ISBN-10:
0199593426
ISBN-13:
9780199593422
Pub. Date:
09/01/2011
Publisher:
Oxford University Press
Maximum Entropy and Ecology: A Theory of Abundance, Distribution, and Energetics

Maximum Entropy and Ecology: A Theory of Abundance, Distribution, and Energetics

by John Harte

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Overview

Maximum Entropy and Ecology: A Theory of Abundance, Distribution, and Energetics

This pioneering graduate textbook provides readers with the concepts and practical tools required to understand the maximum entropy principle, and apply it to an understanding of ecological patterns. Rather than building and combining mechanistic models of ecosystems, the approach is grounded in information theory and the logic of inference. Paralleling the derivation of thermodynamics from the maximum entropy principle, the state variable theory of ecology developed in this book predicts realistic forms for all metrics of ecology that describe patterns in the distribution, abundance, and energetics of species over multiple spatial scales, a wide range of habitats, and diverse taxonomic groups.

The first part of the book is foundational, discussing the nature of theory, the relationship of ecology to other sciences, and the concept of the logic of inference. Subsequent sections present the fundamentals of macroecology and of maximum information entropy, starting from first principles. The core of the book integrates these fundamental principles, leading to the derivation and testing of the predictions of the maximum entropy theory of ecology (METE). A final section broadens the book's perspective by showing how METE can help clarify several major issues in conservation biology, placing it in context with other theories and highlighting avenues for future research.

Product Details

ISBN-13: 9780199593422
Publisher: Oxford University Press
Publication date: 09/01/2011
Series: Oxford Series in Ecology and Evolution Series
Pages: 264
Product dimensions: 6.10(w) x 9.10(h) x 0.60(d)

About the Author

John Harte is a Professor of Ecosystem Sciences at the University of California, Berkeley. Following undergraduate studies at Harvard and a doctoral degree in Physics from the University of Wisconsin, he was an NSF Postdoctoral Fellow at CERN, Geneva and an Assistant Professor of Physics at Yale. His research interests include climate-ecosystem interactions, theoretical ecology, and environmental policy. He is the recipient of a Pew Scholars Prize in Conservation and the Environment, a Guggenheim Fellowship, the 2001 Leo Szilard prize from the American Physical Society, the 2004 UC Berkeley Graduate Mentorship Award, a Miller Professorship, and is a co-recipient of the 2006 George Polk award in journalism. He is an elected Fellow of the California Academy of Sciences and the American Physical Society. He has also served on six National Academy of Sciences Committees and has authored over 190 scientific publications, including seven books.

Table of Contents

Preface
PART I. Foundations
1. The Nature of Theory
2. The Logic of Inference
PART II. Macroecology
3. Scaling Metrics and Macroecology
4. Overview of Macroecological Models and Theories
PART III. The Maximum Entropy Principle
5. Entropy, Information, and the Concept of Maximum Entropy
6. MaxEnt at work
PART IV. Macroecology and MaxEnt
7. The Maximum Entropy Theory of Ecology (METE)
8. Testing METE
PART V. A Wider Perspective
9. Applications to Conservation
10. Connections to other theories
11. Future Directions
Epilogue: Is a Comprehensive Unified Theory of Ecology possible? What might it look like?
Appendix A. Access to plant census data from a serpentine grassland
Appendix B. A fractal model
Appendix C. Predicting the SAR: An alternative approach
References
Index

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