Author
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Leopold, Roger |
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Submitted to: CDFA Pierce's Disease Control Program Research Symposium
Publication Type: Abstract Only Publication Acceptance Date: 1/10/2002 Publication Date: N/A Citation: N/A Interpretive Summary: Technical Abstract: The egg parasitoid, G. ashmeadi, is a mymarid wasp that accounts for 95% of the observed parasitism on the glassy-winged sharpshooter (GWSS) in California. This has stimulated researchers to try to develop methods for rearing large quantities of this parasite for release in areas where augmentation is needed or where other control measures cannot be used. In the absence of techniques for propagating G. ashmeadi via artificial means, rearing this insect in large quantities also requires that the GWSS or another acceptable host be cultured to provide the eggs for this parasite. Protocols designed for efficient mass-rearing generally include techniques which enable the production managers to hold their insects for varying periods of time to synchronize various aspects of the rearing procedure and for distribution to the release site when needed. Having the capability to hold a particular life stage or stages in abeyance during mass-rearing is especially important when synchronizing the life cycles of two insects such as in a parasite-host relationship. Low temperature storage of parasitoids of the GWSS allows insect production managers to gain flexibility and enables them to supply a biological product on demand. The effectiveness of any biological agent used for pest control purposes depends on being released at the proper time. Unforeseeable environmental influences such as those impacting on pest migration, population fluctuations, and plant growth amplifies the need for precise timing, especially when releases of insects are to be integrated into multi-disciplinary control programs. Thus, this project is designed to yield information to aid in the mass-rearing and timely release of egg parasitoids of the GWSS. |
