Biophysical Economy: Theory, Challenges, and Sustainability
Explores the concept of transforming the current macroeconomic system from a system based on continuous growth that doesn't recognize the fundamental importance of Earth's natural support structures, to a system consistent with the basic views of biophysical economics that recognizes that...
Gespeichert in:
| Beteilige Person: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | Englisch |
| Veröffentlicht: |
Milton
Taylor & Francis Group
2024
|
| Ausgabe: | 1st ed |
| Schriftenreihe: | Applied Ecology and Environmental Management Series
|
| Links: | https://ebookcentral.proquest.com/lib/hwr/detail.action?docID=31504880 |
| Zusammenfassung: | Explores the concept of transforming the current macroeconomic system from a system based on continuous growth that doesn't recognize the fundamental importance of Earth's natural support structures, to a system consistent with the basic views of biophysical economics that recognizes that real wealth derives from finite planetary resources |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Umfang: | 1 Online-Ressource (179 Seiten) |
| ISBN: | 9781040227169 |
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| 245 | 1 | 0 | |a Biophysical Economy |b Theory, Challenges, and Sustainability |
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| 264 | 1 | |a Milton |b Taylor & Francis Group |c 2024 | |
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| 505 | 8 | |a Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- About the Author -- Acknowledgments -- Section 1 Introduction -- Chapter 1 Introduction -- 1.1 This Book -- 1.2 Neoclassical Economic Paradigm -- 1.3 Economic Growth -- 1.4 Dynamic Carrying Capacity -- 1.5 Existential Risk -- 1.6 Brief Chapter Introductions -- Chapter 2 Earth Systems -- 2.1 Fragility of Life on Earth -- 2.1.1 Hydrological Cycle -- 2.1.2 Nitrogen Cycle -- 2.2 Ecosystems and Life Support -- 2.3 Sensitive Ecosystems -- 2.4 Renewable Resources and Renewal Rates -- 2.5 Managing Non-renewable Resources -- Chapter 3 Planetary Boundaries -- 3.1 Boundaries -- 3.2 Planetary Boundaries Status -- 3.3 Breaking Ecological Constraints -- 3.4 Limits to Growth -- 3.5 Ecological Footprint -- 3.6 Human Population Growth and Finite Singularity -- Section 2 Pillars of a Biophysical Economy -- Chapter 4 Biophysical Economics -- 4.1 Economics -- 4.1.1 Historical Economies -- 4.2 Ecological Economics -- 4.3 Biophysical Economics -- Chapter 5 Creating a Biophysical Economy -- 5.1 Towards an Initial Biophysical Economy -- 5.2 The Reality -- 5.3 Earth Life-Support Systems -- 5.4 Private Sector -- 5.5 General Public -- 5.6 Government -- 5.7 Finance -- 5.8 Policy -- 5.9 Feedback Mechanisms -- 5.10 Models -- 5.11 The End Game -- Chapter 6 Private Sector -- 6.1 The Private Sector -- 6.2 Private Sector Role in Biophysical Economics -- 6.3 Capitalism -- 6.4 Reinventing Capitalism -- 6.5 Environment, Social, and Governance (ESG) -- 6.6 Sustainable Development Goals -- 6.7 A Science of Corporations -- 6.8 The Private Sector, Sustainable Economy, and Scale -- Note -- Chapter 7 General Public -- 7.1 The Neoclassical Consumer -- 7.2 Maslow's Hierarchy -- 7.2.1 Physiological -- 7.2.2 Safety -- 7.2.3 Belongingness and Love -- 7.2.4 Esteem -- 7.2.5 Self-Actualization | |
| 505 | 8 | |a 7.3 A Biophysical Consumerism -- 7.3.1 Spending -- 7.3.2 Consumer Ecoregions -- 7.3.3 Savings and Investments -- 7.4 Participation in Governance -- Note -- Chapter 8 Government -- 8.1 Introduction -- 8.2 Executive Branch -- 8.2.1 Independent Federal Agencies -- 8.3 Legislative Branch -- 8.4 Judicial Branch -- 8.5 Data Collection -- 8.6 Data Sharing and Transparency -- 8.7 Government and Finance -- 8.8 Government and Policy -- Chapter 9 Finance -- 9.1 Introduction -- 9.2 Financial Impacts of Environmental Degradation -- 9.2.1 Air Pollution -- 9.2.2 Water Pollution -- 9.2.3 Ecosystem Services -- 9.3 Financial Impacts of Natural Disasters -- 9.4 Lending -- Parameter 1 - Use of Proceeds -- Parameter 2 - Company Profile -- Parameter 3 - Sustainability-Linked Solutions -- 9.5 Investment -- 9.6 Biophysical Economy and Equities -- 9.7 Costs of a Biophysical Economy -- 9.7.1 Design -- 9.7.2 Establishment -- 9.7.3 Operating Costs -- Chapter 10 Policy, Society, and Culture -- 10.1 Introduction -- 10.2 Policy and Economic Worldview -- 10.3 Policy and Politics -- 10.4 Society and Culture -- 10.5 Globalism -- 10.6 Policy and Models -- 10.6.1 Scale Sufficiency -- 10.7 Green Economy Policies -- Section 3 Synthesis -- Chapter 11 Feedback Mechanisms -- 11.1 Introduction -- 11.2 Positive Feedback -- 11.3 Negative Feedback -- 11.4 Properties of Dynamic Systems -- 11.5 Dynamic Carrying Capacity -- 11.6 Ecosystem Management and Feedback Mechanisms -- 11.7 Feedback, Carrying Capacity, and a Biophysical Economy -- Chapter 12 Models and Economic Transformation -- 12.1 Relevance and Contribution of Models -- 12.2 Global-Scale Models -- 12.3 System of Environmental-Economic Accounting (SEEA) -- 12.4 Regional Models -- 12.5 Corporate Models -- 12.6 Environmental Profit and Loss Models -- Chapter 13 Prescriptions for a Biophysical Economy -- 13.1 Introduction | |
| 505 | 8 | |a 13.2 A More Realistic Model -- 13.2.1 Desirable and Sustainable Stocks -- 13.2.2 Flows Compatible with Biophysical Constraints -- 13.2.3 Population Size -- 13.3 Recognizing Boundaries -- 13.4 Adding Policy -- 13.5 Adding Socioeconomic and Cultural Context -- 13.6 Financial Considerations -- 13.7 Addressing Energy Needs -- 13.7.1 Energy Return on Investment -- 13.8 A Beta-Version Biophysical Economy -- References -- Index | |
| 520 | |a Explores the concept of transforming the current macroeconomic system from a system based on continuous growth that doesn't recognize the fundamental importance of Earth's natural support structures, to a system consistent with the basic views of biophysical economics that recognizes that real wealth derives from finite planetary resources | ||
| 776 | 0 | 8 | |i Erscheint auch als |n Druck-Ausgabe |a Bartell, Steven M. |t Biophysical Economy |d Milton : Taylor & Francis Group,c2024 |z 9781032310794 |
| 912 | |a ZDB-30-PQE | ||
| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-035439563 | |
| 966 | e | |u https://ebookcentral.proquest.com/lib/hwr/detail.action?docID=31504880 |l DE-2070s |p ZDB-30-PQE |q HWR_PDA_PQE |x Aggregator |3 Volltext | |
Datensatz im Suchindex
| _version_ | 1823675911924350976 |
|---|---|
| adam_text | |
| any_adam_object | |
| author | Bartell, Steven M. |
| author_facet | Bartell, Steven M. |
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| author_sort | Bartell, Steven M. |
| author_variant | s m b sm smb |
| building | Verbundindex |
| bvnumber | BV050102401 |
| collection | ZDB-30-PQE |
| contents | Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- About the Author -- Acknowledgments -- Section 1 Introduction -- Chapter 1 Introduction -- 1.1 This Book -- 1.2 Neoclassical Economic Paradigm -- 1.3 Economic Growth -- 1.4 Dynamic Carrying Capacity -- 1.5 Existential Risk -- 1.6 Brief Chapter Introductions -- Chapter 2 Earth Systems -- 2.1 Fragility of Life on Earth -- 2.1.1 Hydrological Cycle -- 2.1.2 Nitrogen Cycle -- 2.2 Ecosystems and Life Support -- 2.3 Sensitive Ecosystems -- 2.4 Renewable Resources and Renewal Rates -- 2.5 Managing Non-renewable Resources -- Chapter 3 Planetary Boundaries -- 3.1 Boundaries -- 3.2 Planetary Boundaries Status -- 3.3 Breaking Ecological Constraints -- 3.4 Limits to Growth -- 3.5 Ecological Footprint -- 3.6 Human Population Growth and Finite Singularity -- Section 2 Pillars of a Biophysical Economy -- Chapter 4 Biophysical Economics -- 4.1 Economics -- 4.1.1 Historical Economies -- 4.2 Ecological Economics -- 4.3 Biophysical Economics -- Chapter 5 Creating a Biophysical Economy -- 5.1 Towards an Initial Biophysical Economy -- 5.2 The Reality -- 5.3 Earth Life-Support Systems -- 5.4 Private Sector -- 5.5 General Public -- 5.6 Government -- 5.7 Finance -- 5.8 Policy -- 5.9 Feedback Mechanisms -- 5.10 Models -- 5.11 The End Game -- Chapter 6 Private Sector -- 6.1 The Private Sector -- 6.2 Private Sector Role in Biophysical Economics -- 6.3 Capitalism -- 6.4 Reinventing Capitalism -- 6.5 Environment, Social, and Governance (ESG) -- 6.6 Sustainable Development Goals -- 6.7 A Science of Corporations -- 6.8 The Private Sector, Sustainable Economy, and Scale -- Note -- Chapter 7 General Public -- 7.1 The Neoclassical Consumer -- 7.2 Maslow's Hierarchy -- 7.2.1 Physiological -- 7.2.2 Safety -- 7.2.3 Belongingness and Love -- 7.2.4 Esteem -- 7.2.5 Self-Actualization 7.3 A Biophysical Consumerism -- 7.3.1 Spending -- 7.3.2 Consumer Ecoregions -- 7.3.3 Savings and Investments -- 7.4 Participation in Governance -- Note -- Chapter 8 Government -- 8.1 Introduction -- 8.2 Executive Branch -- 8.2.1 Independent Federal Agencies -- 8.3 Legislative Branch -- 8.4 Judicial Branch -- 8.5 Data Collection -- 8.6 Data Sharing and Transparency -- 8.7 Government and Finance -- 8.8 Government and Policy -- Chapter 9 Finance -- 9.1 Introduction -- 9.2 Financial Impacts of Environmental Degradation -- 9.2.1 Air Pollution -- 9.2.2 Water Pollution -- 9.2.3 Ecosystem Services -- 9.3 Financial Impacts of Natural Disasters -- 9.4 Lending -- Parameter 1 - Use of Proceeds -- Parameter 2 - Company Profile -- Parameter 3 - Sustainability-Linked Solutions -- 9.5 Investment -- 9.6 Biophysical Economy and Equities -- 9.7 Costs of a Biophysical Economy -- 9.7.1 Design -- 9.7.2 Establishment -- 9.7.3 Operating Costs -- Chapter 10 Policy, Society, and Culture -- 10.1 Introduction -- 10.2 Policy and Economic Worldview -- 10.3 Policy and Politics -- 10.4 Society and Culture -- 10.5 Globalism -- 10.6 Policy and Models -- 10.6.1 Scale Sufficiency -- 10.7 Green Economy Policies -- Section 3 Synthesis -- Chapter 11 Feedback Mechanisms -- 11.1 Introduction -- 11.2 Positive Feedback -- 11.3 Negative Feedback -- 11.4 Properties of Dynamic Systems -- 11.5 Dynamic Carrying Capacity -- 11.6 Ecosystem Management and Feedback Mechanisms -- 11.7 Feedback, Carrying Capacity, and a Biophysical Economy -- Chapter 12 Models and Economic Transformation -- 12.1 Relevance and Contribution of Models -- 12.2 Global-Scale Models -- 12.3 System of Environmental-Economic Accounting (SEEA) -- 12.4 Regional Models -- 12.5 Corporate Models -- 12.6 Environmental Profit and Loss Models -- Chapter 13 Prescriptions for a Biophysical Economy -- 13.1 Introduction 13.2 A More Realistic Model -- 13.2.1 Desirable and Sustainable Stocks -- 13.2.2 Flows Compatible with Biophysical Constraints -- 13.2.3 Population Size -- 13.3 Recognizing Boundaries -- 13.4 Adding Policy -- 13.5 Adding Socioeconomic and Cultural Context -- 13.6 Financial Considerations -- 13.7 Addressing Energy Needs -- 13.7.1 Energy Return on Investment -- 13.8 A Beta-Version Biophysical Economy -- References -- Index |
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| dewey-full | 338.9/27 |
| dewey-hundreds | 300 - Social sciences |
| dewey-ones | 338 - Production |
| dewey-raw | 338.9/27 |
| dewey-search | 338.9/27 |
| dewey-sort | 3338.9 227 |
| dewey-tens | 330 - Economics |
| discipline | Wirtschaftswissenschaften |
| edition | 1st ed |
| format | Electronic eBook |
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| id | DE-604.BV050102401 |
| illustrated | Not Illustrated |
| indexdate | 2025-02-10T13:07:58Z |
| institution | BVB |
| isbn | 9781040227169 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-035439563 |
| oclc_num | 1492129530 |
| open_access_boolean | |
| owner | DE-2070s |
| owner_facet | DE-2070s |
| physical | 1 Online-Ressource (179 Seiten) |
| psigel | ZDB-30-PQE ZDB-30-PQE HWR_PDA_PQE |
| publishDate | 2024 |
| publishDateSearch | 2024 |
| publishDateSort | 2024 |
| publisher | Taylor & Francis Group |
| record_format | marc |
| series2 | Applied Ecology and Environmental Management Series |
| spelling | Bartell, Steven M. Verfasser aut Biophysical Economy Theory, Challenges, and Sustainability 1st ed Milton Taylor & Francis Group 2024 ©2025 1 Online-Ressource (179 Seiten) txt rdacontent c rdamedia cr rdacarrier Applied Ecology and Environmental Management Series Description based on publisher supplied metadata and other sources Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- About the Author -- Acknowledgments -- Section 1 Introduction -- Chapter 1 Introduction -- 1.1 This Book -- 1.2 Neoclassical Economic Paradigm -- 1.3 Economic Growth -- 1.4 Dynamic Carrying Capacity -- 1.5 Existential Risk -- 1.6 Brief Chapter Introductions -- Chapter 2 Earth Systems -- 2.1 Fragility of Life on Earth -- 2.1.1 Hydrological Cycle -- 2.1.2 Nitrogen Cycle -- 2.2 Ecosystems and Life Support -- 2.3 Sensitive Ecosystems -- 2.4 Renewable Resources and Renewal Rates -- 2.5 Managing Non-renewable Resources -- Chapter 3 Planetary Boundaries -- 3.1 Boundaries -- 3.2 Planetary Boundaries Status -- 3.3 Breaking Ecological Constraints -- 3.4 Limits to Growth -- 3.5 Ecological Footprint -- 3.6 Human Population Growth and Finite Singularity -- Section 2 Pillars of a Biophysical Economy -- Chapter 4 Biophysical Economics -- 4.1 Economics -- 4.1.1 Historical Economies -- 4.2 Ecological Economics -- 4.3 Biophysical Economics -- Chapter 5 Creating a Biophysical Economy -- 5.1 Towards an Initial Biophysical Economy -- 5.2 The Reality -- 5.3 Earth Life-Support Systems -- 5.4 Private Sector -- 5.5 General Public -- 5.6 Government -- 5.7 Finance -- 5.8 Policy -- 5.9 Feedback Mechanisms -- 5.10 Models -- 5.11 The End Game -- Chapter 6 Private Sector -- 6.1 The Private Sector -- 6.2 Private Sector Role in Biophysical Economics -- 6.3 Capitalism -- 6.4 Reinventing Capitalism -- 6.5 Environment, Social, and Governance (ESG) -- 6.6 Sustainable Development Goals -- 6.7 A Science of Corporations -- 6.8 The Private Sector, Sustainable Economy, and Scale -- Note -- Chapter 7 General Public -- 7.1 The Neoclassical Consumer -- 7.2 Maslow's Hierarchy -- 7.2.1 Physiological -- 7.2.2 Safety -- 7.2.3 Belongingness and Love -- 7.2.4 Esteem -- 7.2.5 Self-Actualization 7.3 A Biophysical Consumerism -- 7.3.1 Spending -- 7.3.2 Consumer Ecoregions -- 7.3.3 Savings and Investments -- 7.4 Participation in Governance -- Note -- Chapter 8 Government -- 8.1 Introduction -- 8.2 Executive Branch -- 8.2.1 Independent Federal Agencies -- 8.3 Legislative Branch -- 8.4 Judicial Branch -- 8.5 Data Collection -- 8.6 Data Sharing and Transparency -- 8.7 Government and Finance -- 8.8 Government and Policy -- Chapter 9 Finance -- 9.1 Introduction -- 9.2 Financial Impacts of Environmental Degradation -- 9.2.1 Air Pollution -- 9.2.2 Water Pollution -- 9.2.3 Ecosystem Services -- 9.3 Financial Impacts of Natural Disasters -- 9.4 Lending -- Parameter 1 - Use of Proceeds -- Parameter 2 - Company Profile -- Parameter 3 - Sustainability-Linked Solutions -- 9.5 Investment -- 9.6 Biophysical Economy and Equities -- 9.7 Costs of a Biophysical Economy -- 9.7.1 Design -- 9.7.2 Establishment -- 9.7.3 Operating Costs -- Chapter 10 Policy, Society, and Culture -- 10.1 Introduction -- 10.2 Policy and Economic Worldview -- 10.3 Policy and Politics -- 10.4 Society and Culture -- 10.5 Globalism -- 10.6 Policy and Models -- 10.6.1 Scale Sufficiency -- 10.7 Green Economy Policies -- Section 3 Synthesis -- Chapter 11 Feedback Mechanisms -- 11.1 Introduction -- 11.2 Positive Feedback -- 11.3 Negative Feedback -- 11.4 Properties of Dynamic Systems -- 11.5 Dynamic Carrying Capacity -- 11.6 Ecosystem Management and Feedback Mechanisms -- 11.7 Feedback, Carrying Capacity, and a Biophysical Economy -- Chapter 12 Models and Economic Transformation -- 12.1 Relevance and Contribution of Models -- 12.2 Global-Scale Models -- 12.3 System of Environmental-Economic Accounting (SEEA) -- 12.4 Regional Models -- 12.5 Corporate Models -- 12.6 Environmental Profit and Loss Models -- Chapter 13 Prescriptions for a Biophysical Economy -- 13.1 Introduction 13.2 A More Realistic Model -- 13.2.1 Desirable and Sustainable Stocks -- 13.2.2 Flows Compatible with Biophysical Constraints -- 13.2.3 Population Size -- 13.3 Recognizing Boundaries -- 13.4 Adding Policy -- 13.5 Adding Socioeconomic and Cultural Context -- 13.6 Financial Considerations -- 13.7 Addressing Energy Needs -- 13.7.1 Energy Return on Investment -- 13.8 A Beta-Version Biophysical Economy -- References -- Index Explores the concept of transforming the current macroeconomic system from a system based on continuous growth that doesn't recognize the fundamental importance of Earth's natural support structures, to a system consistent with the basic views of biophysical economics that recognizes that real wealth derives from finite planetary resources Erscheint auch als Druck-Ausgabe Bartell, Steven M. Biophysical Economy Milton : Taylor & Francis Group,c2024 9781032310794 |
| spellingShingle | Bartell, Steven M. Biophysical Economy Theory, Challenges, and Sustainability Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- About the Author -- Acknowledgments -- Section 1 Introduction -- Chapter 1 Introduction -- 1.1 This Book -- 1.2 Neoclassical Economic Paradigm -- 1.3 Economic Growth -- 1.4 Dynamic Carrying Capacity -- 1.5 Existential Risk -- 1.6 Brief Chapter Introductions -- Chapter 2 Earth Systems -- 2.1 Fragility of Life on Earth -- 2.1.1 Hydrological Cycle -- 2.1.2 Nitrogen Cycle -- 2.2 Ecosystems and Life Support -- 2.3 Sensitive Ecosystems -- 2.4 Renewable Resources and Renewal Rates -- 2.5 Managing Non-renewable Resources -- Chapter 3 Planetary Boundaries -- 3.1 Boundaries -- 3.2 Planetary Boundaries Status -- 3.3 Breaking Ecological Constraints -- 3.4 Limits to Growth -- 3.5 Ecological Footprint -- 3.6 Human Population Growth and Finite Singularity -- Section 2 Pillars of a Biophysical Economy -- Chapter 4 Biophysical Economics -- 4.1 Economics -- 4.1.1 Historical Economies -- 4.2 Ecological Economics -- 4.3 Biophysical Economics -- Chapter 5 Creating a Biophysical Economy -- 5.1 Towards an Initial Biophysical Economy -- 5.2 The Reality -- 5.3 Earth Life-Support Systems -- 5.4 Private Sector -- 5.5 General Public -- 5.6 Government -- 5.7 Finance -- 5.8 Policy -- 5.9 Feedback Mechanisms -- 5.10 Models -- 5.11 The End Game -- Chapter 6 Private Sector -- 6.1 The Private Sector -- 6.2 Private Sector Role in Biophysical Economics -- 6.3 Capitalism -- 6.4 Reinventing Capitalism -- 6.5 Environment, Social, and Governance (ESG) -- 6.6 Sustainable Development Goals -- 6.7 A Science of Corporations -- 6.8 The Private Sector, Sustainable Economy, and Scale -- Note -- Chapter 7 General Public -- 7.1 The Neoclassical Consumer -- 7.2 Maslow's Hierarchy -- 7.2.1 Physiological -- 7.2.2 Safety -- 7.2.3 Belongingness and Love -- 7.2.4 Esteem -- 7.2.5 Self-Actualization 7.3 A Biophysical Consumerism -- 7.3.1 Spending -- 7.3.2 Consumer Ecoregions -- 7.3.3 Savings and Investments -- 7.4 Participation in Governance -- Note -- Chapter 8 Government -- 8.1 Introduction -- 8.2 Executive Branch -- 8.2.1 Independent Federal Agencies -- 8.3 Legislative Branch -- 8.4 Judicial Branch -- 8.5 Data Collection -- 8.6 Data Sharing and Transparency -- 8.7 Government and Finance -- 8.8 Government and Policy -- Chapter 9 Finance -- 9.1 Introduction -- 9.2 Financial Impacts of Environmental Degradation -- 9.2.1 Air Pollution -- 9.2.2 Water Pollution -- 9.2.3 Ecosystem Services -- 9.3 Financial Impacts of Natural Disasters -- 9.4 Lending -- Parameter 1 - Use of Proceeds -- Parameter 2 - Company Profile -- Parameter 3 - Sustainability-Linked Solutions -- 9.5 Investment -- 9.6 Biophysical Economy and Equities -- 9.7 Costs of a Biophysical Economy -- 9.7.1 Design -- 9.7.2 Establishment -- 9.7.3 Operating Costs -- Chapter 10 Policy, Society, and Culture -- 10.1 Introduction -- 10.2 Policy and Economic Worldview -- 10.3 Policy and Politics -- 10.4 Society and Culture -- 10.5 Globalism -- 10.6 Policy and Models -- 10.6.1 Scale Sufficiency -- 10.7 Green Economy Policies -- Section 3 Synthesis -- Chapter 11 Feedback Mechanisms -- 11.1 Introduction -- 11.2 Positive Feedback -- 11.3 Negative Feedback -- 11.4 Properties of Dynamic Systems -- 11.5 Dynamic Carrying Capacity -- 11.6 Ecosystem Management and Feedback Mechanisms -- 11.7 Feedback, Carrying Capacity, and a Biophysical Economy -- Chapter 12 Models and Economic Transformation -- 12.1 Relevance and Contribution of Models -- 12.2 Global-Scale Models -- 12.3 System of Environmental-Economic Accounting (SEEA) -- 12.4 Regional Models -- 12.5 Corporate Models -- 12.6 Environmental Profit and Loss Models -- Chapter 13 Prescriptions for a Biophysical Economy -- 13.1 Introduction 13.2 A More Realistic Model -- 13.2.1 Desirable and Sustainable Stocks -- 13.2.2 Flows Compatible with Biophysical Constraints -- 13.2.3 Population Size -- 13.3 Recognizing Boundaries -- 13.4 Adding Policy -- 13.5 Adding Socioeconomic and Cultural Context -- 13.6 Financial Considerations -- 13.7 Addressing Energy Needs -- 13.7.1 Energy Return on Investment -- 13.8 A Beta-Version Biophysical Economy -- References -- Index |
| title | Biophysical Economy Theory, Challenges, and Sustainability |
| title_auth | Biophysical Economy Theory, Challenges, and Sustainability |
| title_exact_search | Biophysical Economy Theory, Challenges, and Sustainability |
| title_full | Biophysical Economy Theory, Challenges, and Sustainability |
| title_fullStr | Biophysical Economy Theory, Challenges, and Sustainability |
| title_full_unstemmed | Biophysical Economy Theory, Challenges, and Sustainability |
| title_short | Biophysical Economy |
| title_sort | biophysical economy theory challenges and sustainability |
| title_sub | Theory, Challenges, and Sustainability |
| work_keys_str_mv | AT bartellstevenm biophysicaleconomytheorychallengesandsustainability |