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Climate Control and Ozone Depletion

Climate Control and Ozone Depletion. Chapter 19. 19-1. CIVILIZATION HAS EVOLVED DURING A PERIOD OF REMARKABLE CLIMATE STABILITY, BUT THIS ERA IS DRAWING TO A CLOSE. WE ARE ENTERING A NEW ERA, A PERIOD OF RAPID AND OFTEN UNPREDICTABLE CLIMATE CHANGE. THE NEW CLIMATE NORM IS CHANGE.

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Climate Control and Ozone Depletion

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  1. Climate Control and Ozone Depletion Chapter 19

  2. 19-1 • CIVILIZATION HAS EVOLVED DURING A PERIOD OF REMARKABLE CLIMATE STABILITY, BUT THIS ERA IS DRAWING TO A CLOSE. WE ARE ENTERING A NEW ERA, A PERIOD OF RAPID AND OFTEN UNPREDICTABLE CLIMATE CHANGE. THE NEW CLIMATE NORM IS CHANGE. • LESTER R. BROWN

  3. Global Warming and Global Cooling Are Not New • Over the past 4.5 billion years the climate has been altered by • Volcanic emissions • Changes in solar input • Movement of the continents • Impacts by meteors • Over the past 900,000 years • Global Cooling and Global Warming • Glacial and interglacial (between ice ages) periods • Over the past 10,000 years • Interglacial period-- stable climate and avg. Global surface temp • Allowed agriculture and cities to flourish • Over the past 1,000 years • Temperature stable until we clear cut forests and burn fossil fuels • Over the past 100 years • Temperature changes • methods of determination-radioisotopes in rocks, fossils and ocean sediment, boreholes, tree rings, etc

  4. Estimated Changes in the Average Global Temperature of the Atmosphere

  5. Our Climate, Lives, and Economies Depend on the Natural Greenhouse Effect • Solar energy and the greenhouse effect warm the earth’s lower atmosphere and surface • Without the natural greenhouse effect • Cold, uninhabitable earth • 1% of lower atmosphere is made of greenhouse gases (water vapor, CO2, CH4, and N2O) • 1896 Arrhenius first recognized greenhouse effect Ice Cores Are Extracted by Drilling Deep Holes in Ancient Glaciers

  6. Human Activities Emit Large Quantities of Greenhouses Gases • Since the Industrial Revolution (275 years ago) • CO2, CH4, and N2O emissions higher • Main sources: agriculture, deforestation, and burning of fossil fuels • Correlation of rising CO2 and CH4 with rising global temperatures • CO2 has risen from 280 ppm to 384 ppm

  7. GREENHOUSE GASES • CARBON DIOXIDE • METHANE • NITROUS OXIDE (N2O) • CFCs • WATER VAPOR

  8. Greenhouse Gases CO2 – most abundant greenhouse gas (GHG) Sources: burning fossil fuels, deforestation Ice cores have shown that CO2 increasing in atmosphere – 35% higher than pre-Industrial Rev. • Natural cycling of CO2 levels • Seasonal shift in CO2 production; high fall; low spring • Ocean acts as “sink,” absorbing large amounts. • Vegetation acts as a sink (until it dies or is cut down) • Stays in the atmosphere 50- 200

  9. Other Greenhouse Gases Methane (CH4) – 21 times more warming effect than CO2 and increasing at 8 times the rate. Atmospheric lifetime= 12 years • Methane production is faster than what is being broken down • Main sources are wetlands, rice fields, fossil fuels, livestock

  10. Greenhouse Gases • Nitrous oxides – slow to breakdown • Atmospheric lifetime = 120 years • Provides 310 times more warming than CO2 • Sources are fossil fuels, fertilizers, deforestation • CFCs– absorb 10,000 X more infrared than CO2 • Atmospheric lifetime = 100 + • Sources are foams, aerosols, refrigerants, solvents • Water vapor – Warmed by CO2, the atmosphere is thus able to • absorb more water vapor. And • that water vapor, in turn, causes • further warming—it amplifies the • effects of carbon dioxide.

  11. Human Activities • Countries with the largest CO2 emissions • Per capita emissions of CO2 • Scientific and economic • studies • 2007: Field and Marland • CO2 will rise 3.3% a year • Tipping point • 2008: Aufhammer and Carson • China’s CO2 emission growth may be underestimated • Ice core analysis of air pollutants • 60% of CH4 emission are a result of humans

  12. Atmospheric Levels of CO2 and CH4, Global Temperatures, and Sea Levels Carbon Dioxide Methane Temp. Sea Level

  13. The Atmosphere Is Warming Mostly Because of Human Activities • 1988-Intergovernmental Panel on Climate Change (IPCC) • 90–99% likely that lower atmosphere is warming • 1906–2005: Ave. temp increased about 0.74˚C (1.3˚F) • 1970–2005: Annual greenhouse emissions up 70% • Past 50 years: Arctic temp rising almost twice as fast as the rest of the earth • Melting of glaciers and floating sea ice • Prolonged droughts: increasing • Last 100 years: sea levels rose 10–20 cm • 2007-Al Gore and the IPCC : Nobel Peace Prize • “…the earth has a fever. And the fever is rising… We are what is wrong, and we must make it right” • What natural and human-influenced factors could have an effect on temperature changes? • Amplify (give positive feedback) • Dampen (give negative feedback to)

  14. Simplified Model of Some Major Processes That Interact to Determine Climate

  15. Melting of Alaska’s Muir Glacier between 1948 and 2004

  16. Comparison of Measured Temperature from 1860–2007 and Projected Changes

  17. Is a Hotter Sun the Culprit? • Energy output from the sun affects the earth’s temperature. • Since 1975 • Lower atmosphere (Troposphere) has warmed • Stratosphere has cooled • This is not what a hotter sun would do!! • Atmosphere is heating from the bottom up…this indicates inputs at earth’s surface (from human activities) are the main cause.

  18. Can the Oceans Save Us? • Solubility of CO2 in ocean water • But, solubility of gases decreases as temp. of water increase • Help moderate temperature-remove 25-30% CO2 • Warmer oceans • CO2 levels increasing acidity • Effect on atmospheric levels of CO2 • Effect on coral reefs - ability of to make shells, could dissolve shells • Antarctica’s Southern Ocean (largest CO2 sinkand the North Atlantic Ocean • Decrease in CO2 uptake • Significance on global CO2 levels • Temperature, acidity, and the ability to absorb CO2 from atmosphere are changing due to humans. This can accelerate global warming.

  19. Uncertainty about the Effects of Cloud Cover on Global Warming • Warmer temperatures increase evaporation and create more clouds • Thick, light-colored low altitude clouds: decrease surface temperature • Thin, cirrus clouds at high altitudes: increase surface temperature • Effect of jet contrails on climate temperature – trails expand and turn into large cirrus clouds that release heat into the upper troposphere

  20. Outdoor Air Pollution Can Temporarily Slow Global Warming • Aerosols (suspended microscopic droplets of solid particles) and soot pollutants • Most light-colored sulfate particles produced by fossil fuel combustion tend to reflect incoming light- also serve as condensation nuclei and form clouds (more cooling) • BUT black carbon particulate matter emitted by diesel exhaust, burning forest and cooking fuels warms the atmosphere more than estimated

  21. Scientists do not expect aerosols or soot pollutants to enhance or counteract projected global warming • 1. Fall back to the earth or are washed out of the lower atmosphere within weeks, where as CO2 remains in the atmosphere for as long as 120 years! • 2. Reduction: especially in developed countries • Hmmm.. The decrease in some aerosols’ concentrations increase global warming!

  22. Enhanced Global Warming Could Have Severe Consequences • Why worry about it? How much and how fast • Tipping point and irreversible climate change • Worst-case scenarios • Ecosystems collapsing • Low-lying cities flooded • Wildfires in forests • Prolonged droughts: grasslands become dust bowls • More destructive storms • Glaciers shrinking; rivers drying up

  23. Projected Effects of Global Warming and the Resulting Changes in Global Climate

  24. 19-2 Severe Drought Is Increasing: The Browning of the Earth • Drought=evaporation exceeds precipitation • Accelerate global warming, lead to more drought • Biodiversity will decrease • NPP will decrease • Dry climate ecosystems will increase • Positive feedback-accelerate global warming and climate change= more drought

  25. Ice and Snow Are Melting • Why will global warming be worse in the polar regions? • Light colored ice and snow=reflect solar energy-cool earth • Melting exposed dark land=absorb more solar energy=polar are heat up • Important climate role of floating sea ice-precipitation • Mountain glaciers affected by • Average snowfall • Average warm temperatures • Europe’s Alps • Glaciers are disappearing • South America • Glaciers are disappearing • Greenland • Warmer temperatures

  26. Sea Levels Are Rising • 2007 IPPC-sea level will rise 18-59 cm this century • Expansion of warm water • Melting of land-based ice • What about Greenland? 1-2 meters from 2050-2010 • Projected irreversible effect • Degradation and loss of 1/3 of coastal estuaries, wetlands, and coral reefs • Disruption of coastal fisheries • Flooding of • Low-lying barrier islands and coastal areas • Agricultural lowlands and deltas • Contamination of freshwater aquifers • Submergence of low-lying islands in the Pacific and Indian Oceans and the Caribbean

  27. Areas of Florida to Flood If Average Sea Level Rises by One Meter

  28. Permafrost Is Likely to Melt: Another Dangerous Scenario • Carbon present as CH4 in permafrost soils and lake bottoms • 2004: Arctic Climate Impact Assessment • 10–20% of the permafrost might melt this century • Effect on • global • warming

  29. Ocean Currents Are Changing but the Threat Is Unknown • Melting glaciers, particularly in Greenland • Increased rain in the North Atlantic • Not thought to be an immediate problem on the ocean currents

  30. Extreme Weather Will Increase in Some Areas • Heat waves and droughts in some areas • Prolonged rains and flooding in other areas • Will storms get worse? • More studies needed • Hurricanes Katrina and Rita

  31. Global Warming Is a Major Threat to Biodiversity • Most susceptible ecosystems • Coral reefs • Polar seas • Coastal wetland • High-elevation mountaintops • Alpine and arctic tundra • What about • Migratory animals • Forests • Which organisms could increase with global warming? Significance? • Insects • Fungi • Microbes

  32. Climate Change Will Shift Areas Where Crops Can Be Grown • Regions of farming may shift • Decrease in tropical and subtropical areas • Increase in northern latitudes • Less productivity; soil not as fertile • Genetically engineered crops more tolerant to drought

  33. Climate Change Will Threaten the Health of Many People • Deaths from heat waves will increase • Deaths from cold weather will decrease • Higher temperatures can cause • Increased flooding • Increase in some forms of air pollution, more O3 • More insects, microbes, toxic molds, and fungi

  34. 19-3 Dealing with Climate Change Is Difficult • Global problem • Long-lasting effects • Long-term political problem • Harmful and beneficial impacts of climate change unevenly spread • Many proposed actions disrupt economies and lifestyles

  35. What Are Our Options? • Two approaches • Drastically reduce the amount of greenhouse gas emissions • Devise strategies to reduce the harmful effects of global warming • Will we reach a political tipping point before we reach irreversible climate change tipping points?

  36. Avoiding Catastrophe: We Can Reduce the Threat of Climate Change • Input or prevention strategies • Improve energy efficiency to reduce fossil fuel use • Stop cutting down tropical forests • Output strategy • Capture and store CO2 • Socolow and Pacala • Climate stabilization wedges • Keep CO2 emissions to 2007 levels by 2057 • Brown: need to do more • Cut CO2 emissions by 80% by 2020 • 2008 book: Plan B 3.0: Mobilizing to Save Civilization

  37. Output solutions • Massive global tree planting; how many? • Wangari Maathai • Great Wall of Trees: China and Africa • Plant fast-growing perennials on degraded land • Capturing and storing CO2

  38. Fifteen Ways to Cut CO2 Emissions

  39. Some Output Methods for Removing CO2 from the Atmosphere and Storing It

  40. Should We Use Geo-Engineering Schemes to Help Slow Climate Change? • CCS-Carbon capture and storage • Injection of sulfate particles into the stratosphere • Would it have a cooling effect? • Would it accelerate O3 depletion? • Remove HCl from seawater • Effects on ecology? • Pump up nutrient-rich deep ocean water and cause algal blooms • Re-ice the Arctic • If any of these fixes fail, what about a rebound effect?

  41. How Much Will It Cost to Slow Climate Change? • Short-term costs lower • Local and global economies may be boosted

  42. Governments Can Help Reduce the Threat of Climate Change • Strictly regulate CO2 and CH4 as pollutants • Cap-and-trade approach • Increase subsidies to encourage use of energy-efficient technology • Technology transfer

  43. We Can Move Beyond the Kyoto Protocol • 2004: Stewart and Wiener • New treaty needed • Should be led by the U.S. • Include the developing countries • Cap-and-trade emissions program • Set up 10 year goals

  44. Some Governments Are Leading the Way • Costa Rica: goal to be carbon neutral by 2030 • Norway: aims to be carbon neutral by 2050 • China and India must change energy habits • U.S. cities and states taking initiatives to reduce carbon emissions

  45. Some Companies and Schools Are Reducing Their Carbon Footprints • Major global companies reducing greenhouse gas emissions • Alcoa • DuPont • IBM • Toyota • GE • Wal-Mart • Fluorescent light bulbs • Auxiliary power units on truck fleets • Colleges and universities reducing greenhouse gas emissions • Oberlin College, Ohio, U.S. • 25 Colleges in Pennsylvania, U.S. • Yale University, CT, U.S. • What can you do?

  46. We Can Prepare for the Harmful Effects of Climate Change • Reduce greenhouse gas emissions as much as possible • Move people from low-lying coastal areas • Limit coastal building • Remove hazardous material storage tanks away from the coast • Genetically engineer crops more tolerant to drought • Stockpile 1–5 years of key foods • Waste less water • Connect wildlife reserves with corridors

  47. Our Use of Certain Chemicals Threatens the Ozone Layer • Ozone Thinning • Seasonal depletion in the stratosphere • Antarctica and Arctic • 1930: Midgely • Discovered the first CFC • 1984: Rowland and Molina • CFCs were depleting O3 • Other ozone-depleting chemicals Global Average Total Ozone Values in the Stratosphere from 1979–2005

  48. Why Should We Worry about Ozone Depletion? • Damaging UV-A and UV-B radiation • Increase eye cataracts and skin cancer • Impair or destroy phytoplankton • Significance?

  49. We Can Reverse Stratospheric Ozone Depletion • Stop producing all ozone-depleting chemicals • 60–100 years of recovery of the O3 layer • 1987: Montreal Protocol • 1992: Copenhagen Protocol • Ozone protocols: prevention is the key • Substitutes for CFCs are available • More are being developed • HCFC-22 • Substitute chemical • May still be causing ozone depletion

  50. Elements www.animationfactory.com

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