Pharmaceutical pollution disrupts the behavior and predator-prey interactions of two widespread aquatic insects

Aneesh P.H. Bose; Erin S. McCallum; Mladen Avramović; Michael G. Bertram; Eva Lotta Blom; Daniel Cerveny; Sara N. Grønlund; Johan Leander; Petter Lundberg; Jake M. Martin; Marcus Michelangeli; Lo Persson; Tomas Brodin

doi:10.1016/j.isci.2022.105672

Pharmaceutical pollution disrupts the behavior and predator-prey interactions of two widespread aquatic insects

Aneesh P.H. Bose^*
, Erin S. McCallum
, Mladen Avramović
, Michael G. Bertram
, Eva Lotta Blom
, Daniel Cerveny
, Sara N. Grønlund
, Johan Leander
, Petter Lundberg
, Jake M. Martin
, Marcus Michelangeli
, Lo Persson
, Tomas Brodin

^*Corresponding author

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

22 Citations (Scopus)

70 Downloads (Pure)

Abstract

Pharmaceutical pollution represents a rapidly growing threat to ecosystems worldwide. Drugs are now commonly detected in the tissues of wildlife and have the potential to alter the natural expression of behavior, though relatively little is known about how pharmaceuticals impact predator-prey interactions. We conducted parallel laboratory experiments using larval odonates (dragonfly and damselfly nymphs) to investigate the effects of exposure to two pharmaceuticals, cetirizine and citalopram, and their mixture on the outcomes of predator-prey interactions. We found that exposure to both compounds elevated dragonfly activity and impacted their predation success and efficiency in complex ways. While exposure to citalopram reduced predation efficiency, exposure to cetirizine showed varied effects, with predation success being enhanced in some contexts but impaired in others. Our findings underscore the importance of evaluating pharmaceutical effects under multiple contexts and indicate that these compounds can affect predator-prey outcomes at sublethal concentrations.

Original language	English
Article number	105672
Journal	iScience
Volume	25
Issue number	12
ISSN	2589-0042
DOIs	https://doi.org/10.1016/j.isci.2022.105672
Publication status	Published - 22 Dec 2022

Funding

Funding Information: The authors thank the Swedish Research Council Formas for financial support (T.B. - 2018-00828; E.S.M. - 2020-00981; M.G.B. - 2020–02293; D.C. - 2020-01052).

Keywords

Earth sciences
Ecology
Environmental chemistry
Environmental science
Natural sciences

Access to Document

10.1016/j.isci.2022.105672Licence: CC BY

Pharmaceutical pollution disrupts the behavior and predator-prey interactions of two widespread aquatic insectsFinal published version, 2.12 MBLicence: CC BY

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Citation Styles

Bose, A. P. H., McCallum, E. S., Avramović, M., Bertram, M. G., Blom, E. L., Cerveny, D., Grønlund, S. N., Leander, J., Lundberg, P., Martin, J. M., Michelangeli, M., Persson, L., & Brodin, T. (2022). Pharmaceutical pollution disrupts the behavior and predator-prey interactions of two widespread aquatic insects. iScience, 25(12), Article 105672. https://doi.org/10.1016/j.isci.2022.105672

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title = "Pharmaceutical pollution disrupts the behavior and predator-prey interactions of two widespread aquatic insects",

abstract = "Pharmaceutical pollution represents a rapidly growing threat to ecosystems worldwide. Drugs are now commonly detected in the tissues of wildlife and have the potential to alter the natural expression of behavior, though relatively little is known about how pharmaceuticals impact predator-prey interactions. We conducted parallel laboratory experiments using larval odonates (dragonfly and damselfly nymphs) to investigate the effects of exposure to two pharmaceuticals, cetirizine and citalopram, and their mixture on the outcomes of predator-prey interactions. We found that exposure to both compounds elevated dragonfly activity and impacted their predation success and efficiency in complex ways. While exposure to citalopram reduced predation efficiency, exposure to cetirizine showed varied effects, with predation success being enhanced in some contexts but impaired in others. Our findings underscore the importance of evaluating pharmaceutical effects under multiple contexts and indicate that these compounds can affect predator-prey outcomes at sublethal concentrations.",

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AU - Bose, Aneesh P.H.

AU - McCallum, Erin S.

AU - Avramović, Mladen

AU - Bertram, Michael G.

AU - Blom, Eva Lotta

AU - Cerveny, Daniel

AU - Grønlund, Sara N.

AU - Leander, Johan

AU - Lundberg, Petter

AU - Martin, Jake M.

AU - Michelangeli, Marcus

AU - Persson, Lo

AU - Brodin, Tomas

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N2 - Pharmaceutical pollution represents a rapidly growing threat to ecosystems worldwide. Drugs are now commonly detected in the tissues of wildlife and have the potential to alter the natural expression of behavior, though relatively little is known about how pharmaceuticals impact predator-prey interactions. We conducted parallel laboratory experiments using larval odonates (dragonfly and damselfly nymphs) to investigate the effects of exposure to two pharmaceuticals, cetirizine and citalopram, and their mixture on the outcomes of predator-prey interactions. We found that exposure to both compounds elevated dragonfly activity and impacted their predation success and efficiency in complex ways. While exposure to citalopram reduced predation efficiency, exposure to cetirizine showed varied effects, with predation success being enhanced in some contexts but impaired in others. Our findings underscore the importance of evaluating pharmaceutical effects under multiple contexts and indicate that these compounds can affect predator-prey outcomes at sublethal concentrations.

AB - Pharmaceutical pollution represents a rapidly growing threat to ecosystems worldwide. Drugs are now commonly detected in the tissues of wildlife and have the potential to alter the natural expression of behavior, though relatively little is known about how pharmaceuticals impact predator-prey interactions. We conducted parallel laboratory experiments using larval odonates (dragonfly and damselfly nymphs) to investigate the effects of exposure to two pharmaceuticals, cetirizine and citalopram, and their mixture on the outcomes of predator-prey interactions. We found that exposure to both compounds elevated dragonfly activity and impacted their predation success and efficiency in complex ways. While exposure to citalopram reduced predation efficiency, exposure to cetirizine showed varied effects, with predation success being enhanced in some contexts but impaired in others. Our findings underscore the importance of evaluating pharmaceutical effects under multiple contexts and indicate that these compounds can affect predator-prey outcomes at sublethal concentrations.

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KW - Environmental chemistry

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KW - Natural sciences

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