Economics and Ecological Risk Assessment
Applications to Watershed Management
Herausgeber: Bruins, Randall J F; Heberling, Matthew T
Economics and Ecological Risk Assessment
Applications to Watershed Management
Herausgeber: Bruins, Randall J F; Heberling, Matthew T
- Broschiertes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
With contributions from economists, ecologists, and government agency professionals, this book provides a multidisciplinary approach to environmental decision at a watershed level. It integrates ecological risk assessment (ERA) and economic analysis to improve environmental management in a diversity of watersheds. It includes different points of vi
Andere Kunden interessierten sich auch für
- Regional Scale Ecological Risk Assessment69,99 €
- Allan MazurEnergy and Electricity in Industrial Nations61,99 €
- Mario GiampietroEnergy Analysis for a Sustainable Future77,99 €
- Emerging Trends and Innovations in Industries of the Developing World61,99 €
- Manu V MathaiNuclear Power, Economic Development Discourse and the Environment65,99 €
- Ocean Energy71,99 €
- Drought Management and Planning for Water Resources92,99 €
-
-
-
With contributions from economists, ecologists, and government agency professionals, this book provides a multidisciplinary approach to environmental decision at a watershed level. It integrates ecological risk assessment (ERA) and economic analysis to improve environmental management in a diversity of watersheds. It includes different points of vi
Produktdetails
- Produktdetails
- Verlag: Bsp Books Pvt. Ltd.
- Seitenzahl: 472
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 234mm x 156mm x 24mm
- Gewicht: 662g
- ISBN-13: 9780367578107
- ISBN-10: 0367578107
- Artikelnr.: 69895291
- Verlag: Bsp Books Pvt. Ltd.
- Seitenzahl: 472
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 234mm x 156mm x 24mm
- Gewicht: 662g
- ISBN-13: 9780367578107
- ISBN-10: 0367578107
- Artikelnr.: 69895291
Randall J. F. Bruins, Matthew T. Heberling
Introduction. Background, Concepts, and Methods. Watershed Planning and
Management in the United States. Introduction to Ecological Risk Assessment
in Watersheds. A Framework for Risk Analysis for Ecological Restoration
Projects in the U.S. Army Corps of Engineers. Appendix 4-A: Example
Application of Risk Analysis for a USACE Ecological Restoration Project.
Introduction to Economic Analysis in Watersheds. Appendix 5-A: Discussion
of Stated Preference Methods Used in Three Case Studies. Ecological and
Economic Analysis for Water Quality Standards. Appendix 6-A: Using
Multimedia Indices to Define the Integrity of Stream Biological Assemblages
and Instream Habitat. Decision-Making and Uncertainty in Ambient Water
Quality Management. Scaling Environmental Restoration and Habitat
Equivalency Analysis. A Conceptual Approach for Integrated Watershed
Management. Appendix 9-A: Discussion of Existing Frameworks that Have Been
Applied To Watershed Management. Appendix 9-B: Sociocultural Assessment
Methods. Applications. Evaluating Development Alternatives for a
High-quality Stream Threatened by Urbanization: Big Darby Creek Watershed.
Weighing Biodiversity and Sectoral Development Values in a Rural Valley:
Clinch and Powell River Watershed. Appendix 11-A: Random Utility Model.
Appendix 11-B: Excerpt from Survey Administered by the University of
Tennessee: Explanation of Hypothetical Agricultural Policies and their
Potential Impacts. Seeking Solutions for an Interstate Conflict over Water
and Endangered Species: Platte River Watershed. Appendix 12-A: Summary of
Survey Response Information Used to Calculate Utility of Environmental
Management Policy Options for the Central Platte River Floodplain. An
Integrated Ecological-Economic Model for Scenario Analysis: Anticipating
Change in the Hudson River Watershed. Determining Tradeoffs among
Ecological Services: Planning for Ecological Restoration in the Lower Fox
River and Green Bay. The Habitat-Based Replacement Cost Method: Building on
the Habitat Equivalency Method to Inform Regulatory or Permit Decisions
under the Clean Water Act. Conclusions.
Management in the United States. Introduction to Ecological Risk Assessment
in Watersheds. A Framework for Risk Analysis for Ecological Restoration
Projects in the U.S. Army Corps of Engineers. Appendix 4-A: Example
Application of Risk Analysis for a USACE Ecological Restoration Project.
Introduction to Economic Analysis in Watersheds. Appendix 5-A: Discussion
of Stated Preference Methods Used in Three Case Studies. Ecological and
Economic Analysis for Water Quality Standards. Appendix 6-A: Using
Multimedia Indices to Define the Integrity of Stream Biological Assemblages
and Instream Habitat. Decision-Making and Uncertainty in Ambient Water
Quality Management. Scaling Environmental Restoration and Habitat
Equivalency Analysis. A Conceptual Approach for Integrated Watershed
Management. Appendix 9-A: Discussion of Existing Frameworks that Have Been
Applied To Watershed Management. Appendix 9-B: Sociocultural Assessment
Methods. Applications. Evaluating Development Alternatives for a
High-quality Stream Threatened by Urbanization: Big Darby Creek Watershed.
Weighing Biodiversity and Sectoral Development Values in a Rural Valley:
Clinch and Powell River Watershed. Appendix 11-A: Random Utility Model.
Appendix 11-B: Excerpt from Survey Administered by the University of
Tennessee: Explanation of Hypothetical Agricultural Policies and their
Potential Impacts. Seeking Solutions for an Interstate Conflict over Water
and Endangered Species: Platte River Watershed. Appendix 12-A: Summary of
Survey Response Information Used to Calculate Utility of Environmental
Management Policy Options for the Central Platte River Floodplain. An
Integrated Ecological-Economic Model for Scenario Analysis: Anticipating
Change in the Hudson River Watershed. Determining Tradeoffs among
Ecological Services: Planning for Ecological Restoration in the Lower Fox
River and Green Bay. The Habitat-Based Replacement Cost Method: Building on
the Habitat Equivalency Method to Inform Regulatory or Permit Decisions
under the Clean Water Act. Conclusions.
Introduction. Background, Concepts, and Methods. Watershed Planning and
Management in the United States. Introduction to Ecological Risk Assessment
in Watersheds. A Framework for Risk Analysis for Ecological Restoration
Projects in the U.S. Army Corps of Engineers. Appendix 4-A: Example
Application of Risk Analysis for a USACE Ecological Restoration Project.
Introduction to Economic Analysis in Watersheds. Appendix 5-A: Discussion
of Stated Preference Methods Used in Three Case Studies. Ecological and
Economic Analysis for Water Quality Standards. Appendix 6-A: Using
Multimedia Indices to Define the Integrity of Stream Biological Assemblages
and Instream Habitat. Decision-Making and Uncertainty in Ambient Water
Quality Management. Scaling Environmental Restoration and Habitat
Equivalency Analysis. A Conceptual Approach for Integrated Watershed
Management. Appendix 9-A: Discussion of Existing Frameworks that Have Been
Applied To Watershed Management. Appendix 9-B: Sociocultural Assessment
Methods. Applications. Evaluating Development Alternatives for a
High-quality Stream Threatened by Urbanization: Big Darby Creek Watershed.
Weighing Biodiversity and Sectoral Development Values in a Rural Valley:
Clinch and Powell River Watershed. Appendix 11-A: Random Utility Model.
Appendix 11-B: Excerpt from Survey Administered by the University of
Tennessee: Explanation of Hypothetical Agricultural Policies and their
Potential Impacts. Seeking Solutions for an Interstate Conflict over Water
and Endangered Species: Platte River Watershed. Appendix 12-A: Summary of
Survey Response Information Used to Calculate Utility of Environmental
Management Policy Options for the Central Platte River Floodplain. An
Integrated Ecological-Economic Model for Scenario Analysis: Anticipating
Change in the Hudson River Watershed. Determining Tradeoffs among
Ecological Services: Planning for Ecological Restoration in the Lower Fox
River and Green Bay. The Habitat-Based Replacement Cost Method: Building on
the Habitat Equivalency Method to Inform Regulatory or Permit Decisions
under the Clean Water Act. Conclusions.
Management in the United States. Introduction to Ecological Risk Assessment
in Watersheds. A Framework for Risk Analysis for Ecological Restoration
Projects in the U.S. Army Corps of Engineers. Appendix 4-A: Example
Application of Risk Analysis for a USACE Ecological Restoration Project.
Introduction to Economic Analysis in Watersheds. Appendix 5-A: Discussion
of Stated Preference Methods Used in Three Case Studies. Ecological and
Economic Analysis for Water Quality Standards. Appendix 6-A: Using
Multimedia Indices to Define the Integrity of Stream Biological Assemblages
and Instream Habitat. Decision-Making and Uncertainty in Ambient Water
Quality Management. Scaling Environmental Restoration and Habitat
Equivalency Analysis. A Conceptual Approach for Integrated Watershed
Management. Appendix 9-A: Discussion of Existing Frameworks that Have Been
Applied To Watershed Management. Appendix 9-B: Sociocultural Assessment
Methods. Applications. Evaluating Development Alternatives for a
High-quality Stream Threatened by Urbanization: Big Darby Creek Watershed.
Weighing Biodiversity and Sectoral Development Values in a Rural Valley:
Clinch and Powell River Watershed. Appendix 11-A: Random Utility Model.
Appendix 11-B: Excerpt from Survey Administered by the University of
Tennessee: Explanation of Hypothetical Agricultural Policies and their
Potential Impacts. Seeking Solutions for an Interstate Conflict over Water
and Endangered Species: Platte River Watershed. Appendix 12-A: Summary of
Survey Response Information Used to Calculate Utility of Environmental
Management Policy Options for the Central Platte River Floodplain. An
Integrated Ecological-Economic Model for Scenario Analysis: Anticipating
Change in the Hudson River Watershed. Determining Tradeoffs among
Ecological Services: Planning for Ecological Restoration in the Lower Fox
River and Green Bay. The Habitat-Based Replacement Cost Method: Building on
the Habitat Equivalency Method to Inform Regulatory or Permit Decisions
under the Clean Water Act. Conclusions.