Outbreaks of insects: a dynamic approach

IntroductionThe basic premise of this chapter is that increased understanding of insect population dynamics will further our ability both to control and to predict the dynamics of insect pests (Metcalf & Luckmann, 1994). I will elaborate on this overall rationale below and will suggest approache...

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Published in	Theoretical Approaches to Biological Control pp. 206 - 216
Main Author	Hastings, Alan
Format	Book Chapter
Language	English
Published	Cambridge University Press 06.05.1999
Online Access	Get full text
ISBN	9780521572835 0521082870 9780521082877 0521572835
DOI	10.1017/CBO9780511542077.016

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Abstract	IntroductionThe basic premise of this chapter is that increased understanding of insect population dynamics will further our ability both to control and to predict the dynamics of insect pests (Metcalf & Luckmann, 1994). I will elaborate on this overall rationale below and will suggest approaches for achieving this goal. Mathematical models that can describe the dynamics of insects are vital for the design of effective control programs (Ruesink & Onstad, 1994). Yet, as I will argue here, despite much previous modeling of insect dynamics, further work is needed. Consequently, this chapter is much more prospective than retrospective.As emphasized in Metcalf & Luckmann (1994), virtually all the theoretical underpinnings of insect pest control come from an equilibrium concept of insect population levels. In this vein, most analyses of host–parasitoid models used in biological control focus on the determination of the forces leading to a stable equilibrium, as an explanation for successful biological control. Similarly, the goal of biological control has often been stated to be the achievement of a stable equilibrium (Hassell, 1978). Yet, as many examples of forest insects (e.g., Berryman, 1988), plus essentially all insects affecting crops, show, equilibrium approaches are not at all appropriate when trying to understand the dynamics of many insect pests. Large departures from equilibrium, namely outbreaks, are the major features of interest in the dynamics of these insects. Thus, using an equilibrium concept as the central part of a theory to understand insect population dynamics is not appropriate.
AbstractList	IntroductionThe basic premise of this chapter is that increased understanding of insect population dynamics will further our ability both to control and to predict the dynamics of insect pests (Metcalf & Luckmann, 1994). I will elaborate on this overall rationale below and will suggest approaches for achieving this goal. Mathematical models that can describe the dynamics of insects are vital for the design of effective control programs (Ruesink & Onstad, 1994). Yet, as I will argue here, despite much previous modeling of insect dynamics, further work is needed. Consequently, this chapter is much more prospective than retrospective.As emphasized in Metcalf & Luckmann (1994), virtually all the theoretical underpinnings of insect pest control come from an equilibrium concept of insect population levels. In this vein, most analyses of host–parasitoid models used in biological control focus on the determination of the forces leading to a stable equilibrium, as an explanation for successful biological control. Similarly, the goal of biological control has often been stated to be the achievement of a stable equilibrium (Hassell, 1978). Yet, as many examples of forest insects (e.g., Berryman, 1988), plus essentially all insects affecting crops, show, equilibrium approaches are not at all appropriate when trying to understand the dynamics of many insect pests. Large departures from equilibrium, namely outbreaks, are the major features of interest in the dynamics of these insects. Thus, using an equilibrium concept as the central part of a theory to understand insect population dynamics is not appropriate.
Author	Hastings, Alan
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DOI	10.1017/CBO9780511542077.016
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Title	Outbreaks of insects: a dynamic approach
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