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THINKING LONG TERM: Confronting Global Climate Change

THINKING LONG TERM: Confronting Global Climate Change. Written by James J. MacKenzie Sen i or Associate World Resources Institute. A hostile climate (Ice Ages) made life difficult for our ancestors. Today’s more favorable climate has supported the growth of civilization.

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THINKING LONG TERM: Confronting Global Climate Change

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  1. THINKING LONG TERM:Confronting Global Climate Change Written byJames J. MacKenzie Senior AssociateWorld Resources Institute

  2. A hostile climate (Ice Ages) made life difficult for our ancestors

  3. Today’s more favorable climate has supported the growth of civilization

  4. Partly as a result of a favorable climate, humanity has grown in numbers over time 7,000 6,000 5,000 4,000 Millions of people 3,000 2,000 1,000 0 0 500 1000 1500 2000 2500 Year

  5. The world has grown dependent on inexpensive fossil fuels Source: “Global Energy Perspectives” IIASA, WEC, 1998

  6. But the burning of fuels now threatens our well being

  7. Burning fossil fuels leads to: • Environmental impacts during exploration and production • Ozone, acid deposition, and local and trans-boundary air pollution from burning • Emissions of greenhouse gases

  8. Global warming enhanced by emissions of man-made gases Source: “Climate Change, State of Knowledge,” OSTP, 1997

  9. Much is known with certainty about global warming: • Existence of natural greenhouse effect is established beyond doubt • Concentrations of greenhouse gases (GHGs) are increasing • The temperature of the earth is increasing. 1998 the hottest in at least 1000 years. • Sea levels are rising (4 to 10 inches over past 100 years) • Some GHGs will remain in the atmosphere for centuries

  10. CO2 contributed most to global warming over past century

  11. CO2 is building up in the atmosphere Source: “Climate Change, State of Knowledge,” OSTP, 1997

  12. Earth’s temperature continues to rise rapidly Source: “Climate Change, State of Knowledge,” OSTP, 1997

  13. The polar ice cap is melting

  14. Earth is projected to grow warmer Source: Univ. of East Anglia, IPCC

  15. Extreme precipitation events are becoming more common

  16. Uncertainties still persist • Timing and regional impacts • The effects of increased cloudiness • Uncertain health and ecological impacts • Possible surprises from unanticipated effects

  17. More impacts of global warmingcan be expected • More health effects from the spread of tropical diseases, heat waves, and so-called “natural disasters” • Loss of agricultural land in developing countries • Disappearance of ecosystems that are unable to migrate

  18. The climate problem is a long-term problem and will require “thinking long term” to solve

  19. Common sense goals to cope with the climate threat • Reduce CO2 emissions, requiring world economy to become much more efficient • Start a world-wide shift from fossil to non-fossil energy sources

  20. We can explore energy-climate futures through “what if” scenarios …

  21. Criteria for a strategy to keep CO2 levels “reasonably” low • A strategy should support sustainable growth in the world economy • Improvements in global energy efficiency (E/GDP) • A transition to non-fossil energy sources

  22. These criteria are met in the “Ecologically Driven Scenario” fromGlobal Energy Perspectivesby WEC and IIASA

  23. Scenario assumptions related to energy demand • Growth rate in global energy demand of 0.8% over next century, doubling energy use by 2100 • Doubling of world population by 2100 • 10-fold increase in world economy over next century • 1.3% annual improvement in energy efficiency. One would need only 20% as much energy to produce a dollar of GDP compared with today.

  24. Recent annual energy growth rates (1987-1996)

  25. Assumptions related to energy supply • Global supply of new renewables (wind, PV, hydro) would increase to 50% by 2100 • Biofuels from trees, agricultural wastes, municipal wastes, and so on would account for 30% of supply by 2100 • Nuclear would be phased out by 2100 • Coal, oil, and natural gas would fall to 18% of global supply from its present value of 80% • CO2 emissions would fall by 2/3 by 2100

  26. Energy supply: The global transition to non-fossil energy Mtoe

  27. Photovoltaics (PV) produce power with no emissions or moving parts

  28. The use of wind machines is growing rapidly around the world

  29. Rapid growth required in the use of renewable energy sources Mtoe

  30. Rapid growth required in the use of renewable energy sources • Use of biofuels must increase — sustainably — to over 5 times its present value by 2100 (1.6% growth per year) • Hydro must increase to 3 times its present value by 2100 (1.2% growth per year)

  31. Rapid growth required in the use of renewable energy sources • PV and wind must grow to 45% of global supply by 2100 • PV and wind must grow initially at about 12% per year, slowing to 6% by 2050, and then to about 2 to 3% per year through the year 2100 • Global data show that electricity from PVs and wind has been growing at about 20% per year for the past 15 years.

  32. From the viewpoint of non-carbon energy sources, the future looks promising.Global growth in these two vital sources of renewable energy is on track to meet the needs of a growing world economy.

  33. Resulting carbon dioxide emissions(1990 through 2100) 7,000 6,000 5,000 4,000 3,000 2,000 1,000 0 1980 2000 2020 2040 2060 2080 2100 2120 Mtc Year

  34. CO2 concentration in an ecologically driven future In this aggressive scenario, the CO2 concentration would peak at about 450 parts per million (ppm) -- less than a doubling -- in the last quarter of the 21st century, and then start declining.

  35. In sum, a “thinking long term” strategy would... • Develop a century-long energy and climate strategy to hold CO2 concentration below a doubling • Improve global energy efficiency (reduce E/GDP) to hold energy growth to under 1% • Support rapid phasing in of non-fossil energy sources

  36. National governments should support “thinking long term” strategies • Reform energy prices to make them more closely reflect the costs they impose on society. Benefits: • Encourage efficiency and make more economic the renewable energy sources. • Should also lower taxes on income, savings, and investment to offset higher energy prices.

  37. National governments should support “thinking long term” strategies (continued) • Research. Support research on renewable energy sources and the infrastructure needs to phase them into the economy. • Creating markets. Use government purchasing power to create markets, bring down prices, and get experience with the use of renewable energy technologies including hydrogen and fuel cells.

  38. In short, there are three areas for major federal emphasis ... • Reforming energy pricing to “level the playing field” • Supporting basic research on new technologies, and • Using federal purchasing to expand markets and reduce costs.

  39. http://www.wri.org/wri/

  40. Addendum slides for narrated streaming presentation

  41. Climate Web sites • www.ipcc.ch/“The Intergovernmental Panel on Climate Change” • www.usgcrp.gov/“US Global Change Research Program” • globalchange.gov/“Gateway to Global Change Data” • www.globalchange.org/“Global Change, Electronic Edition”

  42. Global energy Web sites • www/iiasa.ac.at/cgi-bin/ecs/book_dyn/bookcnt.pv“Global Energy Perspectives” • www.undp.org/seed/eap/“United Nations Development Programme” • www.worldenergy.org/“World Energy Council” • www.undp.org/seed/eap/activities/wea/ “World Energy Assessment”

  43. THINKING LONG TERM:Confronting Global Climate Change Written by James J. MacKenzieSenior Associate, World Resources Institute Narrated by Navroz DubashAssociate, World Resources Institute

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