Abstract
In 1988 the Toronto World Conference on the Changing Atmosphere called for a reduction of CO2 emissions of the industrialized countries by approximately 20% by the year 2005 as compared with 1988. A stabilization of CO2 concentrations would require an eventual emissions reduction of more than 50% of present levels. Model runs were performed with the Dutch Integrated Model for the Assessment of the Greenhouse Effect (IMAGE) to put these figures into perspective. It was found that the suggested emissions reduction levels could indeed be adequate to prevent global temperature change from moving beyond past climate experience. However, this would only be the case when these reduced levels of emissions were achieved at a global scale and maximum emission control for the other greenhouse gases was implemented. A delayed response analysis shows that the policies of the coming decades are crucial for the eventual control of the greenhouse effect.
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Literature Cited
Bach, W. 1988. Modelling the climatic effects of trace gases: reduction strategy and options for a low risk policy. Paper presented at the World Congress on Climate and Development, Hamburg, F.R.G.
Edmonds, J., and J. M. Reilly. 1986. The long-term global energy-CO2 model: PC version A84PC, Carbon Dioxide Information Center, Oak Ridge, Tennessee.
Elzen, M. G. J. den, and J. Rotmans. 1989. Simulation model for the socio-economic consequences of the greenhouse effect for the Netherlands [in Dutch]. Report Nr. 758471008, RIVM, Bilthoven, The Netherlands.
Environment Canada. 1988. Conference statement “The changing atmosphere: implications for global security.” Toronto, Canada.
EPA. 1989. Policy options for stabilizing global climate. Draft report to Congress, Washington, DC.
German Enquete Commission. 1988. Zur Sache Schutz der Erdatmosphäre; eine Internationale Herausforderung, German Bundestag.
Goudriaan, J., and P. Ketner. 1984. A simulation study for the global carbon cycle including man's impact on the biosphere.Climatic Change 6:167–192.
Jäger, J. 1988. Developing policies for responding to climatic change. UNEP/WMO.
Kram, T., and P. A. Okken. 1989. Two “low CO2” energy scenarios for the Netherlands. Paper presented at Expert Seminar on Energy Technologies for Reducing Emissions of Greenhouse Gases, IEA/OECD, Paris, France.
Krause, F. 1989. Required market penetration rates for non-fossil energy under climate stabilization targets. Paper presented at expert seminar on energy technologies for reducing emissions of greenhouse gases, IEA/OECD, Paris, France.
Maier-Reimer, E., and K. Hasselmann. 1988. Transport and storage of CO2 in the ocean; an inorganic ocean-circulation carbon cycle model.Climate Dynamics 2:63–90.
Mintzer, I. M. 1987. A matter of degrees: the potential for controlling the greenhouse effect. World Resources Institute.
Oerlemans, J. 1987. Greenhouse warming and changes in sea-level. Presented at the technical workshop: developing policies for responding to future climatic change. Villach, Austria.
Rotmans, J. 1989. A scenario study of the greenhouse effect. Pages 377–384in T. Schneider, S. D. Lee, G. J. R. Wolters, and L. D. Grant (eds.), Atmospheric Ozone Research and its Policy Implications. Elsevier, Amsterdam.
Rotmans, J., R. J. Swart, O. J. Vrieze, 1989. The role of the CH4-CO-OH cycle in the greenhouse problem.Science of the Total Environment (in press).
Rotmans, J., H. De Boois, and R. J. Swart. 1990. An integrated model for the assessment of the greenhouse effect: the dutch approach.Climatic Change (in press).
Sassin, W., J. Jäger, J. C. di Primio, and W. Fisher. 1988. Das Klimaproblem zwischen Naturwissenschaft und Politik. Kernforschungsanlage Jülich.
Swart, R. J., and J. Rotmans. 1989. A scenario study on causes of tropical deforestation and effects on the global carbon cycle. RIVM-report 758471007. Bilthoven, The Netherlands.
UNEP (United Nations Environment Program). 1987. Montreal protocol on substances that deplete the ozone layer: final act, Montreal, Canada.
Wigley, T. M. L. 1987. Relative contributions of different trace gases to the greenhouse effect.Climate Monitor 16:14–28.
Wigley, T. M. L., and M. E. Schlesinger. 1985. Analytical solution for the effect of increasing CO2 on global mean temperature.Nature 315:649–652.
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Rotmans, J., Swart, R. The gloomy greenhouse: Should the world phase out fossil fuels?. Environmental Management 14, 291–296 (1990). https://doi.org/10.1007/BF02394196
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DOI: https://doi.org/10.1007/BF02394196