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From Molecules to Management: Mechanisms and Consequences of Locust Phase Polyphenism

Cullen, Darron A.; Cease, Arianne J.; Latchininsky, Alexandre V.; Ayali, Amir; Berry, Kevin; Buhl, Jerome; De Keyser, Rien; Foquet, Bert; Hadrich, Joleen C.; Matheson, Tom; Ott, Swidbert R.; Poot-Pech, Mario A.; Robinson, Brian E.; Smith, Jonathan M.; Song, Hojun; Sword, Gregory A.; Vanden Broeck, Jozef; Verdonck, Rik; Verlinden, Heleen; Rogers, Stephen M.

Authors

Arianne J. Cease

Alexandre V. Latchininsky

Amir Ayali

Kevin Berry

Jerome Buhl

Rien De Keyser

Bert Foquet

Joleen C. Hadrich

Tom Matheson

Swidbert R. Ott

Mario A. Poot-Pech

Brian E. Robinson

Jonathan M. Smith

Hojun Song

Gregory A. Sword

Jozef Vanden Broeck

Rik Verdonck

Heleen Verlinden

Stephen M. Rogers



Contributors

Heleen Verlinden
Editor

Abstract

Locusts are grasshoppers (Orthoptera: Acrididae) that are characterised by their capacity for extreme population density-dependent polyphenism, transforming between a cryptic solitarious phase that avoids other locusts, and a swarming gregarious phase that aggregates and undergoes collective migration. The two phases differ in many aspects of behaviour, physiology and ecology, making locusts a useful model through which to investigate the phenotypic interface of molecular processes and environmental cues. This review summarises recent progress in understanding the mechanisms and consequences of locust phase change, from differential gene expression and epigenetic regulation through to neuronal plasticity and altered behaviour. The impact of techniques such as RNA interference and the sequencing of the first locust genome are discussed, and we consider the evidence from comparative analyses between related locust species for the possible evolution of locust-like phenotypic plasticity. Collective movement, and new ways of measuring the behaviour of both migrating bands in the field and individuals in the laboratory, are analysed. We also examine the environmental factors that affect phase change, along with the wider impact of land use and management strategies that may unwittingly create environments conducive to outbreaks. Finally, we consider the human costs of locust swarming behaviour, and use combined social, economic and environmental approaches to suggest potential ways forward for locust monitoring and management.

Citation

Cullen, D. A., Cease, A. J., Latchininsky, A. V., Ayali, A., Berry, K., Buhl, J., De Keyser, R., Foquet, B., Hadrich, J. C., Matheson, T., Ott, S. R., Poot-Pech, M. A., Robinson, B. E., Smith, J. M., Song, H., Sword, G. A., Vanden Broeck, J., Verdonck, R., Verlinden, H., & Rogers, S. M. (2017). From Molecules to Management: Mechanisms and Consequences of Locust Phase Polyphenism. In H. Verlinden (Ed.), Insect Epigenetics (167-285). Academic Press. https://doi.org/10.1016/bs.aiip.2017.06.002

Online Publication Date Aug 21, 2017
Publication Date Aug 26, 2017
Deposit Date Aug 25, 2023
Publisher Academic Press
Pages 167-285
Series Title Advances in Insect Physiology
Series Number 53
Series ISSN 0065-2806
Book Title Insect Epigenetics
Chapter Number 7
ISBN 9780128118337
DOI https://doi.org/10.1016/bs.aiip.2017.06.002
Public URL https://hull-repository.worktribe.com/output/4367415

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