The average global temperature in 2005 was 14.6 degrees Celsius, making it the warmest year ever recorded on Earth's surface, according to data from NASA's Goddard Institute of Space Studies.1 (See Figure 1.) The five warmest years since recordkeeping began in 1880 have all occurred since 1998.2 The aver- age global temperature has risen nearly 1 degree Celsius in the past century.3 More than half of that warming-- a rise of 0.6 degrees--has occurred in the past 30 years, meaning that this warming trend is accelerating.4 In 2005, the average atmospheric carbon dioxide (CO2) concentration reached 379.6 parts per million by volume, an increase of 2.6 parts per million--0.6 percent--over the record high in 2004.5 (See Figure 2.) Average CO2 concen- trations have climbed 20 percent since measure- ments began in 1959. The rise in 2005 represents the largest annual increase ever recorded.6 Although seemingly small, the rising temperature threatens to have profound conse- quences in the years ahead. Already, in Septem- ber 2005 sea ice in the northern hemisphere was at its lowest levels in recorded history.7 Greenland's glaciers lost nearly 53 cubic miles of ice in 2005 alone.8 During the summer, heat waves kept temperatures above 38 degrees Celsius (100 degrees Fahrenheit) for 39 consec- utive days in Arizona, and much of Europe was hit with forest fires, followed by torrential rains and severe flooding.9 Abnormal algal blooms cost U.S. Gulf Coast residents $3 million a week in lost revenues from tourism, fisheries, restaurants, and related activities.10 Likewise, Kuala Lampur experienced a downturn in the tourism industry and was forced to shut its largest harbor as a result of wild fires brought on by drought and extreme heat.11 Already, climate change is forcing entire communities to move or risk losing their liveli- hoods. For example, changing weather patterns are believed to be responsible for decreasing rainfall in the Gobi Desert that has helped it expand by 26,000 square kilometers a year and forced tens of millions of Chinese farmers to retreat.12 Inuit natives in communities from Canada, Greenland, Alaska, and northern Rus- sia were forced to move northward to follow prey in 2005 as a result of the warmest winter on record in the Arctic region.13 There is broad consensus in the scientific community that the rise in global temperatures is due to emissions of greenhouse gases such as CO2--the primary source of which is the burn- ing of fossil fuels.14 CO2 emissions from fossil fuels increased a record 4.5 percent in 2004, to 7.57 billion tons. (See Figure 3.) Research that measures gases present in ancient Antarctic ice cores has revealed that CO2 levels are now 27 percent higher than at any point up until the start of the Industrial Revolution.15 The United States, with about 5 percent of the world's population, accounts for the largest share of CO2 emissions from human activities--25 percent of global emissions.16 China is the sec- ond largest emitter, although emissions per per- son there are far lower than in the United States.17 The largest sources of U.S. emissions are coal-burning power plants, followed by automobiles.18 Globally, transport-sector emis- sions are growing most rapidly, due to dramatic rises in car ownership in developing countries.19 Some experts fear that climate change is already set in motion and will be difficult to reverse and that this will lead to more severe storms, drastic reductions in agricultural yields, biodiversity loss, and threats to human health--the effects of which tend to hit lower- income communities more than richer ones.20 In 2005, efforts to address climate change globally met with varying degrees of success. To meet its commitment under the Kyoto Protocol to cut greenhouse gas emissions by 8 percent, Europe launched an Emissions Trading Scheme in January 2005.21 Although this does not yet include several carbon-intensive industries or the transport sector, total CO2 trade in the inaugural year was worth 9.4 billion euros, and the volume of CO2 traded reached 799 million tons.22 While the United States remains outside the Kyoto Protocol, a growing number of state and city governments are taking action to reduce emissions.23 Climate Change Impacts Rise Lauren Sorkin 42 Vital Signs 2006­2007 pp.32,44,118 LINKS Climate Change Impacts Rise Vital Signs 2006­2007 43 Global Average Temperature and Carbon Emissions from Fossil Fuel Burning, 1950­2005, and Atmospheric Concentrations of Carbon Dioxide, 1960­2005 Carbon Temper- Year Dioxide ature Emissions (parts per (degrees (bill. tons mill. by vol.) Celsius) of carbon) 1950 n.a. 13.87 1.63 1955 n.a. 13.89 2.04 1960 316.9 14.01 2.58 1965 320.0 13.90 3.14 1970 325.7 14.02 4.08 1975 331.2 13.94 4.62 1980 338.7 14.16 5.32 1981 339.9 14.22 5.16 1982 341.1 14.03 5.11 1983 342.8 14.25 5.10 1984 344.4 14.07 5.27 1985 345.9 14.03 5.43 1986 347.2 14.12 5.60 1987 348.9 14.27 5.73 1988 351.5 14.30 5.95 1989 352.9 14.19 6.07 1990 354.2 14.37 6.14 1991 355.6 14.32 6.23 1992 356.4 14.14 6.10 1993 357.0 14.14 6.10 1994 358.9 14.25 6.23 1995 360.9 14.37 6.40 1996 362.6 14.25 6.55 1997 363.8 14.40 6.68 1998 366.6 14.56 6.67 1999 368.3 14.33 6.51 2000 369.5 14.32 6.64 2001 371.0 14.47 6.82 2002 373.1 14.55 6.95 2003 375.6 14.52 7.25 2004 377.4 14.48 7.57 2005(prel) 379.6 14.60 n.a. Source: GISS, BP, IEA, CDIAC, DOE, and Scripps Inst. of Oceanography. Figure 1 . Global Average Land-Ocean Temperature at Earth's Surface,1880­2005 Figure 3. Carbon Emissions from Fossil Fuel Burning, 1950­2004 PartsperMillionDegreesCelsiusBillionTons Source: GISS Source: UN, BP, DOE, IEA Source: Scripps Inst. Oceanography 1960 1970 1980 1990 2000 2010 Figure 2. Atmospheric Concentrations of Carbon Dioxide, 1960­2005 1880 1905 1930 1955 1980 2005 1950 1960 1970 1980 1990 2000 2010 300 325 350 400 375 13.2 13.6 14.0 14.4 14.8 0 2 4 6 8 Notes watch Institute, 25 January 2006. For comparison purposes, there are 159 liters per barrel. A ton con- tains 1,262 liters of ethanol or 1,136 liters of bio- diesel. A liter of ethanol contains roughly 68 percent as much energy as a liter of gasoline, while a liter of biodiesel contains roughly 87 percent as much as a liter of diesel. 2. Ibid. 3. Ibid. 4. Production numbers from ibid.; gasoline consump- tion U.S. Department of Energy, Energy Information Administration, Petroleum Information Monthly, Feb- ruary 2006. 5. Berg, op. cit. note 1. 6. Ibid. 7. Ibid. 8. Ibid. 9. Ibid.; National Biodiesel Board, "Biodiesel Production Soars," press release (Jefferson City, MO: 8 Novem- ber 2005). 10. "Biofuels and the International Development Agenda," F.O. Licht's World Ethanol & Biofuels Report, 8 July 2005. 11. Ibid. 12. Ibid. 13. Organisation for Economic Co-operation and Devel- opment (OECD), Working Party on Agricultural Policies and Markets, Agricultural Market Impacts of Future Growth in the Production of Biofuels (Paris: Feb- ruary 2006). 14. "Rising Ethanol Prices May Hit Brazilian Flex-fuel Car Sales," F.O. Licht's World Ethanol & Biofuels Report, 9 March 2006. 15. Jon Birger, "Wanna Make a Bet on Biofuels?" Fortune, 31 January 2006. 16. "World Ethanol Production 2005 to be Higher than Expected," F.O. Licht's World Ethanol & Biofuels Report, 24 October 2005. 17. Ibid. 18. Eric Martinot et al., Renewables 2005 Global Status Report (Washington, DC: Worldwatch Institute, 2005), p. 10. 19. BP, Statistical Review of World Energy (London: 2005). 20. "Biofuels and the International Development Agenda," op. cit. note 10. 21. Martinot et al., op. cit. note 18. 22. Chris Kraul, "Sweet Source of Growth," Los Angeles Times, 10 April 2006. 23. "Food Industry Calls for Biodiesel Alternatives," Reuters, 4 April 2006; Martin von Lampe, Agricultural Market Impacts of Future Growth in the Production of Biofuels (Paris: OECD, 2006), p. 15. 24. "USDA Raises Corn Use Estimate for Fuel Ethanol Production," F.O. Licht's World Ethanol & Biofuels Report, 8 March 2006. 25. Worldwatch Institute, "Biofuels for Transportation: Global Potential and Implications for Sustainable Agriculture and Energy in the 21st Century," prepared for the German Ministry of Food, Agricul- ture and Consumer Protection in coordination with the German Agency for Technical Cooperation and the German Agency of Renewable Resources (Wash- ington, DC: 2006). 26. "Boom in US Fuel Ethanol Industry Shows No Sign of Slowing Down," F.O. Licht's World Ethanol & Biofu- els Report, 21 February 2006. CLIMATE CHANGE IMPACTS RISE (pages 42­43) 1. Goddard Institute for Space Studies, NASA, "Global Temperature Trends: 2005 Summation," January 2006, at data.giss.nasa.gov/gistemp/2005, viewed 15 March 2006. 2. Ibid. 3. Ibid. 4. NASA, "2005 Warmest Year in Over a Century," at www.nasa.gov/vision/earth/environment/2005_war mest.html, 24 January 2006, viewed 20 February 2006. 5. Data for 1996­2003 from Timothy Whorf, Scripps Institution of Oceanography, University of Califor- nia, La Jolla, CA, e-mail to author, 18 January 2005; 2004­05 data from Dr. Stephen Piper, Carbon Dioxide Research Group, Scripps Institution of Oceanography, University of California, La Jolla, CA, e-mail to author, 13 March 2006. 6. Data for 1959­95 from C. D. Keeling and T. P. Whorf, "Atmospheric Carbon Dioxide Record from Mauna Loa," Carbon Dioxide Information Analysis Center, Scripps Institution of Oceanography, Uni- versity of California, La Jolla, CA. 7. National Oceanic and Atmospheric Administration, "Climate of 2005--Annual Report," National Climatic Data Center, 13 January 2006, at www.ncdc.noaa.gov/oa/climate/research/2005/ann/ global.html, viewed 21 March 2006. 8. Jill Hummels, "Greenland's Glaciers Moving Faster, Losing Mass," press release (Lawrence, KS: Univer- sity of Kansas, 17 February 2006). 9. Paul R. Epstein and Evan Mills, Climate Change Futures: Health, Economic and Ecological Dimensions (Boston, MA: Harvard Medical School, Center for Health and Global Environment, 2005), p. 11. 10. Ibid. 11. Ibid., p. 101. 132 Vital Signs 2006­2007 Notes 12. Stefan Lovgren, "Climate Change Creating Millions of `Eco Refugees,' UN Warns," National Geographic News, 18 November 2005. 13. Doug Struck, "Inuit See Signs in Arctic Thaw," Washington Post, 22 March 2006. 14. Data for 2001­05 calculated by Worldwatch with data from BP, BP Statistical Review of World Energy (London: 2005). 15. Urs Siegenthaler et al., "Stable Carbon Cycle­Climate Relationship During the Late Pleistocene," Science, 25 November 2005, pp. 1313­17. 16. Elizabeth Kolbert, "Annals of Science: The Climate of Man," The New Yorker, three-part series, 25 April, 2 May, and 9 May 2005. 17. American Association for the Advancement of Sci- ence, "Carbon Dioxide Level Highest in 650,000 Years," press release (Washington, DC: 24 Novem- ber 2005); "Climate Change: The Big Emitters," BBC News, 4 July 2005. 18. Natural Resources Defense Council, Climate Change: In-Depth (Washington, DC: 5 January 2005). 19. International Energy Agency, World Energy Outlook 2004 (Paris: 2004). 20. David Ignatius, "Is It Warm in Here? We Could Be Ignoring the Biggest Story in Our History," Washing- ton Post, 18 January 2006; "Global Warming: The Signs and the Science," PBS Documentary, 2 Novem- ber 2005. 21. "FACTBOX: Europe's Emissions Trading Scheme," Reuters, 28 November 2005. 22. "Lessons Learned in 2005," Point Carbon, 24 Janu- ary 2006. 23. Pew Center on Global Climate Change, Learning from State Action on Climate Change (Arlington, VA: March 2006). WEATHER-RELATED DISASTERS AFFECT MILLIONS (pages 44­45) 1. Munich Reinsurance Company (Munich Re), Nat- CatSERVICE, e-mail to author, 19 January 2006. 2. Ibid. 3. Munich Re, Topics Geo Annual Review: Natural Cata- strophes 2005 (Munich: 2006), p. 7; Munich Re, Hurricanes--More Intense, More Frequent, More Expensive (Munich: 2006), p. 4. 4. Munich Re, Hurricanes, op. cit. note 3, p. 4. 5. Ibid., p. 7; Thomas Knutson, "Impact of CO2- induced Warming on Simulated Hurricane Intensity to the Choice of Climate Model and Convective Parameterization," Journal of Climate, 15 September 2004, pp. 3477­95. 6. Munich Re, Hurricanes, op. cit. note 3, pp. 7­8; C. D. Hoyos et al., "Deconvolution of the Factors Contributing to the Increase in Global Hurricane Intensity," Science Express, 16 March 2006. 7. Worldwatch calculation based on Center for Research on the Epidemiology of Disasters (CRED), EM-DAT: The OFDA/CRED International Disaster Database, viewed 9 March 2006. CRED data are continuously revised; the calculations include drought, extreme temperature events, floods, slides, wildfires, and windstorms. 8. CRED, op. cit. note 7. While fatality estimates vary between CRED and Munich Re, both show a decrease in fatalities from 2004 to 2005. 9. International Federation of Red Cross and Red Cres- cent Societies, World Disasters Report 2005 (Geneva: 2005), p. 53. 10. Munich Re, Topics Geo Annual Review, op. cit. note 3, p. 24. 11. Hillary Rosner, "Rain Forest Gets Too Much Rain, and Animals Pay the Price," New York Times, 7 March 2006. 12. Ibid. 13. U.N. International Strategy for Disaster Reduction, "Governments Must Accelerate Their Efforts to Make Disaster Risk Reduction a National Priority," press release (Geneva: 18 January 2006). 14. Munich Re, Topics Geo Annual Review, op. cit. note 3, p. 32. 15. U.N. International Strategy for Disaster Reduction, op. cit. note 13. 16. Ibid. 17. International Federation of Red Cross and Red Cres- cent Societies, op. cit. note 9, p. 44. 18. Ibid. 19. Citizens' Disaster Response Center, "Programs and Services," at www.cdrc-phil.org. HYDROPOWER REBOUNDS SLIGHTLY (pages 46­47) 1. BP, BP Statistical Review of World Energy 2005 (Lon- don: 2005). 2. Ibid. 3. Eric Martinot, Renewable 2005 Global Status Report (Washington, DC: Worldwatch Institute, 2005). 4. BP, op. cit. note 1. 5. Ibid. 6. U.S. Department of Energy (DOE), Energy Informa- tion Administration (EIA), International Energy Out- look 2005 (Washington, DC: 2005). 7. Martinot, op. cit. note 3. 8. BP, op. cit. note 1. 9. "Three Gorges Dam to be Completed by May," China News, 10 January 2006. Vital Signs 2006­2007 133