A development of reduction scenarios of the short-lived climate pollutants (SLCPs) for mitigating global warming and environmental problems

Teruyuki Nakajima; Toshimasa Ohara; Toshihiko Masui; Toshihiko Takemura; Kei Yoshimura; Daisuke Goto; Tatsuya Hanaoka; Syuichi Itahashi; Gakuji Kurata; Jun ichi Kurokawa; Takashi Maki; Yuji Masutomi; Makiko Nakata; Tomoko Nitta; Xerxes Seposo; Kengo Sudo; Chieko Suzuki; Kentaroh Suzuki; Haruo Tsuruta; Kayo Ueda; Shingo Watanabe; Yong Yu; Keiya Yumimoto; Shuyun Zhao

doi:10.1186/s40645-020-00351-1

A development of reduction scenarios of the short-lived climate pollutants (SLCPs) for mitigating global warming and environmental problems

Teruyuki Nakajima, Toshimasa Ohara, Toshihiko Masui, Toshihiko Takemura, Kei Yoshimura, Daisuke Goto, Tatsuya Hanaoka, Syuichi Itahashi, Gakuji Kurata, Jun ichi Kurokawa, Takashi Maki, Yuji Masutomi, Makiko Nakata, Tomoko Nitta, Xerxes Seposo, Kengo Sudo, Chieko Suzuki, Kentaroh Suzuki, Haruo Tsuruta, Kayo UedaShingo Watanabe, Yong Yu, Keiya Yumimoto, Shuyun Zhao

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Abstract

This study presents the results of the ERTDF S-12 project for searching an optimum reduction scenario of the short-lived climate pollutants (SLCPs) to simultaneously mitigate the global warming and environmental problems. The study utilized REAS emission inventory, Asia-Pacific Integrated Model-Enduse (AIM/Enduse), MIROC6 climate model, NICAM non-hydrostatic atmospheric model, and models for estimating environmental damages to health, agriculture, and flood risks. Results of various scenario search indicate that it is difficult to attain simultaneous reduction of global warming and environmental damages, unless a significant reduction of CO₂ is combined with carefully designed SLCP reductions for CH₄, SO₂, black carbon (BC), NO_x, CO, and VOCs. In this scenario design, it is important to take into account the impact of small BC reduction to the surface air temperature and complex atmospheric chemical interactions such as negative feedback between CH₄ and NO_x reduction. We identified two scenarios, i.e., B2a and B1c scenarios which combine the 2D-scenario with SLCP mitigation measures using End-of-Pipe (EoP) and new mitigation technologies, as promising to simultaneously mitigate the temperature rise by about 0.33 °C by 2050 and air pollution in most of the globe for reducing damages in health, agriculture, and flood risk. In Asia and other heavy air pollution areas, health-care measures have to be enhanced in order to suppress the mortality increase due to high temperature in hot spot areas caused by a significant cut of particulate matter. For this situation, the B1b scenario is better to reduce hot spot areas and high-temperature damage to the public health. [Figure not available: see fulltext.].

Original language	English
Article number	33
Journal	Progress in Earth and Planetary Science
Volume	7
Issue number	1
DOIs	https://doi.org/10.1186/s40645-020-00351-1
Publication status	Published - Dec 1 2020

All Science Journal Classification (ASJC) codes

Earth and Planetary Sciences(all)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1186/s40645-020-00351-1

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Nakajima, T., Ohara, T., Masui, T., Takemura, T., Yoshimura, K., Goto, D., Hanaoka, T., Itahashi, S., Kurata, G., Kurokawa, J. I., Maki, T., Masutomi, Y., Nakata, M., Nitta, T., Seposo, X., Sudo, K., Suzuki, C., Suzuki, K., Tsuruta, H., ... Zhao, S. (2020). A development of reduction scenarios of the short-lived climate pollutants (SLCPs) for mitigating global warming and environmental problems. Progress in Earth and Planetary Science, 7(1), Article 33. https://doi.org/10.1186/s40645-020-00351-1

Nakajima, T, Ohara, T, Masui, T, Takemura, T, Yoshimura, K, Goto, D, Hanaoka, T, Itahashi, S, Kurata, G, Kurokawa, JI, Maki, T, Masutomi, Y, Nakata, M, Nitta, T, Seposo, X, Sudo, K, Suzuki, C, Suzuki, K, Tsuruta, H, Ueda, K, Watanabe, S, Yu, Y, Yumimoto, K & Zhao, S 2020, 'A development of reduction scenarios of the short-lived climate pollutants (SLCPs) for mitigating global warming and environmental problems', Progress in Earth and Planetary Science, vol. 7, no. 1, 33. https://doi.org/10.1186/s40645-020-00351-1

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title = "A development of reduction scenarios of the short-lived climate pollutants (SLCPs) for mitigating global warming and environmental problems",

abstract = "This study presents the results of the ERTDF S-12 project for searching an optimum reduction scenario of the short-lived climate pollutants (SLCPs) to simultaneously mitigate the global warming and environmental problems. The study utilized REAS emission inventory, Asia-Pacific Integrated Model-Enduse (AIM/Enduse), MIROC6 climate model, NICAM non-hydrostatic atmospheric model, and models for estimating environmental damages to health, agriculture, and flood risks. Results of various scenario search indicate that it is difficult to attain simultaneous reduction of global warming and environmental damages, unless a significant reduction of CO2 is combined with carefully designed SLCP reductions for CH4, SO2, black carbon (BC), NOx, CO, and VOCs. In this scenario design, it is important to take into account the impact of small BC reduction to the surface air temperature and complex atmospheric chemical interactions such as negative feedback between CH4 and NOx reduction. We identified two scenarios, i.e., B2a and B1c scenarios which combine the 2D-scenario with SLCP mitigation measures using End-of-Pipe (EoP) and new mitigation technologies, as promising to simultaneously mitigate the temperature rise by about 0.33 °C by 2050 and air pollution in most of the globe for reducing damages in health, agriculture, and flood risk. In Asia and other heavy air pollution areas, health-care measures have to be enhanced in order to suppress the mortality increase due to high temperature in hot spot areas caused by a significant cut of particulate matter. For this situation, the B1b scenario is better to reduce hot spot areas and high-temperature damage to the public health. [Figure not available: see fulltext.].",

author = "Teruyuki Nakajima and Toshimasa Ohara and Toshihiko Masui and Toshihiko Takemura and Kei Yoshimura and Daisuke Goto and Tatsuya Hanaoka and Syuichi Itahashi and Gakuji Kurata and Kurokawa, {Jun ichi} and Takashi Maki and Yuji Masutomi and Makiko Nakata and Tomoko Nitta and Xerxes Seposo and Kengo Sudo and Chieko Suzuki and Kentaroh Suzuki and Haruo Tsuruta and Kayo Ueda and Shingo Watanabe and Yong Yu and Keiya Yumimoto and Shuyun Zhao",

note = "Funding Information: The Japanese information of the S12 project is given at http://157.82.240.167/~S12/moej-s12/index.html. Model simulations were performed on the supercomputer system of JAXA/JSS2, NIES/NEC SX-ACE, RIKEN/K computer (hp140046, hp150156, hp160004, hp170017, hp180012), JAMSTEC/Earth Simulator, and University of Tokyo/PRIMEHPC FX10. We express our deep condolence to the passing away of Gakuji Kurata, Kyoto University, who was an active member of the S-12 project. Funding Information: The S-12 (JPMEERF14S11200) was one of the projects in the Strategic Research and Development Area of the Environment Research and Technology Development Fund (ERDF), Environmental Restoration and Conservation Agency (ERCA), Japan. Parts of this research were also supported by projects of JST/CREST/EMS/TEEDDA (JPMJCR15K4), NIES/GOSAT&GOSAT-2 projects, and “Integrated Research Program for Advancing Climate Models (TOUGOU)” Grant Number JPMXD0717935457 from the Ministry of Education, Culture, Sports, Science, and Technology (MEXT), Japan. Acknowledgements Publisher Copyright: {\textcopyright} 2020, The Author(s).",

year = "2020",

month = dec,

day = "1",

doi = "10.1186/s40645-020-00351-1",

language = "English",

volume = "7",

journal = "Progress in Earth and Planetary Science",

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T1 - A development of reduction scenarios of the short-lived climate pollutants (SLCPs) for mitigating global warming and environmental problems

AU - Nakajima, Teruyuki

AU - Ohara, Toshimasa

AU - Masui, Toshihiko

AU - Takemura, Toshihiko

AU - Yoshimura, Kei

AU - Goto, Daisuke

AU - Hanaoka, Tatsuya

AU - Itahashi, Syuichi

AU - Kurata, Gakuji

AU - Kurokawa, Jun ichi

AU - Maki, Takashi

AU - Masutomi, Yuji

AU - Nakata, Makiko

AU - Nitta, Tomoko

AU - Seposo, Xerxes

AU - Sudo, Kengo

AU - Suzuki, Chieko

AU - Suzuki, Kentaroh

AU - Tsuruta, Haruo

AU - Ueda, Kayo

AU - Watanabe, Shingo

AU - Yu, Yong

AU - Yumimoto, Keiya

AU - Zhao, Shuyun

N1 - Funding Information: The Japanese information of the S12 project is given at http://157.82.240.167/~S12/moej-s12/index.html. Model simulations were performed on the supercomputer system of JAXA/JSS2, NIES/NEC SX-ACE, RIKEN/K computer (hp140046, hp150156, hp160004, hp170017, hp180012), JAMSTEC/Earth Simulator, and University of Tokyo/PRIMEHPC FX10. We express our deep condolence to the passing away of Gakuji Kurata, Kyoto University, who was an active member of the S-12 project. Funding Information: The S-12 (JPMEERF14S11200) was one of the projects in the Strategic Research and Development Area of the Environment Research and Technology Development Fund (ERDF), Environmental Restoration and Conservation Agency (ERCA), Japan. Parts of this research were also supported by projects of JST/CREST/EMS/TEEDDA (JPMJCR15K4), NIES/GOSAT&GOSAT-2 projects, and “Integrated Research Program for Advancing Climate Models (TOUGOU)” Grant Number JPMXD0717935457 from the Ministry of Education, Culture, Sports, Science, and Technology (MEXT), Japan. Acknowledgements Publisher Copyright: © 2020, The Author(s).

PY - 2020/12/1

Y1 - 2020/12/1

N2 - This study presents the results of the ERTDF S-12 project for searching an optimum reduction scenario of the short-lived climate pollutants (SLCPs) to simultaneously mitigate the global warming and environmental problems. The study utilized REAS emission inventory, Asia-Pacific Integrated Model-Enduse (AIM/Enduse), MIROC6 climate model, NICAM non-hydrostatic atmospheric model, and models for estimating environmental damages to health, agriculture, and flood risks. Results of various scenario search indicate that it is difficult to attain simultaneous reduction of global warming and environmental damages, unless a significant reduction of CO2 is combined with carefully designed SLCP reductions for CH4, SO2, black carbon (BC), NOx, CO, and VOCs. In this scenario design, it is important to take into account the impact of small BC reduction to the surface air temperature and complex atmospheric chemical interactions such as negative feedback between CH4 and NOx reduction. We identified two scenarios, i.e., B2a and B1c scenarios which combine the 2D-scenario with SLCP mitigation measures using End-of-Pipe (EoP) and new mitigation technologies, as promising to simultaneously mitigate the temperature rise by about 0.33 °C by 2050 and air pollution in most of the globe for reducing damages in health, agriculture, and flood risk. In Asia and other heavy air pollution areas, health-care measures have to be enhanced in order to suppress the mortality increase due to high temperature in hot spot areas caused by a significant cut of particulate matter. For this situation, the B1b scenario is better to reduce hot spot areas and high-temperature damage to the public health. [Figure not available: see fulltext.].

AB - This study presents the results of the ERTDF S-12 project for searching an optimum reduction scenario of the short-lived climate pollutants (SLCPs) to simultaneously mitigate the global warming and environmental problems. The study utilized REAS emission inventory, Asia-Pacific Integrated Model-Enduse (AIM/Enduse), MIROC6 climate model, NICAM non-hydrostatic atmospheric model, and models for estimating environmental damages to health, agriculture, and flood risks. Results of various scenario search indicate that it is difficult to attain simultaneous reduction of global warming and environmental damages, unless a significant reduction of CO2 is combined with carefully designed SLCP reductions for CH4, SO2, black carbon (BC), NOx, CO, and VOCs. In this scenario design, it is important to take into account the impact of small BC reduction to the surface air temperature and complex atmospheric chemical interactions such as negative feedback between CH4 and NOx reduction. We identified two scenarios, i.e., B2a and B1c scenarios which combine the 2D-scenario with SLCP mitigation measures using End-of-Pipe (EoP) and new mitigation technologies, as promising to simultaneously mitigate the temperature rise by about 0.33 °C by 2050 and air pollution in most of the globe for reducing damages in health, agriculture, and flood risk. In Asia and other heavy air pollution areas, health-care measures have to be enhanced in order to suppress the mortality increase due to high temperature in hot spot areas caused by a significant cut of particulate matter. For this situation, the B1b scenario is better to reduce hot spot areas and high-temperature damage to the public health. [Figure not available: see fulltext.].

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A development of reduction scenarios of the short-lived climate pollutants (SLCPs) for mitigating global warming and environmental problems

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