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1. Precision Guided Sterile Males Suppress Populations of an Invasive Crop Pest

   https://doi.org/10.1089/genbio.2022.0019  

   Kandul, Nikolay P. ; Liu, Junru ; Buchman, Anna ; Shriner, Isaiah C. ; Corder, Rodrigo M. ; Warsinger-Pepe, Natalie ; Yang, Ting ; Yadav, Amarish K. ; Scott, Maxwell J. ; Marshall, John M. ; et al ( August 2022 , GEN Biotechnology)
2. Can gypsy moth stand the heat? A reciprocal transplant experiment with an invasive forest pest across its southern range margin

   https://doi.org/10.1007/s10530-018-1907-9  

   Faske, Trevor M. ; Thompson, Lily M. ; Banahene, Nana ; Levorse, Andi ; Quiroga Herrera, Melisa ; Sherman, Kayla ; Timko, Sarah E. ; Yang, Banruo ; Gray, David R. ; Parry, Dylan ; et al ( April 2019 , Biological Invasions)
3. Ovary Development and Cold Tolerance of the Invasive Pest Drosophila suzukii (Matsumura) in the Central Plains of Kansas, United States

   https://doi.org/10.1093/ee/nvy074  

   Everman, E R ; Freda, P J ; Brown, M ; Schieferecke, A J ; Ragland, G J ; Morgan, T J ( May 2018 , Environmental Entomology)
4. Identifying Diagnostic Genetic Markers for a Cryptic Invasive Agricultural Pest: A Test Case Using the Apple Maggot Fly (Diptera: Tephritidae)

   https://doi.org/10.1093/aesa/saz069  

   Doellman, Meredith M ; Hood, Glen R ; Gersfeld, Jacob ; Driscoe, Amanda ; Xu, Charles C ; Sheehy, Ryan N ; Holmes, Noah ; Yee, Wee L ; Feder, Jeffrey L ; Morisette, Jeffrey ( March 2020 , Annals of the Entomological Society of America)

   Abstract Insect pests destroy ~15% of all U.S. crops, resulting in losses of $15 billion annually. Thus, developing cheap, quick, and reliable methods for detecting harmful species is critical to curtail insect damage and lessen economic impact. The apple maggot fly, Rhagoletis pomonella, is a major invasive pest threatening the multibillion-dollar apple industry in the Pacific Northwest United States. The fly is also sympatric with a benign but morphologically similar and genetically closely related species, R. zephyria, which attacks noncommercial snowberry. Unambiguous species identification is essential due to a zero-infestation policy of apple maggot for fruit export. Mistaking R. zephyria for R. pomonella triggers unnecessary and costly quarantines, diverting valuable control resources. Here we develop and apply a relatively simple and cost-effective diagnostic approach using Illumina sequencing of double-digest restriction site-associated DNA markers. We identified five informative single-nucleotide polymorphisms (SNPs) and designed a diagnostic test based on agarose gel electrophoresis of restriction enzyme-digested polymerase chain reaction amplification products (RFLPs) to distinguish fly species. We demonstrated the utility of this approach for immediate, 1-d species identification by scoring apple- and snowberry-infesting flies from known hosts, reared from fruit collected at 11 sites throughout Washington. However, if immediate diagnosis is not required, or hundreds to thousands of specimens must be assessed, then a direct Illumina-based sequencing strategy, similar to that used here for diagnostic SNP identification, can be powerful and cost-effective. The genomic strategy we present is effective for R. pomonella and also transferable to many cryptic pests. 

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5. Negative impacts of invasive predators used as biological control agents against the pest snail Lissachatina fulica: the snail Euglandina ‘rosea’ and the flatworm Platydemus manokwari

   https://doi.org/10.1007/s10530-020-02436-w  

   Gerlach, Justin ; Barker, Gary M. ; Bick, Cindy S. ; Bouchet, Philippe ; Brodie, Gilianne ; Christensen, Carl C. ; Collins, Timothy ; Coote, Trevor ; Cowie, Robert H. ; Fiedler, G. Curt ; et al ( April 2021 , Biological Invasions)

   null (Ed.)

   Abstract Since 1955 snails of the Euglandina rosea species complex and Platydemus manokwari flatworms were widely introduced in attempted biological control of giant African snails ( Lissachatina fulica ) but have been implicated in the mass extinction of Pacific island snails. We review the histories of the 60 introductions and their impacts on L. fulica and native snails. Since 1993 there have been unofficial releases of Euglandina within island groups. Only three official P. manokwari releases took place, but new populations are being recorded at an increasing rate, probably because of accidental introduction. Claims that these predators controlled L. fulica cannot be substantiated; in some cases pest snail declines coincided with predator arrival but concomitant declines occurred elsewhere in the absence of the predator and the declines in some cases were only temporary. In the Hawaiian Islands, although there had been some earlier declines of native snails, the Euglandina impacts on native snails are clear with rapid decline of many endemic Hawaiian Achatinellinae following predator arrival. In the Society Islands, Partulidae tree snail populations remained stable until Euglandina introduction, when declines were extremely rapid with an exact correspondence between predator arrival and tree snail decline. Platydemus manokwari invasion coincides with native snail declines on some islands, notably the Ogasawara Islands of Japan, and its invasion of Florida has led to mass mortality of Liguus spp. tree snails. We conclude that Euglandina and P. manokwari are not effective biocontrol agents, but do have major negative effects on native snail faunas. These predatory snails and flatworms are generalist predators and as such are not suitable for biological control. 

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