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Management of Spotted Lanternfly (Lycorma delicatula) Overwintering Egg Masses and Multiple State Records of Aculops ailanthi, the Potential Biological Control Agent of Tree-of-Heaven (Ailanthus altissima)

The spotted lanternfly (Lycorma delicatula) overwinters in egg masses for approximately eight months a year, representing the longest individual life stage. The immobile egg mass life stage constitutes a good candidate for management practices. Many insecticides and biopesticides have been demonstrated to provide control of nymphal and adult L. delicatula, but more research is needed on managing SLF egg masses. I conducted bioassays across three years (2021–2023) utilizing various insecticides and biopesticides against untreated and water checks at different application timings on SLF egg masses. Furthermore, in 2023, field trials of malathion and Beauveria bassiana biopesticides were investigated. I found substantial hatch reduction from malathion in all bioassays and field trials. Other pesticides tested in laboratory bioassays demonstrated varying hatch reductions across application timings and years. Laboratory bioassays suggested a single commercially available application of B. bassiana made directly on overwintering L. delicatula egg masses could subsequently infect hatching neonates. In laboratory studies, the optimal timing of spray applications on L. delicatula egg masses was approximately two weeks before hatch. Both field trials demonstrated that infection in hatching L. delicatula nymphs was greater than in laboratory bioassays. The intention of this research is to provide stakeholders with additional environmentally friendly tools to manage spotted lanternfly. In separate studies, I report the first detections of Aculops ailanthi, an exotic mite on tree-of-heaven, Ailanthus altissima, from Montgomery County, Virginia, and Wayne County, Michigan, USA. Samples from both states were sent to USDA-ARS for identification, and scanning electron microscopy confirmed the species as A. ailanthi based on the morphological features. Moreover, I describe the impacts that high populations of A. ailanthi can have on Ai. altissima, in greenhouse settings, and its potential use as a biological control agent. I investigated the efficacy of various foliar insecticide treatments against A. ailanthi on potted Ai. altissima saplings to produce additional management recommendations for researchers struggling to cultivate Ai. altissima in greenhouse conditions due to the overwhelming injury produced by A. ailanthi. All pesticide treatments significantly reduced A. ailanthi populations and provided residual control for two weeks. / Doctor of Philosophy / The invasive spotted lanternfly has spread to many States since it was introduced into the USA in 2014. Spotted lanternfly negatively influences many economic sectors, disrupting the distribution of commerce and requiring stakeholders to implement management options to reduce impacts on valuable commodities. Grapevines, a preferred host of spotted lanternfly, are at the greatest risk from spotted lanternfly. Currently, most spotted lanternfly management in vineyards targets the adult life stage as the adults aggregate in dense populations, feeding and excreting honeydew on vines. While many insecticides and biopesticides are effective at managing spotted lanternfly to some degree, commercial vineyards have reported an increase in the frequency of pesticide applications against spotted lanternfly. Spotted lanternfly survive the winter in egg masses, and despite remaining in egg masses for a large portion of the year, little research has been conducted on the management of spotted lanternfly egg masses. Here, I examined insecticide and biopesticide applications for spotted lanternfly egg masses. I applied a single application of pesticides to spotted lanternfly egg masses at various times during the overwinter life stage. I found many insecticidal treatments resulted in a reduction in the hatch of the spotted lanternfly. Furthermore, I observed signs of infection in recently emerged spotted lanternfly when egg masses were exposed to biopesticide treatments. In laboratory studies, I found that commercial insect pathogenic fungus applications made two weeks before hatch resulted in the most significant hatch reduction and infection. Field trials of pesticides against overwintering spotted lanternfly egg masses demonstrated similar effects as those observed in laboratory studies. Finally, while growing tree-of-heaven for SLF research, I documented the presence of a mite, Aculops ailanthi, reporting multiple new state records and observations of potential biological control utility against tree-of-heaven.

Identiferoai:union.ndltd.org:VTETD/oai:vtechworks.lib.vt.edu:10919/119226
Date03 June 2024
CreatorsBielski, Jason Tyler
ContributorsEntomology, Pfeiffer, Douglas G., Salom, Scott M., Kuhar, Thomas P., Steffel, Jim, Jaronski, Stefan, Leskey, Tracy C.
PublisherVirginia Tech
Source SetsVirginia Tech Theses and Dissertation
LanguageEnglish
Detected LanguageEnglish
TypeDissertation
FormatETD, application/pdf, application/vnd.openxmlformats-officedocument.wordprocessingml.document
RightsCreative Commons Attribution 4.0 International, http://creativecommons.org/licenses/by/4.0/

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