- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
Complex Population Dynamics: Theory and Data brings together over two decades of research and reflection on experimental nonlinear population dynamics. The broad theme of the book is the interface of population data and mathematical models. The authors establish a cornerstone example of a low-dimensional mathematical population model for which quantitative predictions, often unexpected, were borne out in controlled and replicated experiments. Central messages include the importance of low-dimensional, mechanistic models that serve as testable hypotheses; the importance of model validation on independent data; the prediction of novel outcomes in response to parameter manipulation; the interaction of nonlinearity and stochasticity—and the ways in which stochasticity illuminates, rather than obscures, deterministic forces; abrupt transitions in dynamic regimes in response to interventions; and how chaotic dynamics are expressed in discrete-state, noisy population systems. The book explores nonlinear phenomena in experimental data, including equilibria, cycles, bifurcations, invariant loops, multiple attractors, resonance and attenuance, saddles, stable and unstable manifolds, basins of attraction, basin boundaries, and chaos, and shows how these dynamics manifest in real data in both time series and state space plots.
The book offers an invaluable resource to professional ecologists and applied mathematicians. Although primarily a reference text, it is written to be accessible and engaging to a student audience and could be used as supplementary reading in an advanced ecological modeling class.
Features
Written in engaging style with minimal mathematical prerequisites, making it accessible to an audience of general ecologists as well as a more specialized mathematical audience
A complete accompanying data set from all experiments is freely available on Dryad
Readers can conveniently explore the model dynamics under discussion with an online LPA simulator.
Contents
Part 1: Introduction 1. Sources of Patterns in Population Dynamics 2. Connecting Models with Data 3. Exploring State Space Part 2: Population Data and Models 4. The Tribolium Laboratory Model 5. The LPA Model Part 3: Models as Scientific Hypotheses 6. Transitions between Attractors 7. A Route to Chaos 8. Lattice Effects 9. How Is Chaos Manifest in Noisy Populations? 10. Demographic Stochasticity 11. Controlling Chaos Part 4: Recognizing Nonlinear Phenomena in Ecology 12. Saddles and Manifolds 13. Cycles and Phase Switching 14. Resonance, Attenuance, and Multiple Attractors in Fluctuating Habitats Part 5: Further Exploration 15. Competition: Park Revisited 16. Spectral Analyses of Population Dynamics 17. Time Scales of Ecological Synchrony 18. Dynamics of Natural Selection 19. Continuous-time LPA Model 20. Life Stages: Interactions and Spatial Patterns 21. In Summary
