1. Environmental Economics, Politics, and Worldviews
Chapter 2

2. Key Concepts Neoclassical and ecological economics
Monitoring environmental progress
Full-cost pricing
Poverty and lower environmental quality
Shifting to environmentally sustainable economies
US environmental policies
Guidelines for environmental policies
Environmental worldviews
Living sustainably

3. Biosphere 2: A Lesson in Humility
Purpose
Located near Tucson, Arizona, USA
Unexpected consequences
Effects from the outside
Lessons learned
Fig. 18-1, p. 412

4. Biosphere 2: A Lesson in Humility
Fig. 18-1, p. 412

5. Economics and Economic Resources
What is economics?
Market-based economic system
Markets
Natural resources (natural capital)
Human resources (human capital)
Manufactured resources (manufactured capital)

6. Manufactured Resources
Types of Resources + + =
Natural Resources
Manufactured Resources
Human Resources
Goods and Services
Fig. 18-2, p. 414

7. Types of Economists Neoclassical economists Ecological economists
Environmental economists
Environmentally sustainable economy (eco-economy)
Suggestions for transitioning to an eco-economy

8. Ecological Economics Fig. 18-3, p. 414 Sun EARTH Economic Systems Heat
Depletion of nonrenewable
resources
Natural Capital
Production
Air; water, land, soil, biodiversity, minerals, raw materials, energy resources, and dilution, de-gradation, and recycling services
Degradation and
depletion of renewable
resources used faster
than replenished
Consumption
Pollution and waste
from overloading
nature’s waste disposal
and recycling systems
Recycling and reuse
Fig. 18-3, p. 414

9. Unsustainable Economic Growth and Sustainable Economic Development
©2006 Brooks/Cole - Thomson
Characteristic
Unsustainable
Economic Growth
Environmentally
Sustainable
Economic
Development
Production emphasis
Natural resources
Resource productivity
Resource throughput
Resource type
emphasized
Resource fate
Pollution control
Guiding principles
Quantity
Not very important
Inefficient
(high waste)
High
Nonrenewable
Matter discarded
Cleanup
(output reduction)
Risk–benefit
analysis
Quality
Very important
Efficient (low waste)
Low
Renewable
Matter recycled,
reused, or
composted
Prevention
(input reduction)
Prevention and
precaution
Fig. 18-4, p. 415

10. Components of Sustainable Economic Development
Production of
energy-efficient
fuel-cell cars
Underground CO2
storage using
abandoned oil wells
Forest
conservation
High-speed trains
No-till
cultivation
Deep-sea
CO2 storage
Solar-cell
fields
Bicycling
Wind farms
Communities of
passive solar homes
Cluster housing
development
Recycling
plant
Landfill
Water
conservation
Recycling, reuse,
and composting
Fig. 18-5, p. 416

11. Environmental and Economic Indicators
Gross domestic product (GDP)
Per capita GDP
Limits of economic indicators
Genuine progress indicator (GPI)

12. Per Capita GDP vs. Per Capita GPI for the US (1950-2002)
35,000
30,000
25,000
20,000
1996 Dollars per person
Per capita gross domestic product (GDP)
15,000
10,000
5,000
Per capita genuine progress indicator (GPI)
1950
1960
1970
1980
1990
2000
Year
Fig. 18-6, p. 417

13. Economics and Environmental Quality
Internal costs
External costs
Full-cost pricing
Government subsidies and tax breaks
Green taxes and fees
Tax shifting
Environmental tax reform

14. Tradeoffs of Green Taxes and Fees
Environmental Taxes and Fees
Advantages
Disadvantages
Helps bring about full-cost pricing
Provides incentive for businesses to do better to save money
Can change behavior of polluters and consumers if taxes and fees are set at a high enough level
Easily administered by existing tax agencies
Fairly easy to detect cheaters
Penalizes low-income groups unless safety nets are provided
Hard to determine optimum level for taxes and fees
Need to frequently readjust levels, which is technically and politically difficult
Governments may see this as a way of increasing general revenue instead of using funds to improve environmental quality and reduce taxes on income, payroll, and profits
Fig. 18-7, p. 418

15. Advantages of Less Taxing of Wages and Profits and More Taxing of Pollution and Waste
© 2006 Brooks/Cole - Thomson
Decreases depletion and degradation of natural resources
Improves environmental quality by full-cost pricing
Encourages pollution prevention and waste reduction
Stimulates creativity in solving environmental
problems to avoid paying pollution taxes and thereby
increases profits
Rewards recycling and reuse
Relies more on marketplace rather than regulation for
environmental protection
Provides jobs
Can stimulate sustainable economic development
Allows cuts in income, payroll, and sales taxes
Fig. 18-8, p. 419

16. Environmental Laws and Regulations
Environmental regulations
Innovation-friendly regulations
Tradable pollution and resource-use permits
Eco-labeling

17. Tradeoffs of Tradable Pollution
Tradable Environmental Permits
Advantages
Disadvantages
Flexible
Easy to administer
Encourages pollution prevention and waste reduction
Can guarantee achievement of caps
Permit prices determined by market transactions
Confronts ethical problem of how much pollution or resource waste is acceptable
Confronts problem of how permits should be fairly distributed
Big polluters and resource wasters can buy their way out
May not reduce pollution at dirtiest plants
Can exclude small companies from
buying permits
Caps can be too low
Caps must be gradually reduced to encourage innovation
Determining caps is difficult
Must decide who gets permits and why
Administrative costs high with many participants
Emissions and resource wastes must be monitored
Self-monitoring can promote cheating
Sets bad example by selling legal rights to pollute or waste resources
Fig. 18-9, p. 420

18. Eco-labeling Programs in Various Countries
Germany:
Blue Angel (1978)
Canada:
Environmental Choice (1988)
United States:
Green Seal (1989)
Nordic Council:
White Swan (1989)
European Union:
Eco-label (1992)
China:
Environmental
label (1993)
Fig , p. 420

19. Poverty What is poverty? World poverty and homelessness
Environmental and human health impacts of poverty
Neoclassical economists’ solutions (trickle-down effect)
Wealth gap
Upward flow of wealth
Causes of poverty

20. Poverty and Homelessness
Fig , p. 421

21. Global Distribution of Income
Richest fifth
85%
Poorest fifth
1.3%
Fig , p. 421

22. Reducing Poverty Shifting national budgets
Poor need land for agriculture
Conditionally forgiving debts of developing countries
Increasing aid directly to the poor in developing countries
Global effort to eliminate malnutrition and infectious diseases
Small loans to the poor
Global Outlook, p. 423, Microloans for the Poor
Investments in small-scale infrastructures
Transitions to eco-economies

23. What Should be Our Priorities?
© 2006 Brooks/Cole - Thomson
Expenditures per year (2003)
World military
$956 billion
U.S. military
$449 billion
U.S. highways
$29 billion
U.S. pet foods
$12 billion
U.S. EPA
$8 billion
U.S. foreign aid
$8 billion
U.S. cosmetics
$8 billion
Expenditures per year needed to
eliminate hunger and malnutrition
$19 billion
provide clean drinking water for all
$12 billion
provide basic healthcare for all
$11 billion
protect tropical forests
$8 billion
eliminate illiteracy
$5 billion
Fig , p. 422

24. Principles for Shifting to Eco-Economies
Economics
Environmentally
Sustainable
Economy
(Eco-Economy)
Resource Use
and Pollution
Reward (subsidize) earth-
sustaining behavior
Penalize (tax and do not
subsidize) earth-
degrading behavior
Shift taxes from wages
and profits to pollution
and waste
Use full-cost pricing
Sell more services instead
of more things
Do not deplete 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
Reduce resource use
and waste by refusing,
reducing, reusing, and
recycling
Improve energy
efficiency
Rely more on
renewable solar and
geothermal energy
Shift from a carbon
based (fossil fuel)
economy to a
solar–hydrogen based
economy
Ecology and
Population
Mimic nature
Preserve biodiversity
Repair ecological
damage
Stabilize population by
reducing fertility
Fig , p. 423

25. Factors Hindering the Ability of Democracies to Deal with Environmental Problems
Politics
Constitutional democracies
Checks and balances between executive, judicial, and legislative
Special-interest groups
Profit-making organizations
Nonprofit nongovernmental organizations (NGOs)
Dealing with long-term environmental problems

26. Developing Environmental Policies
What is environmental policy?
Principles for making environmental policy decisions (list, p. 424)
Individuals matter
Bottom up (grassroots) change
Environmental leadership
Lead by example
Work in the system
“Vote with our wallets”
Run for office
Propose and work for better solutions

27. Democracy in Action
Fig , p. 425

28. Influencing Environmental Policy
What Can You Do?
© 2006 Brooks/Cole - Thomson
What Can You Do?
Influencing Environmental Policy
Become informed on issues
Run for office (especially at local level)
Make your views known at public hearings
Make your views known to elected representatives
Contribute money and time to candidates for office
Vote
Form or join nongovernment organizations (NGOs)
seeking change
Support reform of election campaign financing
Fig , p. 425

29. Environmental Policy in the US
Federal government and policy
Laws
US Environmental laws
Funding
Regulations
Court appeals
Politics in government agencies
Lobbying
“The revolving door”
Policy life cycle

30. Enacting Environmental Legislation in the US
Lobbyists
Lobbyists
Lawmaking body
Public hearing
Special interest groups
Public advisory
Regulating enforcement body
Laws and
regulations
Legal action
Legal action
Lawyers
Lawyers
Environmental
organizations
Corporations and small businesses
Laws and regulations
Courts
Membership support
Boycotts
Individual
Purchase recyclable, recycled, and environmentally safe products
Recycle cans, bottles, paper, and plastic
Plant a garden
Donate clothes
and used goods
to charities
Use water, energy, and other resources efficiently
Use mass transit,
walk, ride a
bike, or carpool
Fig , p. 426

31. Major US Environmental Laws Since 1969
National Environmental Policy Act (NEPA) 1969
1970
Clean Air Act
1971
Clean Water Act; Coastal Zone Management Act;
Federal Insecticide, Fungicide, and Rodenticide Act;
Marine Mammal Protection Act
1972
1973
Endangered Species Act
1974
Safe Drinking Water Act
1975
Resource Conservation and Recovery Act; Toxic Substances Control Act; National Forest Management Act
1976
Soil and Water Conservation Act; Clean Water Act;
Clean Air Act Amendments
1977
1978
National Energy Act
1979
Fig , p. 427

32. Major US Environmental Laws Since 1969
Superfund (CERCLA); National Energy Act Amendments; Coastal Zone Management Act Amendments
1980
1981
1982
Endangered Species Act Amendments
1983
Hazardous and Solid Waste Amendment Act (SARA); Safe Drinking Water Act Amendments
1984
1985
Endangered Species Act Amendments
1986
Superfund Amendments and Reauthorization
1987
Clean Water Act Amendments
Federal Insecticide , Fungicide, and Rodenticide Act Amendments; Endangered Species Act Amendments
1988
1989
Fig , p. 427

33. Major US Environmental Laws Since 1969
1991
1992
1993
1990
1994
1995
1996
Clean Air Act Amendments; Reauthorization of Superfund; Waste Reduction Act
Energy Policy Act
Endangered Species Act Amendments
Safe Drinking Water Act Amendments
Fig , p. 427

34. Policy Life Cycle Fig. 18-19, p. 428 Recognition Identify the problem.
© 2006 Brooks/Cole - Thomson
Recognition
Identify the problem.
Formulation
Look for solutions.
Implementation
Implement solutions.
Control
Things are improving.
Nonpoint-source
water pollution
Indoor air pollution
Reuse
Mining wastes
Groundwater
contamination
Environmentally
harmful subsidies
Market prices do
not include
environmentally
harmful costs
Integrated
environmental
management
Global warming
Urban sprawl
Nuclear wastes
Biodiversity
protection
Pollution prevention
Toxic wastes
Resource
productivity
Aquifer depletion
Environmental
justice
Sustainable
economic
development
Acid deposition
Ozone depletion
Municipal solid waste
Protecting
endangered
species
Pest control
Soil erosion
Outdoor air pollution
Sewage treatment
Drinking water
treatment
Point source water
pollution
Recycling
Some infectious
diseases
Fig , p. 428

35. Mainline and Grassroots Environmental Groups
Nonprofit nongovernmental organizations (NGOs)
Grassroots groups
Lobbying efforts
Working with industries to solve environmental problems
Global sustainability movement
Internet and “bottom up” changes
Community action
Environmental justice
Protest marches and tree sitting
Acts of violence

36. Environmental Action in the US
Environmental awareness on campuses
Environmental audits of campuses
Green dormitories
Accomplishments of environmental groups
Polls of the US public
Opposition to environmental groups
Explaining unseen environmental problems to the public
Developing environmentally sustainable political and economic systems
Encouraging experiments in sustainability (Curitiba, Brazil)
Looking for solutions

37. Fostering Cooperation on Environmental Issues Rather than Confrontation
Recognize that business is not the enemy
Emphasize pollution prevention
Emphasize market place solutions rather than regulation
Look for “win-win” solutions
Don’t exaggerate
Be responsible

38. Global Environmental Policy
Military, economic, and environmental security
International environmental organizations
UN organizations
World bank
Global Environment Facility, World Conservation Union, etc.
Roles of various organizations
International cooperation

39. Global Environmental Efforts
Trade-Offs
Global Efforts on Environmental Problems
Good News
Bad News
Environmental protection agencies in 115 nations
Over 500 international environmental treaties and agreements
UN Environment Programme (UNEP) created in 1972 to negotiate and monitor international environmental treaties
1992 Rio Earth Summit adopted key principles for dealing with global environmental problems
2002 Johannesburg Earth Summit attempted to implement policies and goals of 1992
Rio summit and find ways to reduce poverty
Most international environmental treaties lack criteria for monitoring and evaluating their effectiveness
1992 Rio Earth Summit led to nonbinding agreements without enough funding to implement them
By 2003 there was little improvement in the major environmental problems discussed at the 1992 Rio Earth Summit
2002 Johannesburg Earth Summit failed to provide adequate goals, deadlines, and funding for dealing with global environmental problems such as climate change, biodiversity loss, and poverty
Fig , p. 431

40. Environmental Worldviews
What is an environmental worldview?
Environmental ethics
Views widely vary and often conflict
Human-centered views: planetary management and stewardship
Instrumental value
Life-centered views: environmental wisdom
Inherent or intrinsic value
Ecocentric view

41. Environmental Worldviews
© 2006 Brooks/Cole - Thomson
Environmental Worldviews
Planetary Management
• As the planet’s most important
species, we are in charge of the
earth.
• Because of our ingenuity and
technology we will not run out of
resources.
• The potential for economic
growth is essentially unlimited.
• Our success depends on how
well we manage the earth’s
life-support systems mostly for
our benefit
Stewardship
• We are the planet’s most
important species but we have an
ethical responsibility to care for the
rest of nature.
• We will probably not run out of
resources, but they should not be
wasted.
• We should encourage
environmentally beneficial forms of
economic growth and discourage
environmentally harmful forms.
• Our success depends on how well
we manage the earth’s life-support
systems for our benefit and for the
rest of nature
Environmental Wisdom
• Nature exists for all species and
we are not in charge of the earth.
• Resources are limited, should
not be wasted, and are not all for
us.
• We should encourage earth-
sustaining forms of economic
growth and discourage earth
degrading forms.
• Our success depends on learning how the earth sustains itself and integrating such lessons from nature into the ways we think and act
Fig , p. 432

42. Environmental Wisdom Worldview
Fig , p. 433

43. Living More Sustainably
Environmental literacy: key goals and basic comprehension (p. 433)
Ecological identity
Learning from the Earth
Sense of place
Living more simply
Avoiding materialism
Principle of enoughness
Becoming better environmental citizens
Avoiding traps

44. Components of the Environmental Revolution
Environmental or sustainability revolution
Biodiversity protection
Efficiency
Energy
Pollution prevention
Sufficiency
Demographics
Economics and politics
Individuals matter
“All sustainability is local” and “Think globally, act locally”

45. Environmentally Sustainable Societies
Solutions
Developing Environmentally Sustainable Societies
Guidelines
Strategies
Leave world in as good a shape as—or better than—we found it
Do not degrade or deplete the earth's natural capital, and live off the natural income it provides
Copy nature
Take no more than we need
Do not reduce biodiversity
Try not to harm life, air, water, soil
Do not change the world's climate
Help maintain the earth's capacity for self-repair
Do not overshoot the earth's carrying capacity
Repair past ecological damage
Sustain biodiversity
Eliminate poverty
Develop eco-economies
Build sustainable communities
Do not use renewable resources faster than nature can replace them
Use sustainable agriculture
Depend more on locally available renewable energy from the sun, wind, flowing water, and sustainable biomass
Emphasize pollution prevention and waste reduction
Do not waste matter and energy resources
Recycle, reuse, and compost 60–80% of matter resources
Maintain a human population size such that needs are met without threatening life-support systems
Emphasize ecological
restoration
Fig , p. 434