Ecologists now recognize that the dynamics of populations, communities, and ecosystems are strongly affected by adaptive individual behaviours. Yet until now, we have lacked effective and flexible methods for modeling such dynamics. Traditional ecological models become impractical with the inclusion of behaviour, and the optimization approaches of behavioural ecology cannot be used when future conditions are unpredictable due to feedbacks from the behaviour of other individuals. Modeling Populations of Adaptive Individuals provides a comprehensive introduction to state- and prediction-based theory, or SPT, a powerful new approach to modeling trade-off behaviours in contexts such as individual-based population models where feedbacks and variability make optimization impossible.
Modeling Populations of Adaptive Individuals features a wealth of examples that range from highly simplified behaviour models to complex population models in which individuals make adaptive trade-off decisions about habitat and activity selection in highly heterogeneous environments. Steven Railsback and Bret Harvey explain how SPT builds on key concepts from the state-based dynamic modeling theory of behavioural ecology, and how it combines explicit predictions of future conditions with approximations of a fitness measure to represent how individuals make good – not optimal – decisions that they revise as conditions change. The resulting models are realistic, testable, adaptable, and invaluable for answering fundamental questions in ecology and forecasting ecological outcomes of real-world scenarios.
Steven F. Railsback is adjunct professor of mathematics at Humboldt State University and a consulting ecologist. His books include Individual-Based Modeling and Ecology and Agent-Based and Individual-Based Modeling (both Princeton). Bret C. Harvey is an aquatic ecologist with the US Forest Service and adjunct professor of fisheries biology at Humboldt State.
"The effects of decision making by individual organisms on populations and communities has become a major topic in ecology, one that has developed extraordinarily rapidly in the past two decades. Railsback and Harvey provide a comprehensive theoretical foundation for incorporating these processes into ecological models, showing how such modeling can be very powerful across key areas of ecology."
– Donald L. DeAngelis, coauthor of Mathematical Models of Plant-Herbivore Interactions
"In this succinct book, Railsback and Harvey address a major challenge in ecological modeling, focusing on how properties of populations and communities arise from the actions of the individuals within them."
– Louis J. Gross, coauthor of Mathematics for the Life Sciences