A sensitivity analysis of timing and costs of greenhouse gas emission reductions

This paper analyses the optimal timing and macro-economic costs of carbon emission reductions that mitigate the global average atmospheric temperature increase. We use a macro-economic model in which there are two competing energy sources, fossil-fuelled and non-fossil-fuelled. Technological change...

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Veröffentlicht in:	Climatic change 2004-07, Vol.65 (1-2), p.39-71
Hauptverfasser:	GERLAGH, Reyer, VAN DER ZWAAN, Bob
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Sprache:	eng
Schlagworte:	Air pollution caused by fuel industries Alternative energy sources Applied sciences Atmospheric pollution Atmospheric temperature Carbon Climate change Climate policy Climatology. Bioclimatology. Climate change Cost control Costs Earth, ocean, space Economic growth Economic models Economics Emissions Emissions control Energy Energy resources Energy sources Energy. Thermal use of fuels Environmental policy Exact sciences and technology External geophysics General. Regulations. Norms. Economy Greenhouse effect Greenhouse gases Meteorology Pollution Production costs Renewable resources Sensitivity analysis Technological change Technology
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creator	GERLAGH, Reyer VAN DER ZWAAN, Bob
description	This paper analyses the optimal timing and macro-economic costs of carbon emission reductions that mitigate the global average atmospheric temperature increase. We use a macro-economic model in which there are two competing energy sources, fossil-fuelled and non-fossil-fuelled. Technological change is represented endogenously through learning curves, and niche markets exist implying positive demand for the relatively expensive non-fossil-fuelled energy source. Under these conditions, with a temperature increase constraint of 2 degrees C, early abatement is found to be optimal, and, comparedto the results of many existing top-down models, the costs of this strategy prove to be low. We perform an extensive sensitivity analysis of our results regarding the uncertainties that dominate various economic and technological modeling parameters. Uncertainties in the learning rate and the elasticity of substitution between the two different energy sources most significantly affect the robustness of our findings. [PUBLICATION ABSTRACT]
doi_str_mv	10.1023/B:CLIM.0000037497.49722.c5
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subjects	Air pollution caused by fuel industries Alternative energy sources Applied sciences Atmospheric pollution Atmospheric temperature Carbon Climate change Climate policy Climatology. Bioclimatology. Climate change Cost control Costs Earth, ocean, space Economic growth Economic models Economics Emissions Emissions control Energy Energy resources Energy sources Energy. Thermal use of fuels Environmental policy Exact sciences and technology External geophysics General. Regulations. Norms. Economy Greenhouse effect Greenhouse gases Meteorology Pollution Production costs Renewable resources Sensitivity analysis Technological change Technology
title	A sensitivity analysis of timing and costs of greenhouse gas emission reductions
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