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Dimethoate-resistant spider mite predator survives field tests

California Agriculture > Volume 34 > Number 5  > research article 

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Authors

Richard T. Roush, Department of Entomology, University of California, Berkeley
William L. Peacock, Cooperative Extension, Tulare County
Donald L. Flaherty, Cooperative Extension, Tulare County
Marjorie A. Hoy, University of California, Berkeley

Publication Information

California Agriculture 34(5):12-13.

Published May 01, 1980

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Abstract

Laboratory-induced resistance of spider mite predators to dimethoate has been shown to persist in nature, but the level of resistance is unsatisfactory at current vineyard pesticide application rates.

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Author notes

We thank Simon Ketenjian for his generous cooperation and the use of his vineyard. This project was supported in part by the California Raisin Advisory Board, the California Table Grape Commission, and a National Science Foundation Predoctoral Fellowship to the first author.

Dimethoate-resistant spider mite predator survives field tests

Richard T. Roush, William L. Peacock, Donald L. Flaherty, Marjorie A. Hoy
University
of
California
Division of Agriculture
and
Natural Resources
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Dimethoate-resistant spider mite predator survives field tests

California Agriculture > Volume 34 > Number 5  > research article 

< Previous | Table of Contents | Next >

< Previous | Table of Contents | Next >

Share using any of the popular social networks Share by sending an email Print article
Share using any of the popular social networks Share by sending an email Print article

Authors

Richard T. Roush, Department of Entomology, University of California, Berkeley
William L. Peacock, Cooperative Extension, Tulare County
Donald L. Flaherty, Cooperative Extension, Tulare County
Marjorie A. Hoy, University of California, Berkeley

Publication Information

California Agriculture 34(5):12-13.

Published May 01, 1980

PDF  |  Citation  |  Permissions

Author Affiliations show

Abstract

Laboratory-induced resistance of spider mite predators to dimethoate has been shown to persist in nature, but the level of resistance is unsatisfactory at current vineyard pesticide application rates.

Full text

Full text is available in PDF.

Author notes

We thank Simon Ketenjian for his generous cooperation and the use of his vineyard. This project was supported in part by the California Raisin Advisory Board, the California Table Grape Commission, and a National Science Foundation Predoctoral Fellowship to the first author.

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