1 / 21

International Environmental Agreements with Uncertain Environmental Damage and Learning

International Environmental Agreements with Uncertain Environmental Damage and Learning. Michèle Breton, HEC Montréal Lucia Sbragia , Durham University. Game Theory Practice 2011. Uncertainty and learning motivation Literature Model Learning process Emission game

chi
Download Presentation

International Environmental Agreements with Uncertain Environmental Damage and Learning

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. International Environmental Agreements with Uncertain Environmental Damage and Learning Michèle Breton, HEC Montréal Lucia Sbragia, Durham University Game Theory Practice 2011

  2. Uncertainty and learning motivation • Literature • Model • Learning process • Emission game • Numerical approach & simulation • Results • Impact of uncertainty • Impact of endogenous learning IEA with uncertainty and learning Outline

  3. e.g. impact of accumulated GHG on global temperature (climate sensitivity) Is sometimes used to justify denied participation in IEAs : more information is required on the magnitude of damage before committing to costs Learning process: damage is observed as the stock of accumulated pollution increases Timing question: avoid irreversible damages vs unnecessary costs IEA with uncertainty and learning Uncertainty & learning “likely to be in the range 2 to 4.5◦C with a best estimate of about 3◦C, and is very unlikely to be less than 1.5◦C” (AR4)

  4. Impact of uncertainty and learning on emission decisions and welfare • IEA in place with strategically interacting countries • Simple environmental model with two key features • dynamics of the pollution stock and of the damage cost • negative externalities arising from emissions IEA with uncertainty and learning This paper

  5. Many papers on formation and stability of coalitions – in a certainty context • Uncertainty & learning • exogenous learning in two-stage games (after/before the emission game, before the membership game) or static models • Single country with endogenous learning • Conclusion: uncertainty and learning are both bad for cooperation and the environment IEA with uncertainty and learning Literature

  6. Consequences of uncertainty and endogenouslearning in terms of emissions and welfare • Introduction of endogenouslearning in a dynamicemissionsgame • Uncertaintycan have either a positive or a negativeeffect • Sophisticatedlearningprocess vs simple mixed strategies • Equilibriumwelfarecomparison IEA with uncertainty and learning Our contributions

  7. N players, of which s participate in an IEA Revenues from production activity q Emissions x from production activity Damage from accumulated stock of pollution P IEA with uncertainty and learning Model

  8. Countries do not know the real impact of accumulated pollution – but observe the (noisy) damage Two possible states of the world (dH,dL) Bayesian updating of beliefs, where πrepresents the probability of high damage IEA with uncertainty and learning The learning process

  9. Value function of a player satisfies Equilibrium strategies (strategic learning) IEA with uncertainty and learning The emission game

  10. When uncertainty is resolved (steady-state) • Linear damage function: constant strategies • Quadratic damage function: strategies linear in P • Mixed” strategy (myopic players) IEA with uncertainty and learning Special cases

  11. Finite difference approximation for the derivatives of the value function Fixed point (value iteration) algorithm for the value function Fixed point (cobweb) algorithm for the equilibrium strategies Interpolation of the value function by linear splines and analytic computation of expected values IEA with uncertainty and learning Numerical approach

  12. IEA with uncertainty and learning Simulation

  13. Equilibrium emissions of signatories and non-signatories have similar behaviour with respect to belief and pollution stock • Signatories always emit less than non-signatories, more so when the damage parameter is believed high • Emissions are no longer constant in P : decreasing when  is small and increasing when  is large IEA with uncertainty and learning Equilibrium results (linear case)

  14. Can be higher than in the low damage, or lower than in the high damage case IEA with uncertainty and learning Equilibrium emissions

  15. Can be higher than in the low damage, or lower than in the high damage case IEA with uncertainty and learning Equilibrium welfare

  16. IEA with uncertainty and learning • Constant in P and generallyincreasingwithprobability of high damage Incentive to deviate

  17. When the true damage parameter is low, players are more cautious and emissions are lower under uncertainty • Except when the probability of a high value for the damage parameter is very low, in which case players emit more than in the certain case • Conversely, when the true damage parameter is high, uncertainty has a negative impact as players generally emit more • Except for very high values of the belief IEA with uncertainty and learning Impact of uncertainty on emissions

  18. IEA with uncertainty and learning Accounting for the dynamics of the learningprocess

  19. IEA with uncertainty and learning Accounting for the dynamics of the learningprocess

  20. Impact of uncertainty and learning can be beneficial – or not • Result is not the obvious one when belief is “extreme” • Accounting for the dynamics of the learning process can be beneficial or not – depending on the level of the belief in high environmental impact • Higher welfare and higher emissions when probability of high damage is less than 0.5 IEA with uncertainty and learning Conclusions

  21. Results are qualitatively similar with quadratic damage When learning is independent of the pollution level, equilibrium solution is very close to the myopic solution IEA with uncertainty and learning Conclusions

More Related