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Non-Kyoto radiative forcing in long-run greenhouse gas emissions and climate change scenarios
Authors:Steven K. Rose  Richard Richels  Steve Smith  Keywan Riahi  Jessica Strefler  Detlef P. van Vuuren
Affiliation:1. Energy and Environmental Analysis Research Group, Electric Power Research Institute, 2000 L Street NW, Suite 805, Washington, DC, 20036, USA
2. Pacific Northwest National Laboratory, Joint Global Change Research Institute, College Park, MD, USA
3. International Institute for Applied Systems Analysis, Laxenburg, Austria
4. Potsdam Institute for Climate Impact Research, Potsdam, Germany
5. PBL Netherlands Environmental Assessment Agency, Bilthoven, The Netherlands
6. Copernicus Institute, Department of Geosciences, Utrecht University, Utrecht, The Netherlands
Abstract:Climate policies must consider radiative forcing from Kyoto greenhouse gases, as well as other forcing constituents, such as aerosols and tropospheric ozone that result from air pollutants. Non-Kyoto forcing constituents contribute negative, as well as positive forcing, and overall increases in total forcing result in increases in global average temperature. Non-Kyoto forcing modeling is a relatively new component of climate management scenarios. This paper describes and assesses current non-Kyoto radiative forcing modeling within five integrated assessment models. The study finds negative forcing from aerosols masking (offsetting) approximately 25 % of positive forcing in the near-term in reference non-climate policy projections. However, masking is projected to decline rapidly to 5–10 % by 2100 with increasing Kyoto emissions and assumed reductions in air pollution—with the later declining to as much as 50 % and 80 % below today’s levels by 2050 and 2100 respectively. Together they imply declining importance of non-Kyoto forcing over time. There are however significant uncertainties and large differences across models in projected non-Kyoto emissions and forcing. A look into the modeling reveals differences in base conditions, relationships between Kyoto and non-Kyoto emissions, pollution control assumptions, and other fundamental modeling. In addition, under climate policy scenarios, we find air pollution and resulting non-Kyoto forcing reduced to levels below those produced by air pollution policies alone—e.g., China sulfur emissions fall an additional 45–85 % by 2050. None of the models actively manage non-Kyoto forcing for climate implications. Nonetheless, non-Kyoto forcing may be influencing mitigation results, including allowable carbon dioxide emissions, and further evaluation is merited.
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