1. 17 TH MILLER/SPOOLMAN LIVING IN THE ENVIRONMENT Chapter 23 Economics, Environment, and Sustainability

2. Case Study: Making Microloans to the Poor (1) Micro-lending or microfinance 1983: Muhammad Yunus Grameen (Village) Bank in Bangladesh Provides microloans; mostly to women “Solidarity” groups How does it work? Half of borrowers eventually live above the poverty line

3. Case Study: Making Microloans to the Poor (2) 2006: Muhammad Yunus Nobel Peace Prize 2006: Citibank and TIAA-Cref Microloans

4. Muhammed Yunus with Nobel Prize Fig. 23-1, p. 613

5. 23-1 How Are Economic Systems Related to the Biosphere? Concept 23-1 Ecological economists and most sustainability experts regard human economic systems as subsystems of the biosphere

6. Economic Systems Are Supported by Three Types of Resources Economic systems are supported by Natural capital Human capital, human resources Manufactured capital, manufactured resources

7. Three Types of Resources Are Used to Produce Goods and Services Fig. 23-2, p. 615

8. Market Economic Systems Depend on Interactions between Buyers and Sellers (1) Supply, demand, market price equilibrium point True free market system No company or group controls prices of a good or service Market prices include all direct and indirect costs (full- cost pricing) Consumers have full information about beneficial and harmful environmental effects of goods and services

9. Market Economic Systems Depend on Interactions between Buyers and Sellers (2) Real world Tax breaks Subsidies Trade barriers Withholding of negative information

10. Supply, Demand, and Market Equilibrium for a Good in a Market Economic System Fig. 23-3, p. 615

11. Economic Growth and Economic Development Economic growth Increased capacity to supply goods and services Requires increased production and consumption Requires more consumers Economic development Improvement of living standards Environmentally sustainable economic development

12. Gross World Product, 1970-2008 Figure 1, Supplement 9

13. Gross World Product per Person, 1970- 2008 Figure 2, Supplement 9

14. Governments Intervene to Help Correct Market Failures Private goods Public services Environmental protection National security Police and fire protection Safe food and water Provided by government because private companies can’t or won’t

15. Economists Disagree over Natural Capital, Sustainable Economic Growth (1) High-throughput economies Resources flow through and end up in planetary sinks where pollutant can be at harmful levels Models of ecological economists Economic systems as subsystems of biosphere Conventional economic growth unsustainable Wealth from depletion of natural capital

16. Economists Disagree over Natural Capital, Sustainable Economic Growth (2) Ecological models’ three assumptions 1.Resources are limited and shouldn’t be wasted 2.Encourage environmentally beneficial and sustainable forms of economic development 3.Full-cost pricing needed to take into account harmful environmental and health effects of some goods and services Environmental economists take middle ground between classical and ecological economists

17. High-Throughput Economies Rely on Ever- Increasing Energy, Matter Flow Fig. 23-4, p. 617

18. Ecological Economists: Economies Are Human Subsystems of the Biosphere Fig. 23-5, p. 617

19. What Is the Purpose of a Business? Make a profit for its owners and investors Sustainability is about staying in business Another definition – “Making a quality product and earn a profit without harming the environment.”

20. 23-2 How Can We Put Values on Natural Capital and Control Pollution and Resource Use? Concept 23-2A Economists have developed several ways to estimate the present and future values of a resource or ecological service, and optimum levels of pollution control and resource use. Concept 23-2B Comparing the likely costs and benefits of an environmental action is useful, but it involves many uncertainties.

21. Protecting Natural Capital Estimating the values of the earth’s natural capital Estimate nonuse values Existence value Aesthetic value Bequest value, option value

22. Estimating the Future Value of a Resource Is Controversial Discount rates Estimate of a resource’s future economic value compared to its present value Proponents of a high discount rate Critics of a high discount

23. We Can Estimate Optimum Levels of Pollution Control and Resource Use Marginal cost of resource production Optimum level of resource use Optimum level for pollution cleanup

24. Optimum Resource Use Fig. 23-6, p. 620

25. Cost-Benefit Analysis Is a Useful but Crude Tool Cost-benefit analysis follows guidelines State all assumptions used Include estimates of the ecological services Estimate short-and long-term benefits and costs Compare the costs and benefits of alternative courses of action Always uncertainties

26. 23-3 How Can We Use Economic Tools to Deal with Environmental Problems? Concept 23-3 We can use resources more sustainably by including their harmful environmental and health costs in the market prices of goods and services (full-cost pricing); by subsidizing environmentally beneficial goods and services; and by taxing pollution and waste instead of wages and profits.

27. Most Things Cost a Lot More Than We Might Think Market price, direct price Indirect, external, or hidden costs Direct and indirect costs of a car Should indirect costs be part of the price of goods? Economists differ in their opinions

28. Environmental Economic Indicators Could Help Us Reduce Our Environmental Impact Measurement and comparison of the economic output of nations Gross domestic product (GDP) Per capita GDP Newer methods of comparison Genuine progress indicator (GPI) Gross National Happiness (GNH)

29. Monitoring Environmental Progress: Comparing U.S. Per Capita GDP and GPI Fig. 23-7, p. 622

30. We Can Include Harmful Environmental Costs in the Prices of Goods, Services Environmentally honest market system Why isn’t full-cost pricing more widely used? 1.Many businesses would have to raise prices and would go out of business 2.Difficult to estimate environmental and health costs 3.Businesses have strong influence on government – preferential regulations, tax breaks, subsidies

31. Label Environmentally Beneficial Goods and Services Product eco-labeling Certification programs Greenwashing

32. Reward Environmentally Sustainable Businesses Phase out environmentally harmful subsidies and tax breaks Phase in environmentally beneficial subsidies and tax breaks for pollution prevention Political difficulties

33. Tax Pollution and Wastes Instead of Wages and Profits Green taxes, ecotaxes So that harmful products and services are at true cost Steps for successful implementation of green taxes Success stories in Europe

34. Trade-Offs: Environmental Taxes and Fees Fig. 23-8, p. 624

35. Environmental Laws and Regulations Can Discourage or Encourage Innovation Environmental regulation Command and control approach Incentive-based environmental regulations Innovation-friendly regulations

36. We Can Use the Marketplace to Reduce Pollution and Resource Waste Incentive-based regulation example Tradable pollution or resource-use permits Cap-and-trade approach used to reduce SO 2 Advantages Disadvantages

37. Trade-Offs: Tradable Environmental Permits Fig. 23-9, p. 625

38. Reduce Pollution and Resource Waste by Selling Services Instead of Things 1980s: Braungart and Stahl New economic model Service-flow economy, eco-lease (rent) services Xerox Carrier Ray Anderson: lease carpets in the future

39. Individuals Matter: Ray Anderson CEO of Interface, largest commercial manufacturer of carpet tiles Goals Zero waste Greatly reduce energy use Reduce fossil fuel use Rely on solar energy Copying nature How’s it working?

40. Ray Anderson Fig. 23-A, p. 626

41. 23-4 How Can Reducing Poverty Help Us to Deal with Environmental Problems? Concept 23-4 Reducing poverty can help us to reduce population growth, resource use, and environmental degradation.

42. The Gap between the Rich and the Poor Is Getting Wider Poverty 1.4 billion people live on less than $1.25 per day Trickle-down effect Flooding up Wealth gap

43. Poor Family Members Struggling to Live in Mumbai, India Fig. 23-10, p. 627

44. We Can Reduce Poverty (1) South Korea and Singapore reduced poverty by Education Hard work Discipline Attracted investment capital

45. We Can Reduce Poverty (2) Important measures Combat malnutrition and infectious diseases Universal primary school education Stabilize population growth Reduce total and per-capita ecological footprints Large investments in small-scale infrastructure

46. Revisiting Microlending Microloans give hope to the poor Microloans help more than direct aid Spreading around the world Kiva.org

47. Solar Panel Purchased with Microloan in India Fig. 23-11, p. 629

48. Achieve the World’s Millennium Development Goals 2000: Millennium Development Goals Sharply reduce hunger and poverty Improve health care Empower women Environmental sustainability by 2015 Developed countries: spend 0.7% of national budget toward these goals How is it working?

49. What Should Our Priorities Be? Fig. 23-12, p. 629

50. 23-5 Making the Transition to More Environmentally Sustainable Economics Concept 23-5 We can use the three principles of sustainability as well as various economic and environmental strategies to develop more environmentally sustainable economies.

51. We Are Living Unsustainably Depleting natural capital Environmental alarm bells going off Matter recycling and reuse economies Mimic nature

52. Use Lessons from Nature to Shift to More Sustainable Economies Donella Meadows: contrasts the views of neoclassical economists and ecological economists Best long-term solution is a shift to Low-throughput low-waste, economy

53. Solutions: Lessons from Nature: A Low Throughput Economy Fig. 23-13, p. 631

54. Make Money and Create Jobs by Shifting to an Eco-Economy Hawken, Brown, and other environmental business leaders Transition to environmentally sustainable economies Some companies will disappear New jobs will be created Economic succession Green jobs

55. Solutions: Principles for Shifting to a More Environmentally Sustainable Economy Fig. 23-14, p. 631

56. Fig. 23-14, p. 630 Environmentally Sustainable Economy (Eco-Economy) Economics Reward (subsidize) environmentally sustainable economic development Penalize (tax and do not subsidize) environmentally harmful economic growth Shift taxes from wages and profits to pollution and waste Use full-cost pricing Sell more services instead of more things Do not deplete or degrade natural capital Live off income from natural capital Reduce poverty Use environmental indicators to measure progress Certify sustainable practices and products Use eco-labels on products Stepped Art Resource Use and Pollution Cut resource use and waste by reducing, reusing, and recycling Improve energy efficiency Rely more on renewable solar and geothermal energy Shift from a nonrenewable carbon-based (fossil fuel) economy to a non-carbon renewable energy economy Ecology and Population Mimic nature Preserve biodiversity Repair ecological damage Stabilize human population

57. Solutions: Environmentally Sustainable Development Fig. 23-15, p. 632

58. No-till cultivation Production of energy-efficient electric cars recharged by wind and solar energy Forest conservation Sustainable fishing and aquaculture Sustainable organic agriculture and drip- irrigation High-speed trains Solar-cell fields Ecovillage Wind farms Bicycling Water conservation Communities of passive solar homes (ecovillage) Recycling, reuse, and composting Recycling facility

59. Green Careers Fig. 23-16, p. 633

60. Environmentally Sustainable Businesses and Careers AquacultureEnvironmental law Biodiversity protection Environmental nanotechnology Biofuels Fuel cell technology Climate change research Geographic information systems (GIS) Conservation biology Hydrogen energy Geothermal geologist Ecotourism management Hydrologist Energy-efficient product design Marine science Pollution preventionEnvironmental chemistry Selling services in place of products Environmental design and architecture Recycling and reuse Sustainable agriculture Environmental economics Solar cell technology Sustainable forestry Environmental education Urban gardening Environmental engineering Waste reduction Urban planning Environmental entrepreneur Watershed hydrologist Environmental health Wind energy Water conservation

61. Green Career: Installing Solar Cells Fig. 23-17, p. 633

62. Three Big Ideas 1.Making a transition to more sustainable economies will require finding ways to estimate and include the harmful environmental and health costs of producing goods and services in their market prices. 2.Making this economic transition will also mean phasing out environmentally harmful subsidies and tax breaks, and replacing them with environmentally beneficial subsidies and tax breaks.

63. 3.Other tools to use in this transition are to tax pollution and wastes instead of wages and profits, and to use most of the revenues from these taxes to promote environmental sustainability and to reduce poverty. Three Big Ideas