550 likes | 936 Views
CLIM 101: Global Warming: Weather, Climate and Society. Introduction to Global Warming. Jagadish Shukla. Lecture 1, 31 Aug 2010. Outline Introduction to Global Warming. What is Global Warming? What is Greenhouse Effect? Observed Changes in Climate
E N D
CLIM 101: Global Warming: Weather, Climate and Society Introduction to Global Warming Jagadish Shukla Lecture 1, 31 Aug 2010
Outline Introduction to Global Warming What is Global Warming? What is Greenhouse Effect? Observed Changes in Climate Observed Changes in Greenhouse Gases (GHG) Hypothesis: Increases in GHG cause Global Warming Testing hypothesis: IPCC Projections of Climate Change Global Carbon Dioxide (CO2) Emissions Adaptation, Mitigation and Geo-engineering Ethics of Climate Change Sustainable Development The Global Challenge
Global Warming Global Warming is the increase in the average temperature of the Earth’s near surface air and oceans since the mid-20th century and its projected continuation. (Wikipedia) Global Temperature Change (oC) Annual Mean 5-year Mean 0.76°C (1.4°F) since 1900 0.55°C (1.0°F) since 1979
Linear trend of annual mean temperatures Trend 1901-2005 Trend 1979-2005
The Greenhouse Effect(The Cause of Global Warming) • If there were no greenhouse gases the Earth’s temperature would be about 0F(not 59F) • Greenhouse effect is real; without it, the Earth would be uninhabitable. • Feedbacks amplify the warming by greenhouse gases.
A Tale of Three Planets MARS Sun Distance = 1.56 AU F = 592 W/m2 Albedo = 17% Tsfc = 210 K EARTH Sun Distance = 1.00 AU F = 1367 W/m2 Albedo = 30% Tsfc = 288 K VENUS Sun Distance = 0.72 AU F = 2639 W/m2 Albedo = 78% Tsfc = 737 K Mars: −63oC Earth: 15oC (59oF) Surface Temperature Venus: 464oC
The Greenhouse Effect(The Cause of Global Warming) • If there were no greenhouse gases the Earth’s temperature would be about 0F(not 59F) • Greenhouse effect is real; without it, the Earth would be uninhabitable. • Feedbacks amplify the warming by greenhouse gases.
Let us look at the Observations.
Sea Level Rise over the Last Century • thermal expansion • added freshwater (melting)
Arctic Sea Ice is Disappearing 2007: 38% below average 2008: 34% below average
Let us look at the Greenhouse Gases.
(Net) Global Warming • Warming • 1. Greenhouse gases (CO2, CH4, N2O) • CO2: Carbon Dioxide : Emission from fossil fuel • CH4: Methane : Agriculture • N2O: Nitrous Oxide • 2. Land use change • Cooling • Aerosols • Man made/Natural • Volcanoes ※Rate of increase of GHG is largest in 10,000 years
Evidence for Human-induced Changes in GHGs (Overwhelmingly convincing!) ※Rate of increase of GHG is largest in 10,000 years
Monthly Mean Carbon Dioxide NOAA CMDL Carbon Cycle Greenhouse Gases Atmospheric carbon dioxide mixing ratios determined from the continuous monitoring programs at the 4 NOAA CMDL baseline observations. Principal investigator: Dr. Pieter Tans. NOAA CMDL Carbon Cycle Greenhouse Gases. Boulder, Colorado. (303) 497-6678
Degrees Celsius above or below 30-year average global temperature
An Elegant Science Question: Are increases in greenhouse gases responsible for increase in global mean temperature (global warming)? 14.6 Global Temperature & Carbon Dioxide 1860-2008 395 14.4 365 14.2 335 14.0 13.8 305 13.6 275 13.4
Hypothesis • Greenhouse gases increase due to human activities. • Global warming is due to increases in greenhouse gases. • Global warming is due to human activities. Alternative Hypothesis • Global warming is due to natural variations of climate. How do you test such hypotheses? Climate Models; IPCC
What is a Climate Model? • Equations of motions and laws of thermodynamics to predict rate of change of: • T, P, V, q, etc. (A, O, L, CO2, etc.) • 10 Million Equations: • 100,000 Points × 100 Levels × 10 Variables • With Time Steps of:~ 10 Minutes • Use Supercomputers
Intergovernmental Panel on Climate Change (IPCC) IPCC has been established by WMO and UNEP to assess scientific, technical and socio- economic information relevant for the understanding of climate change, its potential impacts and options for adaptation and mitigation. Working Group I: The Physical Science Basis Working Group II:Impacts, Adaptation and Vulnerability Working Group III:Mitigation of Climate Change • Largest number of U.S. scientists: nominated by the U.S. Govt. • Highest skepticism : “U.S. Govt.”
Projection of Global Warming Mean of 15 Models Surface Air Temperature Difference (Sresa1b YR 71-100) minus (20c3m 1969-98), Global Average = 2.61
Increase in Surface Temperature Observations Predictions with Anthropogenic/Natural forcings Predictions with Natrual forcings 1.0º C IPCC 2007
Global Mean Sea Level Relative to the 1980 to 1999 mean
WANTED: New Home for My Country Mohamed Nasheed President of the Maldives
Increases in very high temperatures will have wide-ranging effects. Higher Emissions Scenario, 2080-2099 Number of Days Over 100ºF Recent Past, 1961-1979 Lower Emissions Scenario, 2080-2099
Global Warming in Virginia Annual 3oCelcius warmer Between 0% to 10% more precipitation
Summary of Major Impacts • Heat waves; Droughts; Forest fires • Coastal area’s habitability (sea level) • Health (cholera; malaria; dengue; lyme) • Biodiversity: extinction of species • Agriculture (uneven); Tropics (serious) • Water (drying; snow melt; glacier melt)
STERN REVIEW: The Economics of Climate Change • Ignoring climate change will damage economic growth. (The poorest countries and people will suffer earliest and most.) • 2. The damage will be on a scale similar to those associated with the great wars and the economic depression. • 3. It will be difficult or impossible to reverse changes. • 4. The earlier effective action is taken, the less costly it will be.
STERN REVIEW: Main threat to a sustainable Earth • Damages from business-as-usual scenario would be at least 5% and up to 20% of Global GDP a year • Costs of removing most of the climate risk are around 1% of GDP per year • This is equivalent to paying on average 1% more for what we buy • “We can grow and be green” Sir Nicholas Stern
What We Can Do Let us look at the emissions
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
What is 4 tons of CO2 per year? • Drive 10,000 miles per year with a car that gives 30 miles per gallon. • Fly 10,000 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)
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.
What We Can Do (Individuals; Institutions; Governments) • Immediate action on conservation and energy efficiency • Help elect enlightened leaders and policymakers • Educate the public • Social, economic, scientific, technological research • Create new institutions • International dialogues and negotiations • Tax; Cap and Trade
Challenges and Opportunities • Provide food (and good life) to 9 billion people. • Reduce odds of catastrophic impacts. • No magic bullet (push on all fronts). • Must reduce demand of CO2 (put a price). • Cost in GDP ‘small’ but how to distribute? • US must lead. • Roles of Govts, Industry, Civil society
Sustainable Development “The balance of economic growth, social justice, and environmental health that meets the needs of present generation and enables future generations to meet their needs.” Our Common Future (1987) The Brundtland Report
World Population World Population from AD 1 to 2002 Planet under Stress Since 1750, population increased 10 times; Production per person also increased 10 times; Therefore, total world economic production increased 100 times. Therefore, the impact of human activity on life-sustaining system on earth increased enormously. World Income from 1500 to 2001 World Income per Capita from 1500 to 2001 Source: Data from Maddison (2001), Calculated using data from Maddison (2002) ‘Common Wealth’ by Jeffrey Sachs, 2008
Global Poverty From 1820 to 1992 ‘Common Wealth’ by Jeffrey Sachs, 2008