saito, Masahiko

AU - Takigawa, Masayuki

AU - Morikawa, Tazuko

AU - Kanda, Isao

AU - Miya, Yukako

AU - Komatsu, Hiroaki

AU - Sakurai, Tatsuya

AU - Shimadera, Hikari

AU - Uranishi, Katsushige

AU - Fujiwara, Yuzuru

AU - Hashimoto, Tomoaki

AU - Hayami, Hiroshi

N1 - Funding Information: Acknowledgments: This research was supported by the Environment Research and Technology Development Fund (5-1601) of the Environmental Restoration and Conservation Agency. Monitoring data from Air Pollution Monitoring Stations (APMSs) were obtained from the National Institute for Environmental Studies (http://www.nies.go.jp/igreen/). Funding Information: Funding: This research was funded by the Environment Research and Technology Development Fund (5-1601) of the Environmental Restoration and Conservation Agency. Funding Information: This research was funded by the Environment Research and Technology Development Fund (5-1601) of the Environmental Restoration and Conservation Agency. This research was supported by the Environment Research and Technology Development Fund (5-1601) of the Environmental Restoration and Conservation Agency. Monitoring data from Air Pollution Monitoring Stations (APMSs) were obtained from the National Institute for Environmental Studies (http://www.nies.go.jp/igreen/). Publisher Copyright: © 2020 by the authors.

PY - 2020/5/1

Y1 - 2020/5/1

N2 - In this study, the results for nitrate (NO3-) aerosol during winter from the first-phase model inter-comparison study of Japan's Study for Reference Air Quality Modeling (J-STREAM) were analyzed. To investigate the models' external and internal settings, the results were limited to Community Multiscale Air Quality (CMAQ) models. All submitted models generally underestimated NO3-over the urban areas in Japan (e.g., Osaka, Nagoya, and Tokyo); however, some model settings showed distinct behavior. The differences due to the model external settings were larger than the model internal settings. Emissions were an important factor, and emissions configured with lower NOx emissions and higher NH3 emissions led to a higher NO3-concentration as the NH3 was consumed under NH3-rich conditions. The model internal settings of the chemical mechanisms caused differences over China, and this could affect western Japan; however, the difference over Tokyo was lower. To obtain a higher NO3-concentration over the urban areas in Japan, the selection of the HONO option for the heterogenous reaction and the inline calculation of photolysis was desired. For future studies, the external settings of the boundary condition and the meteorological field require further investigation.

AB - In this study, the results for nitrate (NO3-) aerosol during winter from the first-phase model inter-comparison study of Japan's Study for Reference Air Quality Modeling (J-STREAM) were analyzed. To investigate the models' external and internal settings, the results were limited to Community Multiscale Air Quality (CMAQ) models. All submitted models generally underestimated NO3-over the urban areas in Japan (e.g., Osaka, Nagoya, and Tokyo); however, some model settings showed distinct behavior. The differences due to the model external settings were larger than the model internal settings. Emissions were an important factor, and emissions configured with lower NOx emissions and higher NH3 emissions led to a higher NO3-concentration as the NH3 was consumed under NH3-rich conditions. The model internal settings of the chemical mechanisms caused differences over China, and this could affect western Japan; however, the difference over Tokyo was lower. To obtain a higher NO3-concentration over the urban areas in Japan, the selection of the HONO option for the heterogenous reaction and the inline calculation of photolysis was desired. For future studies, the external settings of the boundary condition and the meteorological field require further investigation.

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