Did you know? The heat in the upper six miles of the earth’s crust contains 50,000 times much as energy as found in all the world’s oil and gas reserves combined. Despite this abundance, only 10,500 megawatts of geothermal generating capacity have been harnessed worldwide. For more information view the text and data in Chapter 5 of Plan B 4.0: Mobilizing to Save Civilization.
Chapter 13. Saving Civilization
We need an economy for the twenty-first century, one that is in sync with the earth and its natural support systems, not one that is destroying them. The fossil fuel-based, automobile-centered, throwaway economy that evolved in western industrial societies is no longer a viable model—not for the countries that shaped it or for those that are emulating them. In short, we need to build a new economy, one powered with carbon-free sources of energy—wind, solar, and geothermal—one that has a diversified transport system and that reuses and recycles everything.
With Plan B we can change course and move onto a path of sustainable progress, but it will take a massive mobilization—at wartime speed. This plan, or something very similar to it, is our only hope.
The Plan B goals—stabilizing climate, stabilizing population, eradicating poverty, and restoring the economy’s natural support systems—are mutually dependent. All are essential to feeding the world’s people. It is unlikely that we can reach any one goal without reaching the others. Moving the global economy off the decline-and-collapse path depends on reaching all four goals.
The key to restructuring the economy is to get the market to tell the truth through full-cost pricing. For energy, this means putting a tax on carbon to reflect the full cost of burning fossil fuels and offsetting it with a reduction in the tax on income.
If the world is to move onto a sustainable path, we need economists who will calculate indirect costs and work with political leaders to incorporate them into market prices by restructuring taxes. This will require help from other disciplines, including ecology, meteorology, agronomy, hydrology, and demography. Full-cost pricing that will create an honest market is essential to building an economy that can sustain civilization and progress.
Some 2,500 economists, including nine Nobel Prize winners in economics, have endorsed the concept of tax shifts. Harvard economics professor and former chairman of George W. Bush’s Council of Economic Advisors N. Gregory Mankiw wrote in Fortune magazine: “Cutting income taxes while increasing gasoline taxes would lead to more rapid economic growth, less traffic congestion, safer roads, and reduced risk of global warming—all without jeopardizing long-term fiscal solvency. This may be the closest thing to a free lunch that economics has to offer.” 1
The failure of the market to reflect total costs can readily be seen with gasoline. The most detailed analysis available of gasoline’s indirect costs is by the International Center for Technology Assessment. When added together, the many indirect costs to society—including climate change, oil industry tax breaks, military protection of the oil supply, oil industry subsidies, oil spills, and treatment of auto exhaust-related respiratory illnesses—total roughly $12 per gallon. If this external cost is added to the roughly $3 per gallon price of gasoline in the United States, gas would cost $15 a gallon. These are real costs. Someone bears them. If not us, our children. 2
If we can get the market to tell the truth, to have market prices that reflect the full cost of burning gasoline or coal, of deforestation, of overpumping aquifers, and of overfishing, then we can begin to create a rational economy. If we can create an honest market, then market forces will rapidly restructure the world energy economy. Phasing in full-cost pricing will quickly reduce oil and coal use. Suddenly wind, solar, and geothermal will become much cheaper than climate-disrupting fossil fuels.
We are economic decisionmakers, whether as corporate planners, government policymakers, investment bankers, or consumers. And we rely on the market for price signals to guide our behavior. But if the market gives us bad information, we make bad decisions, and that is exactly what has been happening.
We are being blindsided by a faulty accounting system, one that will lead to bankruptcy. As Øystein Dahle, former Vice President of Exxon for Norway and the North Sea, has observed: “Socialism collapsed because it did not allow the market to tell the economic truth. Capitalism may collapse because it does not allow the market to tell the ecological truth.” 3
If we leave costs off the books, we risk bankruptcy. A decade ago, a phenomenally successful company named Enron was frequently on the covers of business magazines. It was, at one point, the seventh most valuable corporation in the United States. But when some investors began raising questions, Enron’s books were audited by outside accountants. Their audit showed that Enron was bankrupt—worthless. Its stock that had been trading for over $90 a share was suddenly trading for pennies. 4
Enron had devised some ingenious techniques for leaving costs off the books. We are doing exactly the same thing, but on a global scale. If we continue with this practice, we too will face bankruptcy.
Another major flaw in our market economy is that it neither recognizes nor respects sustainable yield limits of natural systems. Consider, for example, the overpumping of aquifers. Once there is evidence that a water table is starting to fall, the first step should be to ban the drilling of new wells. If the water table continues to fall, then water should be priced at a rate that will reduce its use and stabilize the aquifer. Otherwise, there is a “race to the bottom” as wells are drilled ever deeper. When the aquifer is depleted, the water-based food bubble will burst, reducing harvests and driving up food prices.
Or consider deforestation. Proper incentives, such as a stumpage tax for each tree cut, would automatically shift harvesting from clearcutting to selective cutting, taking only the mature trees and protecting the forests.
Not only do we distort reality when we omit costs associated with burning fossil fuels from their prices, but governments actually subsidize their use, distorting reality even further. Worldwide, subsidies that encourage the production and use of fossil fuels add up to roughly $500 billion per year, compared with less than $50 billion for renewable energy, including wind, solar, and biofuels. In 2009, fossil fuel consumption subsidies included $147 billion for oil, $134 billion for natural gas, and $31 billion for coal. Governments are shelling out nearly $1.4 billion per day to further destabilize the earth’s climate. 5
Iran, with a fossil fuel subsidy of $66 billion, is a leader in promoting gasoline use by pricing it at one fifth its market price. Following Iran on the list of countries that heavily subsidize fossil fuel use are Russia, Saudi Arabia, and India. 6
Carbon emissions could be cut in scores of countries by simply eliminating fossil fuel subsidies. Some countries are already doing this. Belgium, France, and Japan have phased out all subsidies for coal. Countries in the European Union may phase out coal subsidies entirely by 2014. President Obama has announced plans to start phasing out fossil fuel subsidies in 2011. As oil prices have climbed, a number of countries that held fuel prices well below world market prices have greatly reduced or eliminated their motor fuel subsidies because of the heavy fiscal cost. Among those reducing subsidies are China, Indonesia, and Nigeria. 7
A world facing economically disruptive climate change can no longer justify subsidies to expand the burning of coal and oil. A phaseout of oil consumption subsidies over the next decade would cut oil use by 4.7 million barrels per day in 2020. Eliminating all fossil fuel consumption subsidies by 2020 would cut global carbon emissions by nearly 6 percent and reduce government debt. 8
Shifting subsidies to the development of climate-benign energy sources such as wind, solar, and geothermal power will help stabilize the earth’s climate. Moving subsidies from road construction to high-speed intercity rail construction could increase mobility, reduce travel costs, and lower carbon emissions.
Closely related to the need to restructure the economy is the need to redefine security. One of our legacies from the last century, which was dominated by two world wars and the cold war, is a sense of security that is defined almost exclusively in military terms. It so dominates Washington thinking that the U.S. foreign affairs budget of $701 billion in 2009 consisted of $661 billion for military purposes and $40 billion for foreign assistance and diplomatic programs. 9
Douglas Alexander, former U.K. Secretary of State for International Development, put it well in 2007: “In the 20th century a country’s might was too often measured in what they could destroy. In the 21st century strength should be measured by what we can build together.” 10
The good news is that in the United States the concept of redefining security is now permeating not only various independent think tanks but the Pentagon itself. A number of studies have looked at threats to U.S. interests posed by climate change, population growth, water shortages, and food shortages—key trends that contribute to political instability and lead to social collapse. 11
Although security is starting to be redefined in a conceptual sense, we have not redefined it in fiscal terms. The United States still has a huge military budget, committed to developing and manufacturing technologically sophisticated and costly weapon systems. Since there is no other heavily armed superpower, the United States is essentially in an arms race with itself. What if the next war is fought in cyberspace or with terrorist insurgents? Vast investments in conventional weapons systems will be of limited use.
Given the enormity of the antiquated military budget, no one can argue that we do not have the resources to rescue civilization. The far-flung U.S. military establishment, including hundreds of military bases scattered around the world, will not save civilization. It belongs to another era. We can most effectively achieve our security goals by helping to expand food production, by filling the family planning gap, by building wind farms and solar power plants, and by building schools and clinics. 12
During the years when governments and the media were focused on preparing for the 2009 Copenhagen climate negotiations, a powerful movement opposing the construction of new coal-fired power plants was emerging in the United States, largely below the radar screen. The principal reason that environmental groups, both national and local, are opposing coal plants is that they are the primary driver of climate change. In addition, emissions from coal plants are responsible for 13,200 U.S. deaths annually—a number that dwarfs the U.S. lives lost in Iraq and Afghanistan combined. 13
Over the last few years the U.S. coal industry has suffered one setback after another. What began as a few local ripples of resistance to coal-fired power quickly evolved into a national tidal wave of grassroots opposition from environmental, health, farm, and community organizations. Despite a heavily funded industry campaign to promote “clean coal,” the American public is turning against coal. In a national poll that asked which electricity source people would prefer, only 3 percent chose coal. The Sierra Club, which has kept a tally of proposed coal-fired power plants and their fates since 2000, reports that 139 plants in the United States have been defeated or abandoned. 14
An early turning point in the coal war came in June 2007, when Florida’s Public Service Commission refused to license a huge $5.7-billion, 1,960-megawatt coal plant because the utility proposing it could not prove that building the plant would be cheaper than investing in conservation, efficiency, or renewable energy sources. This point, frequently made by lawyers from Earthjustice, a nonprofit environmental legal group, combined with widely expressed public opposition to any more coal-fired power plants in Florida, led to the quiet withdrawal of four other coal plant proposals in the state. 15
Coal’s future also suffered as Wall Street, pressured by the Rainforest Action Network, turned its back on the industry. In early February 2008, investment banks Morgan Stanley, Citi, and J.P. Morgan Chase announced that any future lending for coal-fired power would be contingent on the utilities demonstrating that the plants would be economically viable with the higher costs associated with future federal restrictions on carbon emissions. Later that month, Bank of America announced it would follow suit. 16
One of the unresolved questions haunting the coal sector is what to do with the coal ash—the remnant of burning coal—that is accumulating in 194 landfills and 161 holding ponds in 47 states. This ash is not an easy material to dispose of since it is laced with arsenic, lead, mercury, and other toxic materials. The industry’s dirty secret came into full public view just before Christmas 2008 when a Tennessee Valley Authority (TVA) coal ash pond containment wall in eastern Tennessee collapsed, releasing a billion gallons of toxic brew. 17
Surprising through it may seem, the industry does not have a plan for safely disposing of the 130 million tons of ash produced each year, enough to fill 1 million railroad cars. The spill of toxic coal ash in Tennessee, which is costing the TVA $1.2 billion to clean up, drove another nail into the lid of the coal industry coffin. 18
An August 2010 joint study by the Environmental Integrity Project, Earthjustice, and the Sierra Club reported that 39 coal ash dump sites in 21 states have contaminated local drinking water or surface water with arsenic, lead, and other heavy metals at levels that exceed federal safe drinking water standards. This is in addition to 98 coal ash sites that are polluting local water supplies that were already identified by the U.S. Environmental Protection Agency (EPA). In response to these and other threats, new regulations are in the making to require an upgrade of the management of coal ash storage facilities so as to avoid contaminating local groundwater supplies. In addition, EPA is issuing more stringent regulations on coal plant emissions, including sulfur dioxide and nitrogen oxides. The goal is to reduce chronic respiratory illnesses, such as asthma in children, and the deaths caused by coal-fired power plant emissions. 19
Another coal industry practice, the blasting off of mountain tops with explosives to get at coal seams, is under fire. In August 2010, the Rainforest Action Network announced that several leading U.S. investment banks, including Bank of America, J.P. Morgan, Citi, Morgan Stanley, and Wells Fargo, had ceased lending to companies involved in mountaintop removal coal mining. Massey Energy, a large coal mining company notorious for its violations of environmental and safety regulations and the owner of the West Virginia mine where 29 miners died in 2010, lost all funding from three of the banks. 20
More and more utilities are beginning to recognize that coal is not a viable long-term option. TVA, for example, announced in August 2010 that it was planning to close 9 of its 59 coal-generating units. Duke Energy, another major southeastern utility, followed with an announcement that it was considering the closure of seven coal-fired units in North and South Carolina alone. Progress Energy, also in the Carolinas, is planning to close 11 units at four sites. In Pennsylvania, Exelon Power is preparing to close four coal units at two sites. And Xcel Energy, the dominant utility in Colorado, announced it was closing seven coal units. 21
These five are examples of a growing number of U.S. utilities that are closing coal-fired power plants, replacing them with natural gas, wind, solar, biomass, and efficiency gains. In an analysis of the future of coal, Wood Mackenzie, a leading energy consulting and research firm, sees these closings as a harbinger of things to come for the coal industry. 22
The chairman of the powerful U.S. Federal Energy Regulatory Commission, Jon Wellinghoff, observed in early 2009 that the United States may no longer need any additional coal plants. Regulators, investment banks, and political leaders are now beginning to see what has been obvious for some time to climate scientists such as James Hansen: that it makes no sense to build coal-fired power plants only to have to bulldoze them in a few years. 23
Given the huge potential for reducing electricity use in the United States, closing coal plants may be much easier than it appears. If the efficiency level of the other 49 states were raised to that of New York, the most energy-efficient state, the energy saved would be sufficient to close 80 percent of the country’s coal-fired power plants. The remaining plants could be shut down by turning to renewable energy—wind farms, solar thermal power plants, solar cells, and geothermal power and heat. 24
As noted earlier, the U.S. transition from coal to renewables is under way. Between 2007 and 2010, U.S. coal use dropped 8 percent. During the same period, and despite the recession, 300 new wind farms came online, adding some 21,000 megawatts of wind-generating capacity. 25
The bottom line is that the United States currently has, in effect, a near de facto moratorium on the licensing of new coal-fired power plants. Several environmental groups, including the Sierra Club and Greenpeace, are now starting to focus on closing existing coal plants. The movement is also going international, as campaigns are now under way in several countries to prevent the construction of new coal plants and to close existing ones. 26
With the likelihood that few, if any, new coal-fired power plants will be approved in the United States, this moratorium sends a message to the world. Denmark and New Zealand have already banned new coal-fired power plants. Hungary is on the verge of closing its one remaining coal plant. Ontario Province, where 39 percent of Canadians live, plans to phase out coal entirely by 2014. Scotland announced in September 2010 that it plans to get 80 percent of its electricity from renewables by 2020 and 100 percent by 2025, backing out coal entirely. Other countries are likely to join this effort to cut carbon emissions. Even China, which was building one new coal plant a week, is surging ahead with renewable energy and now leads the world in new wind farm installations. These and other developments suggest that the Plan B goal of cutting carbon emissions 80 percent by 2020 may be much more attainable than many would have thought a few years ago. 27
The restructuring of the energy economy will not only dramatically drop carbon emissions, helping to stabilize climate, it will also eliminate much of the air pollution that we know today. The idea of a pollution-free environment is difficult for us even to imagine, simply because none of us has ever known an energy economy that was not highly polluting. Working in coal mines will be history. Black lung disease will eventually disappear. So too will “code red” alerts warning us to avoid strenuous exercise because of dangerous levels of air pollution.
And, finally, in contrast to investments in oil fields and coal mines, where depletion and abandonment are inevitable, the new energy sources are inexhaustible. While wind turbines, solar cells, and solar thermal systems will all need repair and occasional replacement, investing in these new energy sources means investing in energy systems that can last forever. These wells will not go dry.
Although some of the prospects look good for moving away from coal, timing is key. Can we close coal-fired power plants fast enough to save the Greenland ice sheet? To me, saving Greenland is both a metaphor and a precondition for saving civilization. If its ice sheet melts, sea level will rise 23 feet. Hundreds of coastal cities will be abandoned. The rice-growing river deltas of Asia will be under water. And there will be hundreds of millions of rising-sea refugees. The word that comes to mind is chaos. If we cannot mobilize to save the Greenland ice sheet, we probably cannot save civilization as we know it. 28
Similarly, can we eradicate poverty and fill the family planning gap fast enough to help countries escape the demographic trap? Can we halt the growth in the number of failing states before our global civilization begins to unravel?
The overarching question is, Can we change fast enough? When thinking about the enormous need for social change as we attempt to move the world economy onto a sustainable path, I find it useful to look at three models of social change. One is the Pearl Harbor model, where a dramatic event fundamentally changed how Americans thought and behaved. The second model is one where a society reaches a tipping point on a particular issue often after an extended period of gradual change in thinking and attitudes. This I call the Berlin Wall model. The third is the sandwich model of social change, where there is a dedicated grassroots movement pushing for change that is strongly supported by political leadership.
The surprise Japanese attack on Pearl Harbor on December 7, 1941, was a dramatic wakeup call. It totally changed how Americans thought about the war. If the American people had been asked on December 6th whether the country should enter World War II, probably 95 percent would have said no. By Monday morning, December 8th, 95 percent would likely have said yes.
When scientists are asked to identify a possible “Pearl Harbor” scenario on the climate front, they frequently point to the possible breakup of the West Antarctic ice sheet. Sizable blocks of it have been breaking off for more than a decade already, but far larger blocks could break off, sliding into the ocean. Sea level could rise a frightening 2 or 3 feet within a matter of years. Unfortunately, if we reach this point it may be too late to cut carbon emissions fast enough to save the remainder of the West Antarctic ice sheet. By then we might be over the edge. 29
The Berlin Wall model is of interest because the wall’s dismantling in November 1989 was a visual manifestation of a much more fundamental social change. At some point, Eastern Europeans, buoyed by changes in Moscow, had rejected the great “socialist experiment” with its one-party political system and centrally planned economy. Although it was not anticipated, Eastern Europe had an essentially bloodless revolution, one that changed the form of government in every country in the region. It had reached a tipping point.
Many social changes occur when societies reach tipping points or cross key thresholds. Once that happens, change comes rapidly and often unpredictably. One of the best known U.S. tipping points is the growing opposition to smoking that took place during the last half of the twentieth century. This movement was fueled by a steady flow of information on the health-damaging effects of smoking, a process that began with the Surgeon General’s first report in 1964 on smoking and health. The tipping point came when this information flow finally overcame the heavily funded disinformation campaign of the tobacco industry. 30
Although many Americans are confused by the disinformation campaign on climate change, which is funded by the oil and coal industries, there are signs that the United States may be moving toward a tipping point on climate, much as it did on tobacco in the 1990s. The oil and coal companies are using some of the same disinformation tactics that the tobacco industry used in trying to convince the public that there was no link between smoking and health.
The sandwich model of social change is in many ways the most attractive one, largely because of its potential for rapid change, as with the U.S. civil rights movement in the 1960s. Strong steps by EPA to enforce existing laws that limit toxic pollutants from coal-fired power plants, for instance, are making coal much less attractive. So too do the regulations on managing coal ash storage and rulings against mountaintop removal. This, combined with the powerful grassroots campaign forcing utilities to seek the least cost option, is spelling the end of coal. 31
Of the three models of social change, relying on the Pearl Harbor model for change is by far the riskiest, because by the time a society-changing catastrophic event occurs for climate change, it may be too late. The Berlin Wall model works, despite the lack of government support, but it does take time. The ideal situation for rapid, historic progress occurs when mounting grassroots pressure for change merges with a national leadership that is similarly committed.
Whenever I begin to feel overwhelmed by the scale and urgency of the changes we need to make, I reread the economic history of U.S. involvement in World War II because it is such an inspiring study in rapid mobilization. Initially, the United States resisted involvement in the war and responded only after it was directly attacked at Pearl Harbor. But respond it did. After an all-out commitment, the U.S. engagement helped turn the tide of war, leading the Allied Forces to victory within three-and-a-half years. 32
In his State of the Union address on January 6, 1942, one month after the bombing of Pearl Harbor, President Franklin D. Roosevelt announced the country’s arms production goals. The United States, he said, was planning to produce 45,000 tanks, 60,000 planes, and several thousand ships. He added, “Let no man say it cannot be done.” 33
No one had ever seen such huge arms production numbers. Public skepticism abounded. But Roosevelt and his colleagues realized that the world’s largest concentration of industrial power was in the U.S. automobile industry. Even during the Depression, the United States was producing 3 million or more cars a year. 34
After his State of the Union address, Roosevelt met with auto industry leaders, indicating that the country would rely heavily on them to reach these arms production goals. Initially they expected to continue making cars and simply add on the production of armaments. What they did not yet know was that the sale of new cars would soon be banned. From early February 1942 through the end of 1944, nearly three years, essentially no cars were produced in the United States. 35
In addition to a ban on the sale of new cars, residential and highway construction was halted, and driving for pleasure was banned. Suddenly people were recycling and planting victory gardens. Strategic goods—including tires, gasoline, fuel oil, and sugar—were rationed beginning in 1942. Yet 1942 witnessed the greatest expansion of industrial output in the nation’s history—all for military use. Wartime aircraft needs were enormous. They included not only fighters, bombers, and reconnaissance planes, but also the troop and cargo transports needed to fight a war on distant fronts. From the beginning of 1942 through 1944, the United States far exceeded the initial goal of 60,000 planes, turning out a staggering 229,600 aircraft, a fleet so vast it is hard even today to visualize it. Equally impressive, by the end of the war more than 5,000 ships were added to the 1,000 or so that made up the American Merchant Fleet in 1939. 36
In her book No Ordinary Time, Doris Kearns Goodwin describes how various firms converted. A sparkplug factory switched to the production of machine guns. A manufacturer of stoves produced lifeboats. A merry-go-round factory made gun mounts; a toy company turned out compasses; a corset manufacturer produced grenade belts; and a pinball machine plant made armor-piercing shells. 37
In retrospect, the speed of this conversion from a peacetime to a wartime economy is stunning. The harnessing of U.S. industrial power tipped the scales decisively toward the Allied Forces, reversing the tide of war. Germany and Japan, already fully extended, could not counter this effort. British Prime Minister Winston Churchill often quoted his foreign secretary, Sir Edward Grey: “The United States is like a giant boiler. Once the fire is lighted under it, there is no limit to the power it can generate.” 38
The point is that it did not take decades to restructure the U.S. industrial economy. It did not take years. It was done in a matter of months. If we could restructure the U.S. industrial economy in months, then we can restructure the world energy economy during this decade.
With numerous U.S. automobile assembly lines currently idled, it would be a relatively simple matter to retool some of them to produce wind turbines, as the Ford Motor Company did in World War II with B-24 bombers, helping the world to quickly harness its vast wind energy resources. This would help the world see that the economy can be restructured quickly, profitably, and in a way that enhances global security. 39
The world now has the technologies and financial resources to stabilize climate, eradicate poverty, stabilize population, restore the economy’s natural support systems, and, above all, restore hope. The United States, the wealthiest society that has ever existed, has the resources and leadership to lead this effort.
We can calculate roughly the costs of the changes needed to move our twenty-first century civilization off the decline-and-collapse path and onto a path that will sustain civilization. What we cannot calculate is the cost of not adopting Plan B. How do you put a price tag on social collapse and the massive die-off that it invariably brings?
As noted in earlier chapters, the external funding needed to eradicate poverty and stabilize population requires an additional expenditure of $75 billion per year. A poverty eradication effort that is not accompanied by an earth restoration effort is doomed to fail. Protecting topsoil, reforesting the earth, restoring oceanic fisheries, and other needed measures will cost an estimated $110 billion in additional expenditures per year. Combining both social goals and earth restoration goals into a Plan B budget yields an additional annual expenditure of $185 billion. (See Table 13–1.) This is the new defense budget, the one that addresses the most serious threats to both national and global security. It is equal to 12 percent of global military expenditures and 28 percent of U.S. military expenditures. 40
Table 13–1. Plan B Budget: Additional Annual Expenditures Needed to Meet Social Goals and Restore the Earth
|Basic Social Goals|
|Universal primary education||10|
|Eradication of adult illiteracy||4|
|School lunch programs||3|
|Aid to women, infants, and preschool children||4|
|Reproductive health and family planning||21|
|Universal basic health care||33|
|Earth Restoration Goals|
|Protecting topsoil on cropland||24|
|Stabilizing water tables||10|
|Protecting biological diversity||31|
|U.S. Military Budget||661|
|Plan B budget as share of this||28%|
World Military Budget
|Plan B budget as share of this||12%|
Source: Military from SIPRI; other data at www.earth-policy.org.
Unfortunately, the United States continues to focus its fiscal resources on building an ever-stronger military, largely ignoring the threats posed by continuing environmental deterioration, poverty, and population growth. Its 2009 military expenditures accounted for 43 percent of the global total of $1,522 billion. Other leading spenders included China ($100 billion), France ($64 billion), the United Kingdom ($58 billion), and Russia ($53 billion). 41
For less than $200 billion of additional funding per year worldwide, we can get rid of hunger, illiteracy, disease, and poverty, and we can restore the earth’s soils, forests, and fisheries. We can build a global community where the basic needs of all people are satisfied—a world that will allow us to think of ourselves as civilized.
As a general matter, the benchmark of political leadership will be whether leaders succeed in shifting taxes from work to environmentally destructive activities. It is tax shifting, not additional appropriations, that is the key to restructuring the energy economy in order to stabilize climate.
Just as the forces of decline can reinforce each other, so too can the forces of progress. For example, efficiency gains that lower oil dependence also reduce carbon emissions and air pollution. Eradicating poverty helps stabilize population. Reforestation sequesters carbon, increases aquifer recharge, and reduces soil erosion. Once we get enough trends headed in the right direction, they will reinforce each other.
One of the questions I hear most frequently is, What can I do? People often expect me to suggest lifestyle changes, such as recycling newspapers or changing light bulbs. These are essential, but they are not nearly enough. Restructuring the global economy means becoming politically active, working for the needed changes, as the grassroots campaign against coal-fired power plants is doing. Saving civilization is not a spectator sport.
Inform yourself. Read about the issues. Share this book with friends. Pick an issue that’s meaningful to you, such as tax restructuring to create an honest market, phasing out coal-fired power plants, or developing a world class-recycling system in your community. Or join a group that is working to provide family planning services to the 215 million women who want to plan their families but lack the means to do so. You might want to organize a small group of like-minded individuals to work on an issue that is of mutual concern. You can begin by talking with others to help select an issue to work on. 42
Once your group is informed and has a clearly defined goal, ask to meet with your elected representatives on the city council or the state or national legislature. Write or e-mail your elected representatives about the need to restructure taxes and eliminate fossil fuel subsidies. Remind them that leaving environmental costs off the books may offer a sense of prosperity in the short run, but it leads to collapse in the long run.
During World War II, the military draft asked millions of young men to risk the ultimate sacrifice. But we are called on only to be politically active and to make lifestyle changes. During World War II, President Roosevelt frequently asked Americans to adjust their lifestyles and Americans responded, working together for a common goal. What contributions can we each make today, in time, money, or reduced consumption, to help save civilization?
The choice is ours—yours and mine. We can stay with business as usual and preside over an economy that continues to destroy its natural support systems until it destroys itself, or we can be the generation that changes direction, moving the world onto a path of sustained progress. The choice will be made by our generation, but it will affect life on earth for all generations to come.
1. Redefining Progress, “The Economists’ Statement on Climate Change,” at www.rprogress.org/publications/1997/econstatement.htm, viewed 26 June 2008; N. Gregory Mankiw, “Gas Tax Now!” Fortune, 24 May 1999, pp. 60–64.
2. International Center for Technology Assessment (ICTA), The Real Cost of Gasoline: An Analysis of the Hidden External Costs Consumers Pay to Fuel Their Automobiles (Washington, DC: 1998); ICTA, Gasoline Cost Externalities Associated with Global Climate Change (Washington, DC: September 2004); ICTA, Gasoline Cost Externalities: Security and Protection Services (Washington, DC: January 2005); Terry Tamminen, Lives Per Gallon: The True Cost of Our Oil Addiction (Washington, DC: IslandPress, 2006), p. 60, adjusted to 2007 dollars with Bureau of Economic Analysis, “Table 3—Price Indices for Gross Domestic Product and Gross Domestic Purchases,” GDP and Other Major Series, 1929–2007 (Washington, DC: August 2007); BP, BP Statistical Review of World Energy (London: June 2007); U.S. Department of Energy (DOE), Energy Information Administration (EIA), “Total Crude Oil and Petroleum Products,” at tonto.eia.doe.gov/dnav/pet/pet_cons_psup_dc_nus_mbbl_a.htm, updated 26 November 2007; This Week in Petroleum (Washington, DC: various issues); DOE, EIA, “US Weekly Retail,” Retail Gasoline Historical Prices (Washington, DC: 4 October 2010).
3. Øystein Dahle, discussion with author, State of the World Conference, Aspen, CO, 22 July 2001.
4. Eric Pfanner, “Failure Brings Call for Tougher Standards: Accounting for Enron: Global Ripple Effects,” International Herald Tribune, 17 January 2002; share price data from www.Marketocracy.com, viewed 9 August 2007.
5. Total fossil fuel subsidies from Global Subsidies Initiative, Achieving the G-20 Call to Phase Out Subsidies to Fossil Fuels (Geneva: October 2009), p. 2; renewable energy subsidies from Bloomberg New Energy Finance, “Subsidies for Renewables, Biofuels Dwarfed by Supports for Fossil Fuels,” press release (London: 29 July 2010); 2009 consumption subsidies from Amos Bromhead, International Energy Agency (IEA), e-mails to and discussion with Alexandra Giese, Earth Policy Institute, 15 and 26 October 2010; IEA, World Energy Outlook 2010 (Paris: 9 November 2010).
6. Bromhead, op. cit. note 5; Sebastian Ebert et al., International Fuel Prices 2009 (Eschborn, Germany: GTZ Transport Policy Advisory Services, December 2009); IEA, “Oil Market Report,” at omrpublic.iea.org, viewed 18 October 2010; IEA, Office of the Chief Economist, Global Fossil Fuel Subsidies and the Impacts of Their Removal (Washington, DC: June 2010), p. 2.
7. Belgium, France, and Japan from Seth Dunn, “King Coal’s Weakening Grip on Power,” World Watch, September/October 1999, pp. 10–19; “EU Seeks to End Coal Subsidies by 2014,” EUbusiness, 20 July 2010; Tom Doggett, “Obama Budget Seeks to End Oil, Gas Subsidies,” Reuters, 1 February 2010; U.S. Office of Management and Budget, “Budget of the U.S. Government, Fiscal Year 2011,” at www.whitehouse.gov/sites/default/files/omb/budget/fy2011/assets/budget.pdf, viewed 4 October 2010; China, Indonesia, and Nigeria subsidy cuts from Gerhard P. Metschies, International Fuel Prices 2007 (Eschborn, Germany: GTZ Transport Policy Advisory Services, April 2007), p. 3; IEA, op. cit. note 5; p. 589; Philip Sanders, “Nigeria to End Fuel Subsidies by End of 2011 at the Latest, Aganga Says,” Bloomberg (3 September 2010).
8. Oil consumption and carbon dioxide emissions savings estimates compare the levels assumed with 2009-level subsidies persisting through 2020 to those with a complete subsidy phaseout by 2020, from Bromhead, op. cit. note 5, and from IEA, op. cit. note 5.
9. Military spending from Stockholm International Peace Research Institute (SIPRI), Military Expenditure Database, electronic database at www.sipri.org, updated 2010; foreign assistance and diplomatic spending (including State Department operations, global health, obligation to the United Nations, disaster response, agricultural productivity, democracy promotion, and education) is from Office of the Director of U.S. Foreign Assistance, “International Affairs FY 2009 Budget,” fact sheet (Washington, DC: 4 February 2008).
10. Patrick Wintour and Julian Borger, “Brown Message to U.S.: It’s Time to Build, Not Destroy,” Guardian (London), 13 July 2007.
11. U.S. Department of Defense (DOD), Quadrennial Defense Review Report (Washington, DC: February 2010); Kurt M. Campbell et al., The Age of Consequences: The Foreign Policy and National Security Implications of Global Climate Change (Washington, DC: Center for Strategic and International Studies and Center for a New American Security, November 2007); Deborah Zabarenko, “Environment Key to U.S. Security – Congress Briefing,” Scientific American, 22 September 2010; U.S. National Intelligence Council, Global Trends 2025: A Transformed World (Washington, DC: November 2008).
12. DOD, Base Structure Report, Fiscal Year 2009 Baseline (Washington, DC: 2009), pp. 77–94.
13. “Coal Plants Cancelled in 2007, 2008, 2009, and 2010,” in CoalSwarm, at www.sourcewatch.org/index.php?title=Portal:Coal_Issues, viewed 27 September 2010; Coal Moratorium NOW!, “Progress Towards a Coal Moratorium: 59 Coal Plants Cancelled or Shelved in 2007,” press release (San Francisco: 17 January 2008); Michelle Nichols, “Gore Urges Civil Disobedience to Stop Coal Plants,” Reuters, 28 September 2008; Conrad Schneider and Jonathan Banks, The Toll from Coal: An Updated Assessment of Death and Disease from America’s Dirtiest Energy Source (Boston, MA: Clean Air Task Force, September 2010); DOD, “Operation Iraqi Freedom and Operation Enduring Freedom U.S. Casualty Status,” at www.defense.gov/NEWS/casualty.pdf, updated 27 July 2010.
14. Ted Nace, “Ready to Rumble: A Global Movement is Bringing Down King Coal–One Power Plant at a Time,” Earth Island Journal, vol. 25 (summer 2010), pp. 34–39; Richard Conniff, “The Myth of Clean Coal,” Yale Environment 360, 3 June 2008; Daniel J. Weiss and Alexandra Kougentakis, “‘60 Minutes’ Confirms that the Clean Coal Smoke Screen Continues,” press release (Washington, DC: Center for American Progress, 27 April 2009); Opinion Research Corporation, A Post Fossil-Fuel America: Are Americans Ready to Make the Shift? (Princeton, NJ: October 2007); Sierra Club, “Stopping the Coal Rush,” online database, at www.sierraclub.org/environmentallaw/coal/plantlist.asp, accessed 15 September 2010; Kathleen Krust, Sierra Club, discussion with Jessie Robbins, Earth Policy Institute, 23 July 2009; Kathleen Krust, Sierra Club, e-mail to Alexandra Giese, Earth Policy Institute, 27 September 2010.
15. Timothy Gardner, “Florida Gov. Might Allow New Coal Power Plants,” Reuters, 4 October 2007; State of Florida Public Service Commission, “Florida Public Service Commission Denies Determination of Need for Proposed Power Plants in Glades County,” press release (Tallahassee, FL: 5 June 2007); Buck Parker, Earthjustice, letter to author, October 2007; Coal Moratorium NOW!, op. cit. note 13.
16. Michael Brune, “Carbon Principles: Another Nail in Coal’s Coffin,” The Panther (Rainforest Action Network), winter 2008; Citigroup, “Leading Wall Street Banks Establish the Carbon Principles,” press release (New York: 4 February 2008); Jeffrey Ball, “Wall Street Shows Skepticism Over Coal,” Wall Street Journal, 4 February 2008; Jeffrey Ball, “Bank of America Puts a Price on Carbon,” Wall Street Journal, 13 February 2008.
17. Kristen Lombardi, Coal Ash: The Hidden Story: How Industry and the EPA Failed to Stop a Growing Environmental Disaster (Washington, DC: Center for Public Integrity, 19 February 2009).
18. Ibid.; Dave Flessner, “TVA Cleans Up at Kingston Ash Spill Site,” Chattanooga Times Free Press, 11 June 2010.
19. Jeff Stant, In Harm’s Way: Lack of Federal Coal Ash Regulations Endangers Americans and Their Environment (Washington, DC, San Francisco, and Oakland, CA: Environmental Integrity Project, Earthjustice, and Sierra Club, 26 August 2010); U.S. Environmental Protection Agency (EPA), “Coal Combustion Residuals – Proposed Rule,” at www.epa.gov/epawaste/nonhaz/industrial/special/fossil/ccr-rule/index.htm, viewed 27 September 2010; EPA, “EPA Announces Plans to Regulate Coal Ash / Agency Proposals would Address Risks of Unsafe Coal Ash Disposal, while Supporting Safe Forms of Beneficial Use,” press release (Washington, DC: 4 May 2010); John M. Broder, “New Rules Issued on Coal Air Pollution,” New York Times, 6 July 2010; Alan H. Lockwood et al., Coal’s Assault on Human Health (Washington, DC: Physicians for Social Responsibility, November 2009); Schneider and Banks, op. cit. note 13.
20. Rainforest Action Network, “Wall Street Backs Away from Mountaintop Removal Coal Mining,” press release (San Francisco: 11 August 2010); Chris Stratton and Brian K. Sullivan, “Massey Accident, Worst Since 1970, Claims 29 Miners (Update2),” Bloomberg, 10 April 2010.
21. Tennessee Valley Authority, “TVA to Idle Nine Coal-Fired Units,” press release (Knoxville, TN: 24 August 2010); Bruce Henderson, “Duke Considers Closing Old Coal Plants,” The Charlotte Observer, 2 September 2010; Progress Energy, “Progress Energy Carolinas Plans to Retire Remaining Unscrubbed Coal Plants in N.C.,” press release (Raleigh, NC: 1 December 2009); Exelon Corporation, “Exelon Power Seeks to Permanently Retire Four Units In Southeastern Pennsylvania,” press release (Kennett Square, PA: 2 December 2009); Xcel Energy, “Xcel Energy Recommends Clean Air Clean Jobs Plan,” press release (Denver, CO: 13 August 2010).
22. Wood Mackenzie, “Long-Term Viability of Many US Coal Plants at Risk,” press release (Houston, TX: 17 September 2010).
23. Noelle Straub and Peter Behr, “Energy Regulatory Chief Says New Coal, Nuclear Plants May Be Unnecessary,” Greenwire, 22 April 2009; James Hansen, “Why We Can’t Wait,” The Nation, 7 May 2007.
24. Mathias Bell, Rocky Mountain Institute, e-mail to Jessie Robbins, Earth Policy Institute, 30 June 2009; Natalie Mims, Mathias Bell, and Stephen Doig, Assessing the Electric Productivity Gap and the U.S. Efficiency Opportunity (Snowmass, CO: Rocky Mountain Institute, January 2009).
25. Coal from DOE, EIA, “Short Term Energy Outlook,” at www.eia.doe.gov/emeu/steo/pub/contents.html, updated 8 September 2010, with adjustments for falling average heat content of U.S. coal from DOE, EIA, “Annual Energy Review: Thermal Conversion Factors,” at www.eia.doe.gov/emeu/aer/append_a.html, updated 19 August 2010; number of wind farms calculated from American Wind Energy Association (AWEA), Annual Wind Industry Report – Year Ending 2008 (Washington, DC: April 2009), pp. 21–25, from AWEA, AWEA Year End 2009 Market Report (Washington, DC: January 2010), pp. 5–15, and from AWEA, AWEA Mid-Year 2010 Market Report (Washington, DC: July 2010), pp. 8–10; total wind capacity additions calculated from Global Wind Energy Council (GWEC), Global Wind 2009 Report (Brussels: 2010), p. 63; and from AWEA, Mid-Year 2010 Market Report, op. cit. this note, with number and generating capacity of new wind farms coming online in the second half of 2010 estimated by author.
26. Sierra Club, “Beyond Coal,” at www.sierraclub.org/coal, viewed 26 September 2010; Greenpeace International, “Quit Coal,” at www.greenpeace.org/international/en/campaigns/climate-change/coal, viewed 26 September 2010; CoalSwarm, at coalswarm.org, viewed 26 September 2010; Nace, op. cit. note 14; Ted Nace, Climate Hope (San Francisco: CoalSwarm, 2010).
27. Henry Manczyk and Michael D. Leach, “Combined Heat and Power Generation and District Heating in Denmark: History, Goals, and Technology,” at www.energy.rochester.edu/dk/manczyk/denmark.pdf, viewed 26 September 2010; “New Zealand Issues Ten-Year Ban on New Thermal Power Plants,” Power Engineering, 11 October 2007; Elisabeth Rosenthal, “As Europe Kicks Coal, Hungarian Town Suffers,” New York Times, 15 September 2010; “Population by Year, Province and Territory,” Statistics Canada, at www40.statcan.gc.ca/l01/cst01/demo02a-eng.htm, updated 29 September 2010; Government of Ontario, “Ontario's Coal Phase Out Plan,” press release (Toronto: 3 September 2009); Ontario Clean Air Alliance, Finishing the Coal Phase Out: An Historic Opportunity for Climate Leadership, revised March 2010; Government of Scotland, “Target for Renewable Energy Now 80 Per Cent,” press release (Edinburgh: 23 September 2010); Daniel Fineren, “Scotland to Get 100 Pct Green Energy by 2025,” Reuters, 27 September 2010; Jad Mouawad, “Chinese Clean Coal Will Be Critical, a Report Says,” Green, blog, at NYTimes.com, 20 April 2009; Keith Bradsher, “China Leading Global Race to Make Clean Energy,” New York Times, 30 January 2010; GWEC, op. cit. note 25, p. 8.
28. U.N. Environment Programme (UNEP), Global Outlook for Ice and Snow (Nairobi: 2007), p. 103.
29. National Snow and Ice Data Center, “State of the Cryosphere: Is the Cryosphere Sending Signals about Climate Change?” at nsidc.org/sotc/iceshelves.html, updated 25 February 2010.
30. Surgeon General’s Advisory Committee on Smoking and Health, Smoking and Health (Washington, DC: Office of the Surgeon General, 1964).
31. EPA, “Civil Enforcement: Coal-Fired Power Plant Enforcement Initiative,” at www.epa.gov/compliance/resources/cases/civil/caa/coal/index.html, updated 23 July 2010; EPA, “EPA Announces Plans,” op. cit. note 19; John M. Broder, “Departments to Toughen Standards for Mining,” New York Times, 11 June 2009; EPA, “EPA Issues Comprehensive Guidance to Protect Appalachian Communities From Harmful Environmental Impacts of Mountain Top Mining,” press release (Washington, DC: 1 April 2010); Ted Nace, “Stopping Coal in its Tracks,” Orion Magazine, January/February 2008; Western Resource Advocates, “Clean Energy Accomplishments,” at www.westernresourceadvocates.org/energy/coal/cleanenergyaccomplishments.php, viewed 15 October 2010.
32. For information on mobilization, see Francis Walton, Miracle of World War II: How American Industry Made Victory Possible (New York: Macmillan, 1956).
33. Franklin Roosevelt, “State of the Union Address,” 6 January 1942, at www.ibiblio.org/pha/7-2-188/188-35.html.
34. Harold G. Vatter, The US Economy in World War II (New York: Columbia University Press, 1985), p. 13; Alan L. Gropman, Mobilizing U.S. Industry in World War II (Washington, DC: National Defense University Press, August 1996).
35. Vatter, op. cit. note 34; Gropman, op. cit. note 34.
36. Doris Kearns Goodwin, No Ordinary Time—Franklin and Eleanor Roosevelt: The Home Front in World War II (New York: Simon & Schuster, 1994), p. 316; “Point Rationing Comes of Age,” Business Week, 19 February 1944; “War Production—The Job ‘That Couldn’t Be Done’,” Business Week, 5 May 1945; Donald M. Nelson, Arsenal of Democracy: The Story of American War Production (New York: Harcourt, Brace and Co., 1946), p. 243.
37. Goodwin, op. cit. note 36, p. 316.
38. Grey quoted in Walton, op. cit. note 32.
39. “Despite Dreams, Idle Auto Plants Stay that Way,” msnbc.com, 11 January 2010; David L. Lewis, “They May Save Our Honor, Our Hopes—and Our Necks,” Michigan History, September/October 1993; Harry Braun, The Phoenix Project: Shifting from Oil to Hydrogen with Wartime Speed, prepared for the Renewable Hydrogen Roundtable, World Resources Institute, Washington, DC, 10–11 April 2003, pp. 3–4.
40. For discussion of earth restoration and basic social goals, see Chapters 10 and 11, as well as discussion in Lester R. Brown, Plan B 4.0: Mobilizing to Save Civilization (New York: W.W. Norton & Company, 2009). Table 13–1 from the following: universal primary education from UNESCO, Education For All Global Monitoring Report 2010: Reaching the Marginalized (Paris: 2010), pp. 119–31, and from Annababette Wils et al., Estimating the Costs of Achieving Education for All in Low-Income Countries, paper commissioned for the Education For All Global Monitoring Report 2010 (Paris: Education Policy and Data Center and UNESCO, December 2009); eradication of adult illiteracy is author’s estimate based on U.N. Commission on Population and Development, Thirty-sixth Session: Population, Education, and Development, press releases (New York: 31 March–4 April 2003); school lunch programs from U.N. World Food Programme, “Two Minutes to Learn About: School Meals,” fact sheet (Rome: updated May 2010); aid to women, infants, and preschool children is author’s estimate based on George McGovern, “Yes We CAN Feed the World’s Hungry,” Parade, 16 December 2001; universal reproductive health and family planning calculated by Earth Policy Institute based on U.N. Population Fund (UNFPA), Flow of Financial Resources for Assisting in the Implementation of the Programme of Action of the International Conference on Population and Development, report for the U.N. Economic and Social Council Commission on Population and Development (New York: 21 January 2009), and on J. Joseph Speidel, University of California, San Francisco Bixby Center for Global Reproductive Health, discussion with and e-mail to Brigid Fitzgerald Reading, Earth Policy Institute, 8 October 2010, with cost of closing the condom gap estimated from Population Action International, “Why Condoms Count in the Era of HIV/AIDS,” fact sheet (Washington, DC: 2008), and from UNFPA, Donor Support for Contraceptives and Condoms for STI/HIV Prevention 2007 (New York: 2008); universal basic health care from Jeffrey D. Sachs and the Commission on Macroeconomics and Health, Macroeconomics and Health: Investing in Health for Economic Development (Geneva: World Health Organization, 2001); planting trees to reduce flooding and conserve soil from Lester R. Brown and Edward C. Wolf, “Reclaiming the Future,” in Lester R. Brown et al., State of the World 1988 (New York: W. W. Norton & Company, 1988), p. 174, using data from U.N. Food and Agriculture Organization (FAO), Fuelwood Supplies in the Developing Countries, Forestry Paper 42 (Rome: 1983), plus planting trees to sequester carbon from Intergovernmental Panel on Climate Change, Climate Change 2007: Mitigation of Climate Change. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (Cambridge, U.K.: Cambridge University Press, 2007), pp. 543, 559; protecting topsoil on cropland based on Brown and Wolf, op. cit. this note, p. 174, using data from FAO, op. cit. this note; restoring rangelands from UNEP, Status of Desertification and Implementation of the United Nations Plan of Action to Combat Desertification (Nairobi: 1991), pp. 73–92, with figures converted from 1990 to 2004 dollars using implicit price deflators from U.S. Department of Commerce, Bureau of Economic Analysis, “Table C.1. GDP and Other Major NIPA Aggregates,” in Survey of Current Business, vol. 85, no. 9 (September 2005), p. D–48; restoring fisheries from Andrew Balmford et al., “The Worldwide Costs of Marine Protected Areas,” Proceedings of the National Academy of Sciences, vol. 101, no. 26 (29 June 2004), pp. 9,694–97; stabilizing water tables from author’s estimate; protecting biological diversity from World Parks Congress, Recommendations of the Vth IUCN World Parks Congress (Durban, South Africa: 2003), pp. 17–19, and from World Parks Congress, “The Durban Accord,” at www.iucn.org, viewed 19 October 2007; military expenditures from SIPRI, op. cit. note 9.
41. SIPRI, op. cit. note 9.
42. Susheela Singh et al., Adding it Up: The Costs and Benefits of Investing in Family Planning and Maternal and Newborn Health (Guttmacher Institute and UNFPA: New York, 2009), p. 4.
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