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May 2025Archived

 

Field picture submitted by Elizabeth Fichtner

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Virginia Creeper Leafhopper Areawide Project: Page

VCLH Egg Pictures

While Virginia creeper leafhopper egg clusters can be seen with the naked eye, in order to determine their status it is best to use a dissecting microscope with back lighting. What follows is a series of images that depict the various states of VCLH eggs.
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Virginia Creeper Leafhopper Areawide Project: Page

Leafhopper Newsletter Archive - 2015/2016

As of 2017, the "Leafhopper Newsletter" has been transitioned to a blog format to improve readability and allow users to provide comments/feedback. Click here to visit the "Leafhopper Blog": http://ucanr.edu/blogs/leafhopperblog/index.
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Virginia Creeper Leafhopper Areawide Project: Page

Parasitoid Releases

Key parasitoid of VCLH: Anagrus daanei The key parasitoids of the Virginia Creeper Leafhopper are Anagrus daanei and Anagrus tretiakovae, the latter is rarely found in California though. Both parasitoids attack the eggs of VCLH.
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Virginia Creeper Leafhopper Areawide Project: Page

Project Reports and Articles

Project Reports Crop Year 2016 Crop Year 2015 Crop Year 2014 Crop Year 2013 Articles and Presentations Wilson et al. - 2016 - Host Plant Associations of Anagrus spp. and Erythroneura elegantula in Northern California Wilson et al.
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Virginia Creeper Leafhopper Areawide Project: Page

Project Background

Leafhopper identification videos (click here) Distribution Erythroneura ziczac is found throughout the eastern and mid-west United States as well as Southern Canada (Varela et al. 2013). It has been documented as a pest of grape, apple, Boston ivy, and Virginia creeper vines (Wells and Cone 1989).
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Insect as the Target

Nupsyllid project A federal NIFA-CAPS grant was awarded to researchers in Florida, California, Texas and Arizona to develop a Nupsyllid. The goal of this research is to replace the wild type Asian citrus psyllid (ACP) insect vector with a population that is unable to transmit CLas.
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Citrus as the Target

Regenerating rooted plant and plantlet In citrus, the process of genetic engineering (cutting and pasting new information into the citrus genome) has been used experimentally to protect against citrus tristeza virus (CTV) and canker diseases, provide resistance to certain insects, create dwarf varie...
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