Metabolic Ecology

If you want a thorough, up-to-date coverage of research based upon the MTE and its many applications, this book is a must-read. (Ecology, 1 January 2013) Intended to be accessible to upper-level undergraduates, the book should be widely-read by anyone who seeks a more powerful science of ecology. (British Ecological Society Bulletin, 1 December 2012) The book is copiously illustrated, and the complex mathematics limited and treated discreetly so the nonmathematician can follow the logic. A necessary read for ecologists. Summing Up: Highly recommended. Upper-division undergraduates and above. (Choice, 1 November 2012)

Richard Sibly is Professor in the School of Biological Sciences at the University of Reading where he teaches Behavioural Ecology and Population Biology. He researches metabolic ecology questions with members of Jim Brown's Lab at the University of New Mexico and also works to promote the use of Agent Based Models (ABMs) more widely in ecology. James H. Brown is Distinguished Professor of Biology at the University of New Mexico, Albuquerque. He led the development of the Metabolic Theory of Ecology on which this book is largely based. He has a long history of research in biogeography and macroecology, taking a large-scale statistical approach to questions about abundance, distribution, and diversity. Astrid Kodric-Brown is Professor of Biology at the University of New Mexico, Albuquerque. Her research interests include the behavioral ecology of freshwater fishes, especially the evolution of mate recognition systems and their role in speciation in pupfishes (Cyprinodon); the allometry of sexually-selected traits; and community structure and conservation of desert fishes.

Notes on contributors, vii Preface, xiv Introduction: Metabolism as the basis for a theoretical unification of ecology, 1 JAMES H. BROWN, RICHARD M. SIBLY, AND ASTRID KODRIC-BROWN PART I FOUNDATIONS, 7 1 Methodological tools, 9 ETHAN P. WHITE, XIAO XIAO, NICK J. B. ISAAC, AND RICHARD M. SIBLY 2 The metabolic theory of ecology and its central equation, 21 JAMES H. BROWN AND RICHARD M. SIBLY 3 Stoichiometry, 34 MICHAEL KASPARI 4 Modeling metazoan growth and ontogeny, 48 ANDREW J. KERKHOFF 5 Life history, 57 RICHARD M. SIBLY 6 Behavior, 67 APRIL HAYWARD, JAMES F. GILLOOLY, AND ASTRID KODRIC-BROWN 7 Population and community ecology, 77 NICK J.B. ISAAC, CHRIS CARBONE, AND BRIAN MCGILL 8 Predator prey relations and food webs, 86 OWEN L. PETCHEY AND JENNIFER A. DUNNE 9 Ecosystems, 99 KRISTINA J. ANDERSON-TEIXEIRA AND PETER M. VITOUSEK 10 Rates of metabolism and evolution, 112 JOHN L. GITTLEMAN AND PATRICK R. STEPHENS 11 Biodiversity and its energetic and thermal controls, 120 DAVID STORCH PART II SELECTED ORGANISMS AND TOPICS, 133 12 Microorganisms, 135 JORDAN G. OKIE 13 Phytoplankton, 154 ELENA LITCHMAN 14 Land plants: new theoretical directions and empirical prospects, 164 BRIAN J. ENQUIST AND LISA PATRICK BENTLEY 15 Marine invertebrates, 188 MARY I. O CONNOR AND JOHN F. BRUNO 16 Insect metabolic rates, 198 JAMES S. WATERS AND JON F. HARRISON 17 Terrestrial vertebrates, 212 WILLIAM KARASOV 18 Seabirds and marine mammals, 225 DANIEL P. COSTA AND SCOTT A. SHAFFER 19 Parasites, 234 RYAN F. HECHINGER, KEVIN D. LAFFERTY, AND ARMAND M. KURIS 20 Human ecology, 248 MARCUS J. HAMILTON, OSKAR BURGER, AND ROBERT S. WALKER PART III PRACTICAL APPLICATIONS, 259 21 Marine ecology and fisheries, 261 SIMON JENNINGS, KEN H. ANDERSEN, AND JULIA L. BLANCHARD 22 Conservation biology, 271 ALISON G. BOYER AND WALTER JETZ 23 Climate change, 280 KRISTINA J. ANDERSON-TEIXEIRA, FELISA A. SMITH, AND S. K. MORGAN ERNEST 24 Beyond biology, 293 MELANIE E. MOSES AND STEPHANIE FORREST 25 Synthesis and prospect, 302 JAMES H. BROWN, RICHARD M. SIBLY, AND ASTRID KODRIC-BROWN Glossary, 306 References, 309 Index, 361 COMPANION WEBSITE This book is accompanied by a companion website: www.wiley.com/go/sibly/metabolicecology With figures and tables from the book for downloading, together with updates and additional resources