Biological control of insect pests: a tritrophic perspective

IntroductionThe success of classical biological control in providing spectacular examples of the impact that natural enemies can have on insect pest populations is rarely questioned. The introduction of the vedalia beetle from Australia for control of the cottony-cushion scale in California and the...

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Published in	Theoretical Approaches to Biological Control pp. 89 - 102
Main Authors	Mills, Nick J., Gutierrez, Andrew P.
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/CBO9780511542077.008

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Abstract	IntroductionThe success of classical biological control in providing spectacular examples of the impact that natural enemies can have on insect pest populations is rarely questioned. The introduction of the vedalia beetle from Australia for control of the cottony-cushion scale in California and the release of Apoanagyrus lopezi across central Africa for control of the cassava mealybug demonstrate that both predators and parasitoids can reduce damaging pests to innocuous levels of abundance (DeBach & Rosen, 1991). Successful biological control projects against insect pests have also proven, in a number of cases, to be repeatable in different geographic regions of the world and almost all truly successful projects have provided lasting control of the target pest (Clausen, 1978). It is obvious from the biological control record that some target pests are more suitable and more likely to result in further success than others. There have been more frequent successes in the control of homopteran pests than in any other taxon of insect pests (Clausen, 1978; Greathead, 1986; Greathead & Greathead, 1992) and so any general theory for the biological control of insect pests would do well to address the biological features of a crop–homopteran–natural enemy system. Despite the practical successes achieved in classical biological control, we have been rather less successful in developing a general theory for biological control and a mechanistic explanation for the effective top-down action of the natural enemies in successful biological control programs.
AbstractList	IntroductionThe success of classical biological control in providing spectacular examples of the impact that natural enemies can have on insect pest populations is rarely questioned. The introduction of the vedalia beetle from Australia for control of the cottony-cushion scale in California and the release of Apoanagyrus lopezi across central Africa for control of the cassava mealybug demonstrate that both predators and parasitoids can reduce damaging pests to innocuous levels of abundance (DeBach & Rosen, 1991). Successful biological control projects against insect pests have also proven, in a number of cases, to be repeatable in different geographic regions of the world and almost all truly successful projects have provided lasting control of the target pest (Clausen, 1978). It is obvious from the biological control record that some target pests are more suitable and more likely to result in further success than others. There have been more frequent successes in the control of homopteran pests than in any other taxon of insect pests (Clausen, 1978; Greathead, 1986; Greathead & Greathead, 1992) and so any general theory for the biological control of insect pests would do well to address the biological features of a crop–homopteran–natural enemy system. Despite the practical successes achieved in classical biological control, we have been rather less successful in developing a general theory for biological control and a mechanistic explanation for the effective top-down action of the natural enemies in successful biological control programs.
Author	Mills, Nick J. Gutierrez, Andrew P.
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DOI	10.1017/CBO9780511542077.008
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Title	Biological control of insect pests: a tritrophic perspective
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