Stability and Complexity in Model Ecosystems

Front Cover
Princeton University Press, Mar 18, 2001 - Mathematics - 265 pages

What makes populations stabilize? What makes them fluctuate? Are populations in complex ecosystems more stable than populations in simple ecosystems? In 1973, Robert May addressed these questions in this classic book. May investigated the mathematical roots of population dynamics and argued-counter to most current biological thinking-that complex ecosystems in themselves do not lead to population stability. Stability and Complexity in Model Ecosystems played a key role in introducing nonlinear mathematical models and the study of deterministic chaos into ecology, a role chronicled in James Gleick's book Chaos. In the quarter century since its first publication, the book's message has grown in power. Nonlinear models are now at the center of ecological thinking, and current threats to biodiversity have made questions about the role of ecosystem complexity more crucial than ever. In a new introduction, the author addresses some of the changes that have swept biology and the biological world since the book's first publication.

 

Selected pages

Contents

IV
3
V
13
VI
37
VII
79
VIII
109
IX
139
X
172
XI
187
XII
211
XIII
234
XIV
241
XV
259
XVI
263
Copyright

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Stability and Complexity in Model Ecosystems

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Common terms and phrases

a₁ approximation biological Chapter community matrix competition coefficients competition matrix constant corresponding density destabilizing deterministic environment difference equations dimensions discussion diversity dynamics ecological ecosystems effects eigenvalues elements environmental fluctuations environmental variance equa equilib equilibrium point equilibrium populations equilibrium probability distribution essential singularity essentially example extinction Figure Fokker-Planck equation food web growth rate herbivore illustrated increase interactions k₁ Levins linear Lotka-Volterra Lotka-Volterra equations Lyapunov function MacArthur mathematical models mean value multispecies N₁ natural neighborhood stability niche overlap nonlinear number of species oscillations perturbations population fluctuations population numbers predator predator populations predator-prey prey population probability cloud probability distribution random fluctuations randomly relatively resource continuum resource spectrum result rium roughly simple species packing stability analysis stable equilibrium point stable limit cycle stochastic differential equations stochastic environment structure symmetric tend theorem tion trophic level trophic web unity unstable utilization functions variable white noise zero

References to this book

About the author (2001)

Robert M. May has been a pioneer in theoretically driven biology for the last thirty years. He has done key work in population ecology, the dynamics of infectious diseases, extinctions, and other areas. He is currently a Professor at Oxford University as well as President of the Royal Society in the United Kingdom.

Bibliographic information

TitleStability and Complexity in Model Ecosystems
Volume 6 of Monographs in population biology, ISSN 0077-0930
Volume 1 of Princeton Landmarks in Biology
ContributorRobert M. May
Editionillustrated, reprint, revised
PublisherPrinceton University Press, 2001
ISBN0691088616, 9780691088617
Length265 pages
Subjects ›  ›  › 

Mathematics / Mathematical Analysis
Science / Life Sciences / Biology
Science / Life Sciences / Ecology
Science / Life Sciences / Zoology / General
  
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