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CLIM 101: Global Warming: Weather, Climate and Society

CLIM 101: Global Warming: Weather, Climate and Society. Carbon Footprint, Energy Use. Lecture 17, 2 Nov 2010. Evidence for Human-induced Changes in GHGs (Overwhelmingly convincing!). ※Rate of increase of GHG is largest in 10,000 years. Carbon Cycle. Carbon Cycle. also subduction,

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CLIM 101: Global Warming: Weather, Climate and Society

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  1. CLIM 101: Global Warming: Weather, Climate and Society Carbon Footprint, Energy Use Lecture 17, 2 Nov 2010

  2. Evidence for Human-induced Changes in GHGs (Overwhelmingly convincing!) ※Rate of increase of GHG is largest in 10,000 years

  3. Carbon Cycle

  4. Carbon Cycle also subduction, metamorphosis, and volcanism Fossil fuel burning

  5. Total known fossil fuel deposits: 4500 Gt

  6. Are there changes in the efficiency of the land and/or ocean sinks for CO2 ? Decay and burning of live biomass Fossil fuel burning Photosynthesis Solution

  7. Fraction of the CO2 emitted by human activities which remains in the atmosphere airborne fraction =atm / (fossil fuel + cement + land use emissions)

  8. CO2 in the Atmosphere CO2 Concentration Remained in the ATM.

  9. What are the implications for global warming? • Residence time of CO2 in the atmosphere is difficult to interpret. • Roughly 10% of the carbon in the fossil fuel reservoir has been burned so far and at the current rate it will take us 500 years to burn the rest of it. • Most of the carbon in the fossil fuel reservoir is in the form of coal. • Burning all known coal deposits would add to the atmosphere-ocean reservoir a mass of carbon roughly equivalent to 5 x the carbon presently in the atmosphere and 8 x the pre-industrial level. • The true size of the fossil fuel reservoir may be larger but it’s hard to say by how much because we don’t know how much oil shale and methane hydrates we will be able to utilize. • Were it not for the biosphere, and especially the marine biosphere, most of the Earth’s carbon would be in the form of atmospheric CO2 as it is on Venus.

  10. Global CO2 Emissions • In 2005, global emissions were 27 billion tons of CO2 • Per capita, emission (27/6.7 billions) • = 4 tons/per capita/yr • US emissions = 20 tons/per capita/yr

  11. What is 4 tons of CO2 per person per year? • Drive 10,000 miles per year with a car that gives 30 miles per gallon. • Fly 10,000 passenger miles per year. • 300 KWH per month of electricity from coal fired plant. • 600 KWH per month of electricity from natural gas fired plant. • (my house: 580 KWH in Mar. 2008; 380 KWH in Mar. 2009)

  12. Unit of measurement of Atmospheric CO2 Concentration The present concentration is 380 parts per million (ppm): fraction of molecules 380 CO2 molecules for each million air molecules 0.38 CO2 molecules for each thousand air molecules 0.038% of the air molecules are CO2 0.00038 equivalent to 38 cents per $1000 Has increased from 315 ppm in 1958 to 380 ppm today

  13. Atmospheric Carbon Dioxide (CO2) At Mauna Loa, Hawaii

  14. Unit of measurement of Carbon Emission Metric tons of carbon (1 metric ton = 2200 lb) note that we only count the mass of carbon atom in CO2 If M is molecular weight M(C) = 12 M(O) = 32 M(CO2) = 44 M(C)/M(CO2) = 12/44 = 0.27 CO2 = 20 tons per capita/yr  C = 20X0.27 = 5.4 tons per capita/yr For reference, consumption of energy and products by the average American results in the emission of ~5.4 tons of carbon (tC) per year. US population is slightly more than 300 million. Hence, the US emissions are ~1600 MtC (megatons; millions of tons of carbon per year), or 1.6 about GtC (gigatons; billions of tons of carbon) The US accounts for 22% of the World current emissions, so the total global annual emission is roughly 1.6/0.22 = 7.2 GtC = 27 GtCO2

  15. How does 7.2 GtC compare with the amount that’s already in the atmosphere? To convert ppm to GtC, multiply 380 ppm by the mass of the atmosphere (5.12 x 1015Gt) and by M(C)/M(air molecules) = 12/29 = 0.414 (380 x 10-6 ) x (5.12 x 1015 Gt) x 0.414 = 806 GtC Hence each year carbon emissions due to human activities are equivalent to 7.2/806 or nearly 1% of the mass of carbon currently residing in the atmosphere. There is a small additional mass of carbon in the atmosphere in the form of methane.

  16. Distribution of regional GHG emissions in 2004 per capita, over the population of different country groupings 46% 54% • All Kyotogases including those from land-use • The percentages in the bars indicate a region’s share inglobal GHG emissions • • EIT Annex I: Eastern Europe • • Europe Annex II & M&T: Western Europe • • JANZ: Japan, Australia, New Zealand. • • Middle East • • Latin America & the Caribbean • • Non-Annex I East Asia • • South Asia • • North America: Canada, United States of America. • • Other non-Annex I: past Soviet Union • • Africa. • 5% of the world’s population (North America) emits 19.4%, while 30.3% (Non-Annex I South Asia) emits 13.1%.

  17. Which countries are emitting the most greenhouse gases? Total emissions Per capita emissions

  18. US Energy Consumption by Energy Source, 2004-2008

  19. US Primary Energy Consumption by Source & Sector, 2007

  20. US CO2 Emissions by Fuel & Sector, 2006

  21. How much do different activities contribute?

  22. US 2006 Carbon Dioxide Emission Sources by use Sector (Millions of Metric Tons)

  23. US GHGs Emissions, 2006 1062.6 (1062.6+171.3) (5906.7+1233.9)

  24. World CO2 Emissions World list: All countries >1,000 MMT CO2 or All regions >2,000 MMT CO2 by 2006  Source: US DOE Energy Information Administration (EIA)

  25. Primary Energy Consumption 2006 (US)

  26. Solar Biomass Wind Geothermal Renewable Energy Water Hydrogen & Fuel Cells

  27. Wind Power

  28. Recent US Trends: Encouraging • 9% drop in US emissions in past 2 years • (Recession; High gasoline price; Efficiency; Non-carbon energy) • Wind farms, Solar power plants rapidly increasing • Corporations concerned about risk, public opinion • EPA ready to regulate Carbon under the Clean Air Act • (Supreme court, 2007); ”A glorious mess”

  29. Center of Ocean-Land-Atmosphere studies

  30. Greenhouse Gas Emission Targets IPCC: 25% below the 1990 level by 2020 IPCC: 80% below the 1990 level by 2050 New York: 10% below the 1990 level by 2020 Vermont: 25% below the 1990 level by 2012 Virginia: 0% below the 2000 level by 2025 Waxman-Markey:17% below the 2005 level by 2020 Boxer-Kerry : 20% below the 2005 level by 2020

  31. Greenhouse Gas (GHG) Emissions (India)Sharma et. al (2008); PM Council (2008) GHG (1994) = CO2 (63%) + CH4 (33%) + N2O (4%) = CO2Eq GHG = CO2Eq unit: Million Metric Tons (Mt) Rate of Increase 2000-2004 (GHG): 4.2% per year

  32. Greenhouse Gas (GHG) Emissions (India)Sharma et. al (2008); PM Council (2008) 2004: CO2: 1.02 tons/person; Pop = 1079.7 million; Total CO2 = 1101.3 Mt; GHG = (CO2/.63) = 1748 Mt 2004 GHG emissions = 1.62 tons per person 1994: Pop: 914 million; Total CO2 = 793.5 Mt; GHG 1228 Mt (3% of global) 1993 GHG emissions = 1.34 tons/person 1994 - 2004: CO2 increase: 3.34% per year; GHG: 1.34 to 1.62 tons per capita

  33. Global Carbon Dioxide (CO2) Emissions (2004) (PM Council, 2008) Unit: Billion Metric Tons (Gt)

  34. 2020: Projections for CO2Emissions (India, USA) USA: 20% below 2004; 4.7Gt; (4.7/338.4M) ~ 14 tons/person India: 72% above 2004; 3Gt; (3/1332M) ~ 2.3 tons/person USA: 50% below 2004: 2.9Gt; (2.9/404M) ~7.2 tons/person India: 2% increase 2020-2050; 5.4Gt; (5.4/1620M) ~ 3.3 tons/person 3% increase 2020-2050; 7.3Gt; (7.3/1620M) ~ 4.5 tons/person 2050: Projections for CO2 Emissions (India, USA)

  35. Ethics of Global Warming • “Polluter must pay” (We (US) are the biggest polluters but we also have the biggest guns.) • Those who have contributed the least to global warming will suffer the most and the earliest. • Poor countries would like to improve the quality of life of their people (consume more energy). • Sustainable developement in a changing climate is challenged by population growth and exetreme poverty.

  36. Impacts Hit the Poor Hardest • 30 to 200 million people at risk of hunger with temperature rises of 2 to 3°C. • 0.7 to 4.4 billion people will experience growing water shortages with a rise of 2°C. Yields across Africa and Western Asia may fall by 15% to 35%

  37. THANK YOU! ANY QUESTIONS?

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