1. Global Climate Change Chapter 13-3

2. Some of the infrared radiation passes through the atmosphere, and some is absorbed and re-emitted in all directions by greenhouse gas molecules. The effect of this is to warm the Earth’s surface and the lower atmosphere. Some solar radiation is reflected by the Earth and the atmosphere Solar radiation passes through the clear atmosphere Most radiation is absorbed by the Earth’s surface and warms it Infrared radiation is emitted from the Earth’s Surface The Greenhouse Effect

3. We know about the effects of Greenhouse Gases (GHG) 1.Carbon dioxide* 2.Methane* - CH 4 3.Nitrous oxide* - N 2 O 4.CFCs – chlorofluorocarbons** 5.Water vapor *These are increasing due to human activities, primarily burning of fossil fuels ** Being phased out, but persist in the atmosphere for decades

4. Primary Pollutants Secondary Pollutants SourcesNatural Stationary COCO 2 SO 2 NONO 2 Most hydrocarbons Most suspended particles SO 3 HNO 3 H 2 SO 4 H2O2H2O2 O3O3 PANs MostandsaltsNO 3 – Mobile SO 4 2 –

5. Examples of Greenhouse Gases Affected by Human Activities CO 2 CH 4 N 2 O Pre-industrial concentration288 ppmv848 ppbv285 ppbv Concentration in 1999366 ppmv1800 ppbv312 ppbv 100 year Global Warming Potential121310 Atmospheric lifetime (years)50-200 a 12 b 120 The main thing that contributes to greenhouse gas emissions is the burning of fossil fuels since the Industrial Revolution How does the pre-industrial level of CO 2 compare to 1999?

6. Source: Based on IPCC (1994) CO 2 Concentrations Over the Past 1000 Years

7. Data on ice core samples taken in Antarctica give us a picture of climate that goes back thousands of years Map of the continent of Antarctica

8. Atmospheric gases and particles are trapped in the ice and can be analyzed to determine the composition of the atmosphere at different points in time. The deeper the core, the longer ago the ice was laid down. This one-meter long section of ice core from the West Antarctic Ice Sheet project shows a dark ash layer. (Photo credit: Heidi Roop)

9. Atmospheric carbon dioxide does vary over time What relationship do you see between temperature and CO 2 levels? Does one go up first? What makes the temps go up in the first place?

10. Milankovitch cycles – periodic changes in earth’s orbit begin the warming periods (end of ice ages) With warmer temps, more CO 2 goes into the atmosphere from the oceans, which raises temps even more This is called a positive feedback system

11. Look at this graph again. What is the highest level of CO 2 in ppm over the last 400,000 years (except for the present)?

12. Current levels of atmospheric CO 2 : higher than they have been in recorded history http://co2now.org/ This data is from Feb. 2012

13. Latest data from Feb. 2013

14. Atmospheric carbon dioxide levels 1960-2000 This graph is called the Keeling Curve – famous graph you should know! This is data collected at a station in the Pacific from 1960-2000 Keeling was one of the first scientists to document the consistent rise in CO 2 levels Notice the yearly cycle going up and down – can you explain this? But overall, the trend is clearly upward

15. Time-lapse history of human global CO2 emissions http://www.youtube.com/watch?v=kqV-kx2ClXU&feature=related So if CO 2 levels are correlated with temperature, then we expect global temps to rise since the levels of CO 2 have risen. And that is what we see…..

16. This graph shows annual mean global temperature anomalies over the period 1880-2001. The zero line represents the long term mean temperature from 1880-2001, and the red and blue bars are showing annual departures from that mean. As is evident in the graph, 2001 was second only to 1998 in terms of global temperature, and the trend has been toward increasing temperatures at least since the beginning of the 20th century. Land temperatures have greater anomalies than the ocean, which is to be expected since land heats up and cools down faster than water. Global Warming Data from NOAA

17. Graphic showing global temperatures warming since 1880 http://www.nasa.gov/topics/earth/features/2011-temps.html

18. 2010 According to NOAA scientists, 2010 tied with 2005 as the warmest year of the global surface temperature record, beginning in 1880. This was the 34th consecutive year with global temperatures above the 20th century average. 2011 NASA reports 2011 was the ninth warmest year on record What about 2012? See next slide.

19. YearGlobal [63] [63] Land [64] [64] Ocean [65] [65] 20100.65901.07480.5027 20050.65231.05050.5007 19980.63250.93510.5160 20030.62190.88590.5207 20020.61300.93510.4902 20060.59780.90910.4792 20090.59570.86210.4953 20070.59141.08860.3900 20040.57790.81320.4885 20120.57280.89680.4509 10 warmest years on record (°C anomaly from 1901–2000 mean)°C 2012 is in the top 10 warmest years, too.

20. What evidence do we have that human activities are the cause of global warming? Radioisotopes of carbon in the atmosphere have revealed that more and more of the carbon is the type found in fossil fuels, and a lower percent is the type of carbon that has normally occurred in the atmosphere.

21. IPCC – Intergovernmental Panel on Climate Change Established to be an objective source of information on climate change for policy makers worldwide made conclusions and reports based on many scientific studies 2001 IPCC released third report – “states baldly that global warming, unprecedented since the end of the last ice age, is ‘very likely’”; debate among scientists is effectively ended 2007 IPCC concluded with statistical certainty (90%) that human activity is contributing to global warming See their report: http://www.ipcc.ch/pdf/assessment-report/ar4/syr/ar4_syr.pdf

22. Nobel Peace Prize Nobel Peace Prize was awarded in 2007 to Al Gore, former Vice President of U.S., and the IPCC for work on the issue of climate change What does global warming have to do with world peace?

23. Scientific consensus There is scientific consensus that global climate change in happening and that human activity is the cause. There is not really any more debate in the scientific community. There are still a few people who are considered climate skeptics, but not very many. Some of these “contrarians” are the same people who were skeptical of and argued against the dangers of tobacco, the threat to the ozone layer, and the cause of acid rain – all of which have been scientifically proven to be true. See the book Merchants of Doubt and the website Union of Concerned Scientists for more information.

24. Consequences of global warming 1.Rising sea levels – due to (1) melting of glaciers and polar ice (documented already) (2) thermal expansion of ocean at warmer temps How will this affect polar regions? Islands? Coastal cities?

25. Documented sea level rise from 1880-2000

26. Effects of a 1m rise in sea level Areas in red will be flooded if sea levels rise 1m

27. 2. Dwindling Arctic and Antarctic sea ice Another example of positive feedback – as the ice melts, there is less white and more dark surface to absorb radiation from the sun. This is called decreased albedo, or reflectivity. Temperatures go up even more.

28. What does this tell you?

29. Since 1995 Reports of Antarctic ice shelves breaking up (predictions coming to reality)

30. 3. Melting permafrost Permafrost is a carbon sink and when it melts, releases more carbon into the atmosphere, making global warming even worse – another example of positive feedback Consequences of global warming

31. Studies have already documented that this is occurring.

32. 4. Human health problems More problems with mosquitoes, diseases they transmit Ground-level ozone increases, leading to breathing problems

33. CLIMATE CHANGE Temperature Rise 1 (Sea level Rise 2 ) Hydrologic Extremes Urban Heat Island Effect Air Pollution Vector-borne Diseases Water-borne Diseases Water resources & food supply Environmental Refugees Heat Stress Cardiorespiratory failure Respiratory diseases, e.g., COPD & Asthma Malaria Dengue Encephalitis Hantavirus Rift Valley Fever Cholera Cyclospora Cryptosporidiosis Campylobacter Leptospirosis Malnutrition Diarrhea Toxic Red Tides Forced Migration Overcrowding Infectious diseases Human Conflicts 1 2°C by yr. 2100 2 49 cm “ “ IPCC estimates Source: Jonathan Patz, 1998 HEALTH EFFECTS OF CLIMATE CHANGE

34. Consequences of global warming 5. Changes in weather patterns, such as more severe storms, changes in precipitation The frequency of downpours and heat waves, as well as the power of hurricanes, has increased so dramatically that "100-year storms" are striking some areas once every 15 years

35. Hurricanes increase in strength over warm water, could become more intense with global warming

36. Consequences of global warming 6. Agriculture Decrease in crop yield due to drought, floods Some areas will have higher yields due to longer growing season Increased need for irrigation

37. Consequences of global warming 7. Effects on plants and animals Organisms in ecosystems are adapted for certain climate and if that changes, plants and animals there may not survive (adaptation in plants and animals takes time and global warming is changing things quickly), Ex: polar bear – threatened by loss of sea ice that is necessary for successful hunting, Ex: golden toad of Costa Rica’s cloud forest – now extinct due to climate change there

38. Coral bleaching occurs at warming temps – only takes a sustained increase of about 1°C for corals to bleach Healthy coral reef with high biodiversity Bleached coral reef with low biodiversity

39. Current and Projected Ranges of Sugar Maple Source: Redrawn from Davis and Zabinski, 1992 Present RangeOverlapPredicted Range Prediction based on increased temperature Prediction based on increased temperature and moisture reduction

40. Consequences of global warming

41. UAB researchers have documented that king crabs, once absent from the Antarctic, are invading because the ocean temperatures are warmer. This is bad news for the species that live there which are not adapted to survive predation by shell-crushing crabs. Consequences of global warming

42. 8.Ocean acidification – normal ocean pH is close to 8 but it is dropping due to addition of CO 2 which forms an acid in the water Shelled organisms can’t handle the lower pH and are being affected Sea urchin larvae don’t develop normally – UAB research Consequences of global warming

43. Kyoto Protocol, 1997 International agreement to reduce greenhouse gas emissions About 120 countries agreed, U.S. has not U.S. objections: negative economic impacts, developing countries not held to same protocol as developed countries (not seen as fair) Expires in 2012

44. Copenhagen Accord, 2009 U.N. sponsors a yearly meeting of many of the world’s countries to discuss global climate change Recent outcome: Copenhagen Accord – non-binding agreement to combat climate change Some of the main points: Recognizes the scientific view that an increase of 2°C should be the limit in order to combat climate change Countries set goals to reduce in GHG emissions Reduction in deforestation is critical Endorsed continuation of Kyoto Protocol Funding/incentives should be provided to developing countries

45. Copenhagen Accord, 2009 Criticism Not a legal agreement Was drafted by only 5 countries Does not say where funding will come from Sets no real targets for emissions reductions Countries only “took note” of the accord, did not adopt it

46. Summary of global warming/cooling components:

47. What can we do to reduce CO2 emissions? Increase energy efficiency – use less fossil fuels Use cleaner fossil fuels, i.e., natural gas Government intervention – i.e., laws, tax incentives, international agreements

48. Carbon sequestration Also called Carbon Capture and Storage (CCS)

49. Cap and trade, or carbon credits

50. Develop and use alternative fuels that produce little or no CO2 More on this in the unit on energy

51. Summary video to end with…. http://www.youtube.com/watch?v=KYLGBIiq6Wg