Toward invasive mussel genetic biocontrol: Approaches, challenges, and perspectives

Víctor H. Hernández Elizárraga; Scott Ballantyne; Lindsey G. O'Brien; Juliana A. Americo; Steven T. Suhr; Marie Claude Senut; Ben Minerich; Christopher M. Merkes; Thea M. Edwards; Katy Klymus; Catherine A. Richter; Diane L. Waller; Yale J. Passamaneck; Mauro F. Rebelo; Daryl M. Gohl

doi:10.1016/j.isci.2023.108027

Toward invasive mussel genetic biocontrol: Approaches, challenges, and perspectives

Víctor H. Hernández Elizárraga, Scott Ballantyne, Lindsey G. O'Brien, Juliana A. Americo, Steven T. Suhr, Marie Claude Senut, Ben Minerich, Christopher M. Merkes, Thea M. Edwards, Katy Klymus, Catherine A. Richter, Diane L. Waller, Yale J. Passamaneck, Mauro F. Rebelo, Daryl M. Gohl

Genomics Center

Research output: Contribution to journal › Review article › peer-review

4 Scopus citations

Abstract

Invasive freshwater mussels, such as the zebra (Dreissena polymorpha), quagga (Dreissena rostriformis bugensis), and golden (Limnoperna fortunei) mussel have spread outside their native ranges throughout many regions of the North American, South American, and European continents in recent decades, damaging infrastructure and the environment. This review describes ongoing efforts by multiple groups to develop genetic biocontrol methods for invasive mussels. First, we provide an overview of genetic biocontrol strategies that have been applied in other invasive or pest species. Next, we summarize physical and chemical methods that are currently in use for invasive mussel control. We then describe the multidisciplinary approaches our groups are employing to develop genetic biocontrol tools for invasive mussels. Finally, we discuss the challenges and limitations of applying genetic biocontrol tools to invasive mussels. Collectively, we aim to openly share information and combine expertise to develop practical tools to enable the management of invasive freshwater mussels.

Original language	English (US)
Article number	108027
Journal	iScience
Volume	26
Issue number	10
DOIs	https://doi.org/10.1016/j.isci.2023.108027
State	Published - Oct 20 2023

Bibliographical note

Publisher Copyright:
© 2023 The Author(s)

Keywords

Biological sciences
Ecology
Evolutionary biology

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10.1016/j.isci.2023.108027

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Hernández Elizárraga, V. H., Ballantyne, S., O'Brien, L. G., Americo, J. A., Suhr, S. T., Senut, M. C., Minerich, B., Merkes, C. M., Edwards, T. M., Klymus, K., Richter, C. A., Waller, D. L., Passamaneck, Y. J., Rebelo, M. F., & Gohl, D. M. (2023). Toward invasive mussel genetic biocontrol: Approaches, challenges, and perspectives. iScience, 26(10), Article 108027. https://doi.org/10.1016/j.isci.2023.108027

Hernández Elizárraga, VH, Ballantyne, S, O'Brien, LG, Americo, JA, Suhr, ST, Senut, MC, Minerich, B, Merkes, CM, Edwards, TM, Klymus, K, Richter, CA, Waller, DL, Passamaneck, YJ, Rebelo, MF & Gohl, DM 2023, 'Toward invasive mussel genetic biocontrol: Approaches, challenges, and perspectives', iScience, vol. 26, no. 10, 108027. https://doi.org/10.1016/j.isci.2023.108027

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abstract = "Invasive freshwater mussels, such as the zebra (Dreissena polymorpha), quagga (Dreissena rostriformis bugensis), and golden (Limnoperna fortunei) mussel have spread outside their native ranges throughout many regions of the North American, South American, and European continents in recent decades, damaging infrastructure and the environment. This review describes ongoing efforts by multiple groups to develop genetic biocontrol methods for invasive mussels. First, we provide an overview of genetic biocontrol strategies that have been applied in other invasive or pest species. Next, we summarize physical and chemical methods that are currently in use for invasive mussel control. We then describe the multidisciplinary approaches our groups are employing to develop genetic biocontrol tools for invasive mussels. Finally, we discuss the challenges and limitations of applying genetic biocontrol tools to invasive mussels. Collectively, we aim to openly share information and combine expertise to develop practical tools to enable the management of invasive freshwater mussels.",

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AU - Hernández Elizárraga, Víctor H.

AU - Ballantyne, Scott

AU - O'Brien, Lindsey G.

AU - Americo, Juliana A.

AU - Suhr, Steven T.

AU - Senut, Marie Claude

AU - Minerich, Ben

AU - Merkes, Christopher M.

AU - Edwards, Thea M.

AU - Klymus, Katy

AU - Richter, Catherine A.

AU - Waller, Diane L.

AU - Passamaneck, Yale J.

AU - Rebelo, Mauro F.

AU - Gohl, Daryl M.

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N2 - Invasive freshwater mussels, such as the zebra (Dreissena polymorpha), quagga (Dreissena rostriformis bugensis), and golden (Limnoperna fortunei) mussel have spread outside their native ranges throughout many regions of the North American, South American, and European continents in recent decades, damaging infrastructure and the environment. This review describes ongoing efforts by multiple groups to develop genetic biocontrol methods for invasive mussels. First, we provide an overview of genetic biocontrol strategies that have been applied in other invasive or pest species. Next, we summarize physical and chemical methods that are currently in use for invasive mussel control. We then describe the multidisciplinary approaches our groups are employing to develop genetic biocontrol tools for invasive mussels. Finally, we discuss the challenges and limitations of applying genetic biocontrol tools to invasive mussels. Collectively, we aim to openly share information and combine expertise to develop practical tools to enable the management of invasive freshwater mussels.

AB - Invasive freshwater mussels, such as the zebra (Dreissena polymorpha), quagga (Dreissena rostriformis bugensis), and golden (Limnoperna fortunei) mussel have spread outside their native ranges throughout many regions of the North American, South American, and European continents in recent decades, damaging infrastructure and the environment. This review describes ongoing efforts by multiple groups to develop genetic biocontrol methods for invasive mussels. First, we provide an overview of genetic biocontrol strategies that have been applied in other invasive or pest species. Next, we summarize physical and chemical methods that are currently in use for invasive mussel control. We then describe the multidisciplinary approaches our groups are employing to develop genetic biocontrol tools for invasive mussels. Finally, we discuss the challenges and limitations of applying genetic biocontrol tools to invasive mussels. Collectively, we aim to openly share information and combine expertise to develop practical tools to enable the management of invasive freshwater mussels.

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KW - Ecology

KW - Evolutionary biology

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Toward invasive mussel genetic biocontrol: Approaches, challenges, and perspectives

Abstract

Bibliographical note

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