Carbon leakage

Carbon leakage occurs when there is an increase in greenhouse gas emissions in one country as a result of an emissions reduction by a second country with a strict climate policy.[1]

Carbon leakage may occur for a number of reasons:

  • If the emissions policy of a country raises local costs, then another country with a more relaxed policy may have a trading advantage. If demand for these goods remains the same, production may move offshore to the cheaper country with lower standards, and global emissions will not be reduced.
  • If environmental policies in one country add a premium to certain fuels or commodities, then the demand may decline and their price may fall. Countries that do not place a premium on those items may then take up the demand and use the same supply, negating any benefit.

There is no consensus over the magnitude of long-term leakage effects.[2] This is important for the problem of climate change.

Carbon leakage is one type of spill-over effect. Spill-over effects can be positive or negative;[3] for example, emission reductions policy might lead to technological developments that aid reductions outside of the policy area.

"Carbon leakage is defined as the increase in CO
2
emissions outside the countries taking domestic mitigation action divided by the reduction in the emissions of these countries."[4] It is expressed as a percentage, and can be greater or less than 100%.

Carbon leakage may occur through changes in trading patterns, and that is sometimes measured as the balance of emissions embodied in trade (BEET).[5]

Coal, oil and "backstop" technologies

The issue of carbon leakage can be interpreted from the perspective of the reliance of society on coal, oil, and "backstop" (less polluting) technologies, e.g., biomass. This is based on the theory of nonrenewable resources.[2] The potential emissions from coal, oil and gas is limited by the supply of these nonrenewable resources. To a first approximation, the total emissions from oil and gas is fixed, and the total load of carbon in the atmosphere is determined by coal usage.

A policy that sets a carbon tax only in developed countries might lead to leakage of emissions to developing countries. However, a negative leakage (i.e., leakage having the effect of reducing emissions) could also occur due to a lowering in demand and price for oil and gas. This might lead coal-rich countries to use less coal and more oil and gas, thus lowering their emissions.[2] While this is of short-term benefit, it reduces the insurance provided by limiting the consumption of oil and gas. The insurance is against the possibility of delayed arrival of backstop technologies. If the arrival of backstop technologies is delayed, the replacement of coal by oil and gas might have no long-term benefit. If the backstop technology arrives earlier, then the issue of substitution becomes unimportant. In terms of climate policy, the issue of substitution means that long-term leakage needs to be considered, and not just short-term leakage.[2]

Current schemes

Estimates of leakage rates for action under the Kyoto Protocol ranged from 5 to 20% as a result of a loss in price competitiveness, but these leakage rates were viewed as being very uncertain.[6] For energy-intensive industries, the beneficial effects of Annex I actions through technological development were viewed as possibly being substantial. This beneficial effect, however, had not been reliably quantified. On the empirical evidence they assessed, Barker et al. (2007) concluded that the competitive losses of then-current mitigation actions, e.g., the EU ETS, were not significant.

Recent North American emissions schemes such as the Regional Greenhouse Gas Initiative and the Western Climate Initiative are looking at ways of measuring and equalising the price of energy 'imports' that enter their trading region[7]

See also

References

  1. Andrés Cala (18 November 2014), Emissions Loophole Stays Open in E.U., The New York Times, retrieved 1 April 2015
  2. Goldemberg, J.; et al. (1996). J.P. Bruce.; et al. (eds.). Introduction: scope of the assessment. In: Climate Change 1995: Economic and Social Dimensions of Climate Change. Contribution of Working Group III to the Second Assessment Report of the Intergovernmental Panel on Climate Change (PDF). This version: Printed by Cambridge University Press, Cambridge, U.K., and New York, N.Y., U.S.A.. PDF version: IPCC website. pp. 27–28. doi:10.2277/0521568544. ISBN 978-0-521-56854-8.
  3. IPCC (2007), B. Metz; et al. (eds.), Glossary A-D. In (section): Annex I. In (book): Climate Change 2007: Mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (PDF), Cambridge University Press, Cambridge, U.K., and New York, N.Y., U.S.A., retrieved 2010-04-18
  4. Barker, T.; et al. (2007), B. Metz; et al. (eds.), 11.7.2 Carbon leakage. In (book chapter): Mitigation from a cross-sectoral perspective. In (book): Climate Change 2007: Mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Print version: Cambridge University Press, Cambridge, U.K., and New York, N.Y., U.S.A.. This version: IPCC website, archived from the original on 2010-05-03, retrieved 2010-04-05
  5. Jiahua Pan; Jonathan Phillips; Ying Chen, "China's balance of emissions embodied in trade: approaches to measurement and allocating international responsibility", Oxford Review of Economic Policy, 24, Number 2, 2008, pp.354–376
  6. Barker, T.; et al. (2007), B. Metz; et al. (eds.), Executive Summary. In (book chapter): Mitigation from a cross-sectoral perspective. In (book): Climate Change 2007: Mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Print version: Cambridge University Press, Cambridge, U.K., and New York, N.Y., U.S.A.. This version: IPCC website, archived from the original on 2010-03-31, retrieved 2010-04-05
  7. "RGGI Imports and Emissions Leakage Working Group" (PDF). Archived from the original (PDF) on 2007-11-28. Retrieved 2007-11-20.

Further reading

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