Near-linear cost increase to reduce climate-change risk
The relationship between the costs of climate policy and the risks of climate change may look more favorable than commonly perceived say researchers from PBL, Wageningen University and the Potsdam Institute for Climate Impact Research. They published their findings in the Proceedings of the National Academy of Sciences (PNAS). The research analyzed the relationship between mitigation costs and the likelihood of achieving a climate target. It found that the costs associated with achieving such a target do not necessarily increase exponentially - but instead increase nearly linearly. In economic terms, Schaeffer and colleagues calculated a nearly proportional return on investment in mitigation in terms of increasing the probability of reaching temperature targets (such as the EU 2 degrees target).
Abstract
One approach in climate-change policy is to set normative longterm targets first and then infer the implied emissions pathways. An important example of a normative target is to limit the globalmean temperature change to a certain maximum. In general, reported cost estimates for limiting global warming often rise rapidly, even exponentially, as the scale of emission reductions from a reference level increases. This rapid rise may suggest that more ambitious policies may be prohibitively expensive.
Here, we propose a probabilistic perspective, focused on the relationship between mitigation costs and the likelihood of achieving a climate target. We investigate the qualitative, functional relationship between the likelihood of achieving a normative target and the costs of climate-change mitigation. In contrast to the example of exponentially rising costs for lowering concentration levels, we show that the mitigation costs rise proportionally to the likelihood of meeting a temperature target, across a range of concentration levels. In economic terms investing in climate mitigation to increase the probability of achieving climate targets yields "constant returns to scale", because of a counterbalancing rapid rise in the probabilities of meeting a temperature target as concentration is lowered.
Authors
Specifications
- Publication title
- Near-linear cost increase to reduce climate-change risk
- Publication date
- 30 December 2008
- Publication type
- Publication
- Magazine
- Proceedings of the National Academy of Sciences of the United States of America (PNAS) Vol. 105, No. 52
- Product number
- 92329