Economies are open systems embedded in an ecosystem with which they exchange matter and energy. Interactions among these systems are vital for each system's performance and are constrained by the laws of physics. This volume pays tribute to economyenvironment interactions simultaneously from an economic, ecological and physical perspective.
Integrating Economics, Ecology and Thermodynamics provides a first step in identifying and combining the principles of economics, ecology and thermodynamics on a fundamental level. Part I lays out the general context for the approach chosen. Part II familiarizes readers with core concepts of, and methods used in, the three disciplines of economics, ecology and thermodynamics. Part III assesses ways in which these disciplines can be integrated to provide an improved understanding of economyenvironment interactions. Part IV illustrates the integration of the three disciplines with a dynamic model of a human community interacting with its environment. In Part V the volume closes with a brief summary and a set of conclusions on the relevance of integrated, interdisciplinary approaches to economyenvironment interactions.
|Series:||Ecology, Economy and Environment Series , #3|
|Product dimensions:||6.14(w) x 9.21(h) x 0.24(d)|
Table of Contents
Part I: Introduction. 1. Economics, Ecology and Thermodynamics. Part II: Core Concepts in Economics, Ecology and Thermodynamics. 2. Core Concepts in Neoclassical Economics. 3. Core Concepts in Ecology. 4. Core Concepts in Thermodynamics. Part III: Integrating the Core Concepts of Economics, Ecology and Thermodynamics. 5. Integrating Core Concepts of Thermodynamics into Economics. 6. Ecology and Thermodynamics. 7. Economics and Ecology. 8. Economics, Ecology and Thermodynamics. Part IV: Nonlinear Dynamic Simulation of Natural Resource Use: Thermodynamic Limits and Endogenous Technical Change. 9. Thermodynamic Implications for Nonrenewable Resource Extraction. 10. A Comprehensive Model of EconomyEnvironment Interactions. Part V: Summary and Conclusions. 11. Methodology and Findings. Appendix A: Glossary. Appendix B: Nonlinear Dynamic Simulation Program for the Nonrenewable Resource Model. Appendix C: Initial Conditions and Parameter Values for the Simulation of the Comprehensive Model of Chapter 10. References. Index.