Theoretical Approaches to Biological ControlBradford A. Hawkins, Howard V. Cornell Biological control is the suppression of pest populations using predators, parasitoids and pathogens. Historically, biological control has largely been on a trial-and-error basis, and has failed more often than it has succeeded. However by developing theories based upon fundamental population principles and the biological characteristics of the pest and agent, we can gain a much better understanding of when and how to use biological control. This book gathers together recent theoretical developments and provides a balanced guide to the important issues that need to be considered in applying ecological theory to biological control. It will be a source of productive and stimulating thought for all those interested in pest management, theoretical ecology and population biology. |
Contents
| 1 | |
PART II Ecological considerations | 69 |
PART III Spatial considerations | 161 |
PART IV Geneticevolutionary considerations | 217 |
Other editions - View all
Theoretical Approaches to Biological Control Bradford A. Hawkins,Howard V. Cornell Limited preview - 2008 |
Theoretical Approaches to Biological Control Bradford A. Hawkins,Howard V. Cornell No preview available - 2008 |
Theoretical Approaches to Biological Control Bradford A. Hawkins,Howard V. Cornell No preview available - 1999 |
Common terms and phrases
adult agents applied approach assumed attack behavior biological control cause changes Chapter considered cycles cytoplasmic decrease density dependence described disease dispersal Ecology effect Entomology environment equations equilibrium et al evolution example extinction factors feeding females field Figure fitness function generalist given growth habitat Hassell herbivore host host-feeding host–parasitoid important increase individuals infected initial interactions introduction Journal less limited lower males mites mortality Murdoch natural enemies observed occur outbreaks oviposition parameter parasitism parasitoid patches pathogen period persistence pest plant population dynamics possible potential predator predator–prey predicted prey probability produce pupae ratio reduced refuge relative release reproduction resource response scale selection simple simulation sitoid spatial species spray stability stage structure studies success suggest theoretical theory tion transmission understanding variable wasp Werren whitefly Wolbachia