Environmental And Natural Resource Economics,9780131131637

Environmental And Natural Resource Economics

by
Edition: 1st
ISBN13: 9780131131637
ISBN10: 013113163X
Format: Paperback
Pub. Date: 2005-06-23
Publisher(s): Pearson
List Price: $177.40

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Summary

The aim of this book is to provide an introduction to environmental and natural resource issues and to describe economic theories and methods used by experts working in the field.Case Studies Comprehensive treatment of a wide range of environmental and natural resource issues.A real life introduction to each chapter engages the reader in the application of the topic at hand.Unique chapter on environmental justice. Consultants or other professionals who works with economic analysis of environmental policy.

Table of Contents

Approaching Economics
1(13)
Introduction
1(1)
Natural Resource and Environmental Economics
2(1)
Natural Resource Issues
2(1)
The Cedars of Lebanon
2(1)
The Anasazi and Drought
2(1)
Water: California's Ultimate Resource
3(1)
Environmental Issues
3(3)
Drinking Water
4(1)
Ozone Depletion
5(1)
Toxic Wastes
5(1)
Air Pollution
6(1)
Why Study Environmental Economics?
6(3)
Informing Environmental Debates
6(1)
Empowerment
7(1)
Reality Checks
7(1)
Improved Communication
7(1)
Focused Scientific Debates
8(1)
Focused Policy Debates
8(1)
Importance of Economic Analysis
9(1)
Brundtland Report
9(1)
Chinese Government's Population Report
9(1)
U.S. EPA's Acid Rain Program
10(1)
Economics and Environmental Policy
10(2)
Setting the Environmental Policy Agenda
10(1)
Design of Environmental Policy
11(1)
Implementation of Environmental Policy
11(1)
Evaluation of Environmental Policy
12(1)
Summary
12(1)
Review Questions
13(1)
References
13(1)
Economic Thinking
14(21)
Introduction
14(1)
Hard Choices in Policy Issues
15(5)
Timber versus Endangered Species
15(1)
Affordable Energy versus Functioning Ecosystems
15(1)
Clean Air versus Affordable Cars
16(1)
Endangered Wolves versus Livestock and Wildlife
16(1)
Endangered Fish versus Food
17(1)
Power versus Recreation
18(1)
Mining versus Public Lands Recreation
18(1)
Riparian Ecosystems versus Livestock
18(1)
Controlling Global Warming: Current Costs versus Future Benefits
19(1)
Living Space versus Human Rights
19(1)
Energy versus Wildlife
20(1)
Short-Run Human Benefits versus Long-Run Environmental Damages
20(1)
Choices Displace Opportunities
20(2)
The Market Mechanism and Choices
22(4)
What Things Are Produced
22(1)
How Things Are Produced
23(1)
For Whom Things Are Produced
23(1)
Who Controls the Market?
23(1)
The Invisible Hand of the Market
24(1)
The Market, the Environment, and Natural Resources
24(1)
How Markets Settle Environmental Management Questions
24(1)
When Markets Are Best at Sustaining the Environment
25(1)
Limits of the Market System
25(1)
Goals and Means of Environmental Policies
26(4)
Ethics versus Externalities
27(1)
Benefits of Environmental Protection
27(1)
The Costs of Environmental Protection
27(1)
How Much Protection?
28(1)
Setting Protection Goals: Benefit-Cost Analysis
29(1)
Achieving Protection Goals: Cost-Effectiveness Analysis
29(1)
Environmental Policy Goals
30(3)
Human-Centered Goals
30(1)
Nature-Centered Goals
30(2)
Nature-versus Human-Centered Goals
32(1)
Summary
33(1)
Review Questions
33(1)
References
34(1)
Economic Theory
35(34)
Introduction
35(1)
Competitive Markets
36(1)
Demand
37(5)
Law of Demand
37(1)
Demand Curves
38(1)
Market Demand
38(2)
Change in Quantity Demanded
40(1)
Change in Demand
40(2)
Supply
42(4)
Law of Supply
42(1)
Supply Curves
43(1)
Change in Quantity Supplied
44(1)
Change in Supply
44(2)
Equilibrium Demand and Supply
46(8)
Surpluses
46(2)
Shortages
48(1)
Equilibrium
48(1)
Market Price and Quantity
48(1)
Price as a Rationing Method
49(1)
Changes in Supply, Demand, and Equilibrium
49(3)
Other Things Being Equal
52(2)
Accomplishing Environmental Goals: Markets versus Governments
54(11)
Markets
55(8)
Governments
63(2)
Summary
65(1)
Review Questions
65(2)
Problems
67(1)
References
67(2)
Institutional Breakdown
69(23)
Introduction
69(1)
Efficient Institutions
70(1)
Market Failures
70(16)
Externalities
71(4)
Public Goods
75(4)
Common Property
79(7)
Government Failures
86(2)
Rent Seeking
87(1)
Rational Ignorance
87(1)
Empire Building
88(1)
Abuses of Economic Analysis
88(1)
Summary
88(1)
Review Questions
89(1)
Problems
90(1)
References
90(2)
Decision Support for Environmental Policy
92(35)
Introduction
92(1)
Overview of Benefit-Cost Analysis
93(2)
Why Measure Benefits and Costs?
93(1)
What Benefit-Cost Analysis Is
93(1)
What Benefit-Cost Analysis Does
93(1)
How Benefit-Cost Analysis Is Used
94(1)
Economic Principles of Benefit-Cost Analysis
95(6)
Goals
95(2)
Scope of Analysis
97(1)
Incremental Analysis
97(4)
Ten Steps to Net Present Value
101(7)
Step 1: Scoping
101(1)
Step 2: Benefits per Unit
101(1)
Step 3: Costs per Unit
102(1)
Step 4: Output Quantity
102(1)
Step 5: Input Quantity
102(1)
Step 6: Benefits by Period
103(1)
Step 7: Costs by Period
103(1)
Step 8: Net Benefits by Period
104(1)
Step 9: Net Present Value
104(4)
Step 10: Decision Rules
108(1)
Measuring Benefits
108(3)
Marginal and Nonmarginal Changes
109(1)
Mathematical Methods
110(1)
Alternative Cost Saved
110(1)
User Surveys
111(1)
Measuring Costs
111(1)
Underused Resources
112(1)
Opportunity Cost of Unpriced Resources
112(1)
Treatment of Time
112(1)
Issues Affecting Both Benefits and Costs
113(2)
Secondary Effects
113(1)
Employment Impacts
114(1)
Inflation
115(1)
Risk and Uncertainty
115(1)
Alternatives to Benefit-Cost Analysis
115(4)
Cost-Effectiveness Analysis
115(4)
Environmental Impact Analysis
119(1)
Advantages and Limits of Benefit-Cost Analysis
119(3)
Advantages
119(1)
Limits
120(1)
Resolution
121(1)
Summary
122(1)
Review Questions
122(1)
Problems
123(2)
References
125(2)
The Discount Rate
127(23)
Introduction
127(1)
Using the Discount Rate to Find Net Present Value
128(8)
Tables of Discounted Values
130(4)
Application to Private Investments
134(1)
Application to Environmental Policy
135(1)
Search for a Discount Rate
136(10)
Monetary Cost of Government Borrowing
137(1)
Social Opportunity Cost of Capital
137(2)
Social Rate of Time Preference
139(7)
Summary
146(1)
Review Questions
147(1)
Problems
147(1)
References
148(2)
Valuing the Environment
150(39)
Introduction
150(1)
Relevance of Environmental Values
151(1)
Uses of Information on Economic Values of the Environment
151(1)
Monetary Measures of Environmental Values
151(1)
Individual Values and Social Welfare
152(14)
Valuation of Environmental Systems
152(1)
Expenditure Function
153(2)
Compensating and Equivalent Variation
155(3)
Consumer Surplus Approximation
158(2)
Individual Demand for Environmental Improvement
160(2)
Valuing Price and Quality Changes
162(1)
Aggregation and Social Welfare
162(4)
Methods for Measuring Environmental Values
166(18)
Market Prices
166(2)
Productivity
168(1)
Hedonic Pricing
169(2)
Travel Cost Model
171(4)
Avoided Costs
175(1)
Contingent Valuation
176(6)
Benefit Transfer
182(2)
Summary
184(1)
Review Questions
185(1)
Problems
185(2)
References
187(2)
Forests
189(36)
Introduction
189(1)
Forest Management
190(21)
Single-Use Forest Management: Timber
190(10)
Multiple-Use Forest Management
200(4)
Trade-Off Analysis
204(3)
The Equimarginal Principle
207(2)
Linking Benefits and Costs to Decisions
209(1)
Distribution of Benefits and Costs
210(1)
U.S. Forest Legislation
211(1)
Multiple Use Sustained Yield Act
211(1)
Wilderness Act
211(1)
National Environmental Policy Act
212(1)
National Forest Management Act
212(1)
Designs for Efficient, Equitable, and Sustainable Forestry
212(9)
Green Certification
213(1)
Conservation Easements
214(1)
Extractive Reserves
215(1)
Community Management
216(1)
Ecotourism
217(1)
Mitigation of Global Warming
218(1)
Gender, Property, and Health
218(2)
Stewardship Incentives
220(1)
Food Security
220(1)
Sustainable Management and Property Rights
221(1)
Summary
221(1)
Review Questions
222(1)
Problems
222(1)
References
223(2)
Rangelands
225(33)
Introduction
225(1)
The Rangeland Resource
226(1)
Scarcity and Competition
226(1)
Desirable Outcomes
227(1)
Efficiency
227(1)
Equity
228(1)
Sustainability
228(1)
Unregulated Market Outcomes
228(13)
Economically Optimum Stocking Rate
230(8)
Economic Value of Forage
238(1)
Economic Value of Range Improvements
239(1)
Grazing and Forage Dynamics
240(1)
Profit Motive and Overgrazing
240(1)
Multiple Uses for Rangelands
241(1)
Designs for Efficient, Equitable, and Sustainable Rangelands
241(11)
Market Incentives
242(1)
The Right Prices
243(1)
Regulations
244(1)
Institutional Development
244(1)
Infrastructure Development
245(1)
U.S. Grazing Fees
245(6)
U.S. Legislation on Rangelands
251(1)
Emerging Issues
252(1)
Summary
253(1)
Review Questions
254(1)
Problems
254(2)
References
256(2)
Water
258(38)
Introduction
258(1)
The Water Resource
259(5)
Use Patterns
263(1)
Management
264(1)
Desirable Outcomes
264(6)
Human Rights
265(1)
Efficiency
265(4)
Equity and Sustainability
269(1)
Actual Outcomes
270(11)
Water Laws
270(1)
Supply Management
271(3)
Demand Management
274(5)
Regulations
279(2)
Institutional Designs for Economically Efficient Water Use
281(11)
Marginal Cost Pricing
281(4)
Two-Tiered Pricing
285(2)
Integrated Demand/Supply Management
287(1)
Transboundary Management of River Basins
287(1)
Virtual Water
288(1)
Managing Links Between Poverty and Water
289(1)
Decentralized Management
289(1)
Politically Workable Marginal Cost Pricing
290(1)
Stakeholder Participation
291(1)
Summary
292(1)
Review Questions
293(1)
Problems
293(1)
References
294(2)
Food
296(37)
Introduction
296(1)
Food Production and Distribution
297(3)
Food Production Mechanisms
297(1)
Food Distribution Problems
297(3)
Desirable Outcomes
300(1)
Market Outcomes
301(14)
Complexity of Farm Decisions
301(1)
Farmers' Goals
301(1)
Product-Product Relations
302(2)
Factor-Factor Relations
304(2)
Factor-Product Relations
306(2)
Technical Change
308(1)
Output-Price Relations
309(3)
Impact of Agriculture on the Environment
312(3)
Institutional Design for Improving Food Policy Outcomes
315(13)
Short-Term Measure: Emergency Relief
316(1)
Intermediate-Term Measures
316(7)
Long-Term Measures
323(5)
Summary
328(1)
Review Questions
329(1)
Problems
329(1)
References
330(3)
Fisheries
333(23)
Introduction
333(2)
Biological Model of a Fishery
335(2)
Economically Efficient Model of a Fishery
337(2)
Market Allocations
339(3)
Sole Owner
339(1)
Joint Owners: Open Access
340(2)
Institutional Designs for Real-World Fisheries
342(11)
Market Solutions: Fish Farming and Fish Ranching
342(2)
Open Access Regulations
344(3)
Limited Entry Regulations: Economic Analysis
347(4)
Expanded Territorial Waters
351(1)
Enforcement Issues
351(2)
Summary
353(1)
Review Questions
354(1)
Problems
354(1)
References
355(1)
Energy
356(40)
Introduction
356(1)
The Energy Resource
357(2)
Measuring Energy Use
357(1)
Energy and Poverty
358(1)
Need for an Energy Policy
358(1)
Energy Policy Objectives
359(1)
Market Allocations of Energy
360(20)
Economic Concepts
360(9)
Energy Sources
369(3)
The OPEC Cartel
372(5)
Market Outlooks for the Future
377(3)
Institutional Designs for Renewable Energy Sources
380(12)
Marginal Cost Pricing
381(2)
Environmental Adders
383(1)
Energy and Pollution Taxes
383(1)
Promotion of Renewable Energy
384(3)
Standards
387(1)
Green Power
388(1)
Voluntary Action
388(1)
Conservation
389(3)
Summary
392(1)
Review Questions
393(1)
References
393(3)
Population
396(22)
Introduction
396(1)
Population and the Environment
397(2)
Structural Analysis
398(1)
Forecasting
398(1)
Policy Evaluation
398(1)
Population and Demography
399(1)
Macroeconomic Forces
400(7)
Effect of Economic Growth on Population Growth
401(2)
Effect of Population Growth on Economic Growth
403(4)
Microeconomic Forces: Economic Theory of Fertility
407(6)
Demand for Children
407(1)
Cost of Children
408(5)
Emerging Questions
413(2)
Summary
415(1)
Review Questions
415(1)
Problems
416(1)
References
416(2)
Climate Change
418(27)
Introduction
418(1)
Scientific Evidence of Climate Change
419(2)
Economic Analysis
421(6)
Role of Technological Change
421(1)
Economic Impacts
422(1)
Analytical Framework
423(2)
Benefits of Controlling Greenhouse Gases
425(1)
Costs of Controlling Greenhouse Gases
425(1)
Benefit-Cost Analysis
426(1)
Policy Options for Dealing with Climate Changes
427(7)
Adjustment
428(1)
Mitigation
428(1)
Prevention
428(5)
Planet Insurance
433(1)
International Agreements on Global Warming
434(8)
United Nations Framework (1992)
434(1)
Berlin (1995)
435(2)
Geneva (1996)
437(1)
Kyoto (1997)
437(2)
Buenos Aires (1998)
439(1)
Marrakesh (2001)
439(3)
Summary
442(1)
Review Questions
443(1)
Problems
443(1)
References
444(1)
Environmental Quality and Pollution
445(46)
Introduction
445(1)
Physical Basis of Environmental Pollution
446(2)
Absorptive Capacity: Stock versus Flow
446(1)
Spatial Scale: Local versus Regional versus Global
447(1)
Origin: Point versus Nonpoint Sources
447(1)
Occurrence: Continuous versus Episodic
447(1)
Desirable Outcome Criteria
448(13)
Economic Efficiency
448(11)
Equity in Pollution Control
459(1)
Environmental Sustainability
460(1)
Unregulated Market Outcomes
461(1)
Institutional Designs for Controlling Pollution
461(25)
Decentralization
461(5)
Command-and-Control Approach
466(7)
Harnessing Market Incentives
473(9)
Enforcement
482(4)
Summary
486(1)
Review Questions
486(1)
Problems
487(2)
References
489(2)
Environmental Risk
491(35)
Introduction
491(1)
Nature of Risk
492(3)
Complexity
492(1)
Causality
493(1)
Voluntary versus Involuntary
493(1)
Perceived versus Objective
494(1)
Desirable Outcomes
495(5)
Economic Efficiency
496(3)
Equity
499(1)
Sustainability
500(1)
Unregulated Market Outcomes
500(4)
Choices under Risk
501(1)
Environmental Risk Insurance
501(3)
Insurability and the Market
504(1)
Institutional Designs for Coping with Environmental Risks
504(19)
Risk Assessment
505(2)
Risk Management
507(11)
Risk Management Institutions
518(5)
Summary
523(1)
Review Questions
523(1)
Problem
524(1)
References
524(2)
Environmental Justice
526(20)
Introduction
526(1)
What Is Environmental Justice?
527(2)
Measuring Environmental Justice
529(1)
Economic Theory and Policy Analysis
530(4)
Applications to Achieve Environmental Justice
534(6)
Benefits and Costs of Controlling Environmental Degradation
534(4)
Quantifying Environmental Justice
538(2)
Evidence of Environmental Justice
540(3)
Summary
543(1)
Review Questions
544(1)
Problem
544(1)
References
545(1)
Sustainable Development
546(24)
Introduction
546(1)
Deciding What to Sustain
547(6)
Reasons for Sustainability
547(1)
Definitions of Sustainability
548(5)
Measuring Progress of Sustainability
553(2)
Conditions for Sustainability
554(1)
Instruments for Implementing Sustainability
555(5)
Finding Right Prices
555(1)
The Hartwick-Solow Rule
555(1)
Critical Natural Capital
556(1)
Safe Minimum Standard
557(1)
Avoiding Irreversibility
558(1)
Steady-State Principles
559(1)
Policy Applications
560(8)
Institutional Design
561(5)
Global Actions
566(2)
Summary
568(1)
Review Questions
568(1)
Problems
569(1)
References
569(1)
Appendix A Supply and Demand Mathematics 570(3)
Appendix B Total Benefit Marginal Benefit, and Consumer Surplus 573(2)
Appendix C Use of Programming Methods to Value Public Actions 575(1)
Appendix D Improving Cost-Effectiveness of Environmental Programs 576(1)
Appendix E Preferences, Demand, and Benefits 577(2)
Appendix F Incentive Compatibility in Contingent Valuation Studies 579(2)
Appendix G Critiques of Contingent Valuation 581(7)
Appendix H Infinite Time Horizons and Forest Rotation Analysis 588(3)
Appendix I Dynamic Efficiency for a Depletable Resource 591(2)
Glossary 593(11)
Index 604

Excerpts

PrefaceFew modern issues have so dramatically influenced consumer decisions, personal lifestyles, corporate planning, and public policy as environmental and natural resource problems. The years since 1970 have seen changes in product design and packaging, corporate investments, personal career and lifestyle choices, government tax policies, and emerging technologies to name but a few because public and private decisions are now shaped by environmental and natural resource issues.With this book, I hope to bring those of you starting your study of environmental and natural resource economics close to today's exciting policy issues and introduce you to the theories and methods of analysis that economists use to approach these issues. This book shows you how economic tools, such as benefit-cost analysis, can be used to understand a wide range of real environmental and natural resource problems. The tools of economists can help design practical policy solutions to environmental problems. They also can contribute to public debate about complicated and emotional environmental issues by providing a framework that is universal, rigorous and testable.This book is intended to be readable by students who have completed one semester of microeconomic principles, but it also will engage students with a wider economics background. The aim of the book is to provide an introduction to environmental and natural resource issues and to describe economic theories and methods used by experts working in the field.Graphs, tables, and numerical examples are included to reinforce the principles presented in the text. No mathematics beyond simple algebra is required. All mathematics beyond algebra (e.g., calculus) is relegated to footnotes and appendixes. Most chapters have several numbered examples that present current, real-life examples for research and policy applications of the economic principles discussed in the chapter. Each chapter ends with questions that provide an opportunity to apply the chapter's material through class discussion, personal reflection, and exam preparation. The appendixes at the end of the book include advanced quantitative methods of analysis.The topics and structure of this book encourage its use for a variety of course work. All of the chapters could find a place in an upper division environmental economics course. Some chapters could be a source for graduate student or others who wish to pursue more specialized research interests. There may be more material in this book that can be cover well in one semester. The additional information opens up options for selecting topics that best cover the interests, expectations, and backgrounds of instructors and students. For example, a one-semester course in environmental economics could be organized around Chapters 1 - 7 and 14 - 19. If a brief introduction to natural resource economics is desired, Chapter 8 and/or 12 could be added. A one-term course in natural resource economics could cover Chapters 1- 6 and 8 - 13. An introduction to environmental economics could be accomplished by adding Chapter 7 and/or Chapter 16.This focuses on environmental and natural resource policy. It presents a considerable amount of economic theory, methods, and data for the purpose of gaining a better insight into policy solutions. Although this is an economics book, it is not limited to economics. Economics is not a stand-alone discipline; rather, other disciplines complement the ability of economics to sharpen our understanding pf policy issues. The disciplines of biology, the physical sciences, law, history, political science, and philosophy are introduced where their insights enhance the power of economics in confronting policy problems. In some cases, combining other disciplines with economics presents contrasting views of a problem, focuses a policy debate, or suggests competing hypotheses in the search for policy solu

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