Elizabeth E. Grafton-Cardwell
University of California, Riverside
145 Papers
933 Citations
Elizabeth E. Grafton-Cardwell is an academic researcher from University of California, Riverside. The author has contributed to research in topics: Aonidiella aurantii & Biology. The author has an hindex of 27, co-authored 126 publications. Previous affiliations of Elizabeth E. Grafton-Cardwell include Purdue University & University of California, Davis.
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Papers
Microorganisms and their byproducts, nematodes, oils and particle films have important agricultural uses
TL;DR: The insect and mite control potential of natural and biological toxins has been recognized for several centuries and the isolation of toxic metabolic compounds from microorganisms continues to be a fruitful research area, although there are barriers to their successful marketing and distribution.
Insecticide treatments disinfest nursery citrus of glassy-winged sharpshooter
TL;DR: While no pesticide treatment will perfectly protect nursery citrus, a treatment plan that includes a combination of insecticides that are effective against adults and emerging nymphs will minimize the chance of transporting GWSS throughout California.
•Journal Article
Sex pheromone of yellow scale, Aonidiella citrina (Homoptera: Diaspididae): Evaluation as an IPM tactic
Elizabeth E. Grafton-Cardwell,Elizabeth E. Grafton-Cardwell,Jocelyn G. Millar,Neil O'Connell,Neil O'Connell,Lawrence M. Hanks +5 more
TL;DR: The effects of dose and field longevity of lures treated with synthetic female yellow scale sex pheromone were evaluated for monitoring flight activity of male yellow scale, Aonidiella citrina (Coquillett), and the lower doses are recommended for monitoring phenology and population densities.
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Response of citrus peelminer Marmara gulosa Guillén and Davis (Lepidoptera: Gracillariidae) stages to various insecticides.
Elizabeth E. Grafton-Cardwell,Gregory M Montez,Christopher A. Reagan,Richard A Dunn,Yuling Ouyang +4 more
TL;DR: Bioassays indicate that M. gulosa is relatively susceptible to a wide range of insecticide classes in the laboratory, and Lack of efficacy experienced in field trials would then be due to characteristics of the fruit or canopy that limit coverage, rather than to the effectiveness of the insecticides.
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