Abstract
We study how the availability of an abatement technology affects the optimal use of polluting exhaustible resources, and optimal climate policies. We develop a Romer endogenous growth model in which the accumulated stock of greenhouse gas emissions harms social welfare. Since the abatement technology allows reducing the effective pollution for each unit of resource use, extraction and pollution are partially disconnected. Abatement accelerates the optimal extraction pace, though it may foster CO2 emissions for the early generations. Moreover, it is detrimental to output growth. Next, we study the implementation of a unit tax on carbon emissions. Contrary to previous results of the literature, its level here matters, as it provides the right incentives to abatement effort. When it is measured internal good, the optimal (Pigovian) carbon tax is increasing over time, while it is constant when expressed in utility. Moreover, it can be interpreted ex-post as a decreasing ad-valorem tax on the resource. Finally, we study the impact of the climate policy on the decentralized equilibrium: in particular, it fosters both the intensity and the rate of carbon abatement. In the near-term, it spurs research and output growth, while decreasing output level.
JEL codes
- O32: Management of Technological Innovation and R&D
- O41: One, Two, and Multisector Growth Models
- Q20: General
- Q32: Exhaustible Resources and Economic Development
Reference
André Grimaud, Bertrand Magné, and Luc Rougé, “Polluting Non-Renewable Resources, Carbon Abatement and Climate Policy in a Romer Growth Model”, TSE Working Paper, n. 09-023, March 2009.
See also
Published in
TSE Working Paper, n. 09-023, March 2009