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Climate Change: The Move to Action (AOSS 480 // NRE 501)

Climate Change: The Move to Action (AOSS 480 // NRE 501). Richard B. Rood 734-647-3530 2525 Space Research Building (North Campus) rbrood@umich.edu http://aoss.engin.umich.edu./people/rbrood Winter 2008 March 6, 2008. Class News. A ctools site for all AOSS 480 001 W08

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Climate Change: The Move to Action (AOSS 480 // NRE 501)

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  1. Climate Change: The Move to Action(AOSS 480 // NRE 501) Richard B. Rood 734-647-3530 2525 Space Research Building (North Campus) rbrood@umich.edu http://aoss.engin.umich.edu./people/rbrood Winter 2008 March 6, 2008

  2. Class News • A ctools site for all • AOSS 480 001 W08 • This is the official repository for lectures • Email climateaction@ctools.umich.edu • Class Web Site and Wiki • Climate Change: The Move to Action • Winter 2008 Term

  3. Readings on Local Servers • Assigned • Jasanoff: The Fifth Branch (Chapter 1) • Pew: State-based Initiatives (2006) • Pew: State-based Initiatives (Update, 2007) • Of Interest • Rabe: Congressional Testimony (2007) • Pew: Beyond Kyoto • Foundational References • UNFCCC: Text of Convention • Kyoto Protocol: Text • Kyoto Protocol: Introduction and Summary

  4. A useful reference (not on server) • Barry Rabe: Statehouse and Greenhouse

  5. Lectures coming up • http://www.snre.umich.edu/events

  6. Outline of Lecture • Summary of Energy-Climate Relation • Need for “carbon policy” • IPCC: Formal science-policy interface • Global policy of mitigation • UN Framework Convention for Climate Change • “Dangerous” climate change • Kyoto protocol • Market mechanisms • Regional, State and Local Policy

  7. Energy and Climate Change SURFACE WARMING POPULATION ENERGY CONSUMPTION GREEN HOUSE GAS INCREASE

  8. Energy and Climate Change GLOBAL CONSEQUENCES SURFACE WARMING POPULATION ENERGY CONSUMPTION LOCAL DECISIONS GREEN HOUSE GAS INCREASE

  9. TWO MAJOR USES TWO MAJOR SOURCES Another view of U.S. Energy

  10. Oil Consumption - Production CONSUMPTION PRODUCTION Energy Information Administration

  11. ENERGY VERSUS HUNGERRICH VERSUS POOR HUNGER ENERGY Amigos de la Tierra Int. y Acción Ecológica 2002. Thanks to Maria Carmen Lemos

  12. THE POINT • Energy • Consumption and Production • Rich and Poor • These are sources of tension; they connect international community to national security and economic success. • The problems of energy security, national security, and economic success demand more urgent attention than climate change.

  13. These are not academic problems U.S. Oil Imports Energy Information Admistration

  14. Again: Short-term versus long-term • This is a classic short-term versus long-term problem. • Ethics • Economics • Reaction versus anticipation • Adaptation versus mitigation • A way to provide rationality to the problem is to look at the near term, the long term, and how to get from now to next to where we need to be.

  15. Policy • A natural reaction to this situation is to look to government, to the development of policy to address the problems that we are faced with.

  16. Policy • What do we look to policy to accomplish? • From class discussion • Stimulate technology: Provide incentives or dis-incentives for behavior. (Often through financial or market forces.) • Set regulations: Put bounds on some type of behavior, with penalties is the bounds are exceeded. • Make internal some sort of procedure or behavior or cost that is currently external. • A more abstract point of view • Represents collective values of society: what is acceptable and what is not. • Interface with the law? • Provides the constraints and limits, the checks and balances in which we run our economy.

  17. Complexity • Need for energy policy • Energy security • Economic stability • de facto growth! • Localized solutions? • Need for climate policy • Mitigation: global • Adaptation: local

  18. NEED CARBON POLICY • We need a carbon policy which is integrated with energy policy. • Some alternative energy sources don’t do a whole much for reducing carbon dioxide in atmosphere. • Coal is our easy energy security • Without sequestration (carbon removal), coal makes the problem worse. • Concern: Quest for energy security-national security, demand for cheap energy will reduce priority we give to reduction of carbon dioxide in the atmosphere.

  19. Policy: Global and Local GLOBAL CONSEQUENCES LOCAL POLICY (ADAPTATION) SURFACE WARMING GLOBAL POLICY (MITIGATION) GREEN HOUSE GAS INCREASE

  20. Carbon Policy • Carbon policy is viewed by many as an economic threat. • Justified position?

  21. Science-Policy Interface

  22. Intergovernmental Panel on Climate Change(The assessment process: A formal interface) How is this information evaluated, integrated and transmitted to policymakers? Scientist-authors are nominated by governments to assess the state of the science Published in refereed literature IPCC CLIMATE REPORTS 2001 2007 What we know + uncertainty Draft documents are reviewed by experts who did NOT write the draft. // Open review as well U.S. Climate Change Study Program U.S. National Assessment Review by government officials // Final language // All agree National Academy of Sciences Draft revised

  23. Global Policy: Mitigation

  24. Development of International Climate Change Regime 1988 1992 1995 1997 2001 2007 IPCC established Framework Convention(UNFCCC) Kyoto Protocol ????? Scientific assessment Non-binding aim Binding emissions target

  25. Framework Convention on Climate Change(US in part of this.) • UN Framework Convention on Climate Change (1992, non-binding, voluntary, 190 signers) • Reduce CO2 Emissions in 2000 to 1990 levels • Inventories of greenhouse gas emissions • Mitigate Climate Change • Mid-1990’s • No reduction in emissions • Evidence of warming and impacts

  26. Framework Convention on ClimateChange Thanks to Rosina Bierbaum

  27. Dangerous climate change? Stern, 2006

  28. Dangerous Climate Change? Adapted from IPCC, 2001

  29. Some carry away messages • Determine what is a tolerable ceiling for carbon dioxide. • Gives cap for a cap and trade system. • Tolerable ceilings have been posed as between 450 and 550 ppm. • Ice sheet melting and sea level? • Oceanic circulation / The Gulf Stream? • Ocean acidification? • Determine a tolerable measure of increased temperature • British policy  2o C

  30. Basic constraint on carbon policy

  31. Stabilizing concentrations Means Action Now … Ceiling (ppmv) 350 450 550 650 750 Start Date Too late 2007 2013 2018 2023 Max Emission 6.0 8.0 9.7 11.4 12.5 Max Year 2005 2011 2033 2049 2062 Basic constraint on carbon policy 1950 – 1.8 tons // 1990 – 5.8 tons // 2000 – 6.5 tons Thanks to Rosina Bierbaum

  32. All Parties agree to: 4.1.b. Mitigate emissions and enhance sinks 4.1.c. Promote technology development and transfer 4.1.e. Cooperate on research and observation Developed Countries’ aim to return emissions to 1990 levels by the end of the century 1992 Convention Commitments Thanks to Rosina Bierbaum

  33. Assessment • Mid-1990’s • No reduction in emissions • Evidence of warming and impacts • 2001 • No reduction in emissions • Evidence of warming and impacts • 2007 • No reduction in emissions • Evidence of warming and impacts

  34. Kyoto Protocol followed 1995 assessments

  35. Kyoto Protocol • Kyoto Protocol (December, 1997, binding limits on or reduction of emissions) • Must be signed (155 signers (?186)) and ratified • At least 55 countries • That represent 55 % or more of emissions • Open for signatures on March 16, 1998 • Went into effect on February 16, 2005 • After Russia signed and ratified

  36. Kyoto Protocol Requirements • Developed nations reduce their emissions 5.2% below 1990 emissions • Reduction (increases) vary across countries • Relaxed a little over the years to attract signers • (Treaty: U.S. 7% reduction: Actual: 12% higher in 2004, 30% by 2012) • Addresses “six” greenhouse gases (CO2, Methane CH4, Nitrous Oxide N2O, hydrofluorocarbons, perfluorocarbons, sulphur hexafluoride) • Commitment period 2008-2012 • Set of other activities • Improve “local emission factors” • Inventories of emissions and sinks • Mitigation and adaptation plans • Environmentally sound technology diffusion to developing nations

  37. Kyoto Protocol Issues • Amount and distribution for limits and reductions • What greenhouse gases to include • Developing countries in or out of emission requirements • Trading, market-based mechanisms • Role of removing greenhouse gases

  38. Kyoto Protocol: Important Add ons • Market-based mechanisms • Emissions trading • Joint implementation • Clean development mechanisms • “Common but differentiated responsibilities” Thanks to Rosina Bierbaum

  39. Flexibility in Achieving Targets • “What” flexibility • Targets apply to CO2-equivalent emissions of basket of six GHGs • Can use carbon sinks (e.g. forests) as offsets • “When” flexibility • Five-year commitment period • Banking • “Where” flexibility • Market mechanisms: ET, JI, CDM Thanks to Rosina Bierbaum

  40. German Target Greek Target Kyoto Mechanisms: • Bubbles (Art. 4) • Any group of Annex I countries may pool emissions targets Thanks to Rosina Bierbaum

  41. Kyoto Mechanisms: • Emissions trading (Art. 17) • Developed countries and firms can trade parts of their “assigned amounts” of emissions • Successfully used in US in sulfur dioxide program US AAU Norway Thanks to Rosina Bierbaum

  42. Kyoto Mechanisms: • Joint implementation (JI) (Art. 6) • One Annex I country undertakes a project in another country to reduce emissions or enhance sinks • The project generates an “emission reduction unit,” which can be transferred • ERUs subtracted from transferor’s assigned amount and added to transferee’s assigned amount Thanks to Rosina Bierbaum

  43. US ERU Norway Kyoto Mechanisms: • Joint Implementation (Art. 6) Thanks to Rosina Bierbaum

  44. Kyoto Mechanisms: • Clean Development Mechanism (Art. 12) • Annex I party can undertake mitigation project in developing country • Win-win approaches • Developing countries get climate-friendly technology • Projects generate “certified emission reductions” (CERs), which developed countries can use to meet emission targets CER India US Thanks to Rosina Bierbaum

  45. Kyoto Protocol:Issues with Market-based Mechanisms • Trading with countries who do not have emission limits / non-ratifying countries • Integrity in the trading market • “false” credits • Reporting • Measurements • Verifying

  46. “Flaws” in Kyoto Protocol • Participation of Developing Countries • Large populations, large projected growth • Participation of the United States • 25 % of greenhouse gas emissions • Other “flaws” • Does not go far enough: Emission goals don’t adequately mitigate dangerous climate change • 2008-2012 commitment period – then what?

  47. Elements of “U.S. Position” • Will not be ratified unless developing countries are included in emission limits • Continuing concerns • Impact on economic growth and gross national product • CO2, currently, directly related to enterprise, economy … • Robustness of scientific justification and observations • Winners outweigh losers • Policy defines winners and losers in a different way.

  48. Issues of implementation • Rules that govern compliance • The rules of development and transfer of cleaner, low emission, technologies • The role of carbon sinks: trees, removal technology, …. • The reward/punishment for those who take the initiative to address their emissions unilaterally

  49. Constituencies in the community • “G-77” and China: ~130 developing countries, work by consensus (generally represent The Africa Group) • Economic development and emission limits • Sell their potential carbon credits for profit • The Alliance of Small Island States (AOSIS) • Tightest control on global emissions • Organization of Petroleum Export Countries (OPEC) • Protection of their economic well being

  50. Constituencies in the community • European Union (EU) • Coordinated position as environmental leader with very ambitious emission reduction goals • Japan, U.S., Switzerland, Canada, Australia, Norway, New Zealand (JUSSCANNZ) • Non-EU developed countries • Cost of tackling the climate problem • U.S., Canada, Australia: Low-efficiency energy use • Japan, Switzerland, Norway, New Zealand: High-efficiency energy use

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