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Chapter 19 Outline Climate Disruption Chapter Outline CORE CASE STUDY Melting Ice in Greenland 19-1 How Is the Earth’s Climate Changing? 19-2 Why Is the Earth’s Climate Changing? SCIENCE FOCUS Using Models to Project Future Changes in Atmospheric Temperatures 19-3 What Are the Possible Effects of a Warmer Atmosphere? Individuals matter Konrad Steffen: Studying Melting Ice in Greenland 19-4 What Can We Do to Slow Projected Climate Disruption? SCIENCE FOCUS Have Climate Scientists Been Too Conservative? SCIENCE FOCUS Is Capturing and Storing CO2 the Answer? 19-5 How Can We Adapt to Climate Change? TYING IT ALL TOGETHER Melting Ice in Greenland and Sustainability Key Concepts 19-1 Considerable scientific evidence indicates that the earth’s atmosphere is warming at a rapid rate that is likely to lead to significant climate disruption during this century. 19-2 Scientific evidence strongly indicates that the earth’s atmosphere has been warming at a rapid rate since 1975 and that human activities, especially the burning of fossil fuels and deforestation, have played a major role in this warming. 19-3 The projected rapid change in the atmosphere’s temperature could have severe and long-lasting consequences, including increased drought and flooding, rising sea levels, and shifts in the locations of croplands and wildlife habitats. 19-4 We can reduce greenhouse gas emissions and the threat of climate disruption while saving money and improving human health if we cut energy waste and rely more on cleaner renewable energy resources. 19-5 While we can prepare for some climate change that is now inevitable, we could realize important economic, ecological, and health benefits by drastically reducing greenhouse gas emissions with the goal of slowing projected climate disruption. Key Questions and Concepts CORE CASE STUDY: Melting ice in Greenland. Greenland’s ice is melting at a slow and accelerating rate. If Greenland’s glaciers melt, it could raise sea level dramatically. The IPCC projects that global sea level is likely to rise by 7-23 inches this century. Other scientists suggest that sea level rise will be much greater. 19-1 How Is the Earth’s Climate Changing? A. Temperature and climate have been changing throughout the earth’s history. Climate shifts have occurred due to volcanic emissions, changes in solar input, continents moving on shifting plates, meteor strikes, and other factors. Alternating cycles of freezing and thawing are known as glacial and interglacial periods. B. Geologic records and atmospheric measurements provide a wealth of information about past atmospheric temperatures and climate. On average, over the past 900,000 years, there has been a cycle of global cooling and global warming. The cycles are known as glacial and interglacial periods. 19-2 Why Is the Earth’s Climate Changing? C. Certain gases in the atmosphere absorb heat and warm the lower atmosphere. A natural process called the greenhouse effect warms the lower troposphere and surface. D. The four major greenhouse gases in the lower atmosphere are water vapor, carbon dioxide, methane, and nitrous oxide. E. Climate change and human activities. 1. Humans have increased levels of greenhouse gases in the troposphere by use of fossil fuels, farming, use of inorganic fertilizers, burning forests, etc. Burning of fossil fuels has generated much of the CO2 increase. Methane emissions have risen as a result of raising livestock, extracting fossil fuels, creating landfills, and creating reservoirs. Nitrous oxide has risen because if increased use of nitrogen fertilizers. 2. There is evidence that the earth’s troposphere is warming, mostly because of human actions. The Intergovernmental Panel on Climate Change (IPCC) was formed in 1988 to evaluate possible future climate changes. The major findings of the IPCC are: a. The earth’s lower atmosphere is warming. b. Most of the increase in greenhouse gases is due to human activities. c. Changes in the atmosphere are beginning to change the climate. d. If greenhouse gas concentrations continue to rise, there will likely be rapid climate disruption. e. This disruption will likely cause ecological, economic, and social disruption. F. Carbon dioxide concentrations play an important role in determining the average temperature of the atmosphere. SCIENCE FOCUS: Using models to project future changes in atmospheric temperatures. To make predictions about how temperature will change in the future, scientists develop complex mathematical models to simulate many factors. These are projections of what is likely, as opposed to predictions. 1. Exceeding carbon dioxide levels of 450 ppm may push us beyond an irreversible tipping point. 2. The largest carbon dioxide emitters are China, the United States and the European Union. G. It is thought that most of the rise in temperature since 1980 could not be the result of increased solar output. H. Oceans lose some of their ability to remove carbon from the atmosphere as their temperatures rise. Oceans are also becoming more acidic because of increasing levels of carbon dioxide. I. The role of clouds in warming the atmosphere is largely unknown. J. Aerosols may temporarily slow warming by reflecting sunlight and serving as condensation nuclei for clouds. 19-3 What Are the Possible Effects of a Warmer Atmosphere? A. Most historic changes in the temperature of the lower atmosphere took place over thousands of years. Today we face a rapid projected increase. B. Severe droughts may increase. This may cause an increase in wildfires, declines inaccessible surface water and declining biodiversity. C. The melting of some of the world’s ice means that less sunlight is reflected back into space, and helps warm the troposphere further. Mountain glaciers are a major source of fresh water and they are shrinking. D. Permafrost will likely melt, emitting significant amounts of methane and carbon dioxide into the atmosphere. E. Sea levels are rising faster than expected, and will likely rise 3-6.5 feet by the end of the century. This will cause severe flooding and destruction of habitat. F. Atmospheric warming will increase the incidence of extreme weather events, including droughts, floods and tropical storms. G. A warmer troposphere will change the distribution and population sizes of wild species, shift locations of ecosystems, and threaten some protected reserves and coral reefs. H. Climate change will lead to a decline in agriculture in some areas, particularly those that emphasize monoculture production, whereas productivity will increase for other areas. I. Health implications are likely as insects, microbes and other organisms begin to expand their ranges. 19-4 What Can We Do to Slow Projected Climate Disruption? A. Climate change is hard to deal with because it has many causes, its effects are uneven and longterm, and there is disagreement over what should be done. 1. The problem is global. 2. The problem is a long-term political issue. 3. The harmful and beneficial impacts of climate change are not spread evenly. 4. Many actions that might reduce the threat of climate change, such as phasing out fossil fuels, are controversial because they can disrupt economics and lifestyle. 5. Humans may not be hardwired to respond to long-term threats. SCIENCE FOCUS: Have climate scientists been too conservative? At a time when the IPCC achieved unprecedented agreement about climate change, the percentage of the general public that believes this issue is over-exaggerated has increased. This is due to deliberate politicizing, as well as playing on the public’s lack of knowledge about how science works and their lack if knowledge of the difference between weather and climate. B. Four major prevention strategies that could reduce carbon dioxide emissions dramatically are: 1. Improve energy efficiency 2. Shift to low-carbon renewable energy resources 3. Stop deforestation 4. Shift to more sustainable agriculture C. There are several strategies for removing carbon dioxide from the atmosphere. These include: 1. A massive tree-planting program 2. Wetland restoration 3. Plant large areas with fast growing perennial plants 4. Preservation and restoration of forests 5. Seeding oceans to promote growth of marine algae 6. Carbon capture and storage D. Geoengineering provides another option. 1. Launching sulfates into the atmosphere may lead to cooling. 2. Using pipes to pump nutrient-rich water from the deep oceans to fertilize algae on the surface would also remove carbon dioxide from the atmosphere. SCIENCE FOCUS: Is capturing and storing CO2 the answer? Carbon capture and storage refers to schemes to remove carbon dioxide from power plants and industrial facilities and store it underground. Large scale leaks could potentially lead to severe climate disruption. Many contend that this is a risky output solution. E. Governments can use six methods to deal with climate change. 1. Strictly regulate carbon dioxide and methane as air pollutants 2. Impose carbon taxes or fees 3. Place a cap on total emissions and institute cap-and-trade F. G. H. I. 4. Increase subsidies to energy efficient technologies 5. Fund the transfer of green technologies from more-developed to less-developed countries 6. Create programs to help curb population growth The Kyoto Protocol, developed in 1997, would require 38 developed countries to cut emissions of some gases by about 5.2% below 1990 levels by 2012. Costa Rica aims to be the world’s first carbon neutral nation. Analysts urge rapidly developing nations such as China and India to make a shift toward sustainability. There needs to be 50-85% reductions in emissions by 2050 to avoid projected harmful effects. As this is unlikely, we must prepare for the harmful effects. The no-regrets strategy for dealing with climate change suggests that actions directed at addressing the issue will have important environmental, health, and economic benefits. 19-5 How Can We Adapt to Climate Change? A. We can prepare for climate disruption. B. The world would need to make a 50-85% cut in emissions of greenhouses gases by 2050 to stabilize concentrations of these gases in the atmosphere. C. Several cities have developed adaptation plans for climate change. D. The no-regrets strategy maintains that even if climate change turns out to be less of a problem, implementing many changes now will be beneficial in the end. a. By relying on a mix of renewable, domestic energy resources will help many countries cut their costly dependence on fossil fuels.