Global long-term greenhouse gas mitigation emission scenarios based on AIM (original) (raw)
Abstract
In order to respond to climate change, it is essential to describe possible future greenhouse gas (GHG) emission trajectories in both nonintervention and intervention terms. This paper analyzes long-term GHG mitigation emission scenarios according to alternative development paths in the world and major regions, based on the nonintervention emission scenarios quantified by the Asian-Pacific Integrated Model (AIM). AIM is revised and applied to the quantification of narrative storylines for scenarios of socioeconomic development, and GHG emissions from energy use, land-use change, and industrial production processes are simulated. A wide range of mitigation policies are adopted in this simulation as responses to the climate change. Several target stabilized levels—650, 550 and 450ppmv—are analyzed. The results show that to achieve stabilization at a different GHG concentration level, a policy package is essential to reach the target concentration level, rather than a single policy. Energy efficiency improvement will be a key contributor to the reduction of GHG emissions as a result of the policy package. The mitigation cost could be at a medium level, without a large loss of economic growth. The developing world could significantly reduce GHG emissions compared with nonmitigation scenarios with sufficient knowledge transfer from developed countries.
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Authors and Affiliations
- Center for Energy, Environment and Climate Change, Energy Research Institute, Zhansimenlu, Shahe, Changping County, Beijing, 102206, China
Kejun Jiang - National Institute for Environmental Studies, 16-2 Onogawa, Tsukuba, Ibaraki, Japan
Tsuneyuki Morita & Toshihiko Masui - Faculty of Engineering, Kyoto University, Yoshida-honmachi, Sakyo-ku, Kyoto, Japan
Yuzuru Matsuoka
Authors
- Kejun Jiang
- Tsuneyuki Morita
- Toshihiko Masui
- Yuzuru Matsuoka
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Jiang, K., Morita, T., Masui, T. et al. Global long-term greenhouse gas mitigation emission scenarios based on AIM.Environ Econ Policy Stud 3, 239–254 (2000). https://doi.org/10.1007/BF03354039
- Received: 05 January 2000
- Accepted: 10 April 2000
- Published: 01 June 2000
- Issue date: June 2000
- DOI: https://doi.org/10.1007/BF03354039