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Experimental infections with euhaplorchis californiensis and a small cyathocotylid increase conspicuous behaviors in California killfish (fundulus parvipinnis)

Experimental infections with euhaplorchis californiensis and a small cyathocotylid increase conspicuous behaviors in California killfish (fundulus parvipinnis)
Experimental infections with euhaplorchis californiensis and a small cyathocotylid increase conspicuous behaviors in California killfish (fundulus parvipinnis)
Some parasites manipulate their host’s phenotype to enhance predation rates by the next host in the parasite’s life cycle. Our understanding of this parasite-increased trophic transmission is often stymied by study-design challenges. A recurring difficulty has been obtaining uninfected hosts with a coevolutionary history with the parasites, and conducting experimental infections that mimic natural processes. In 1996, Lafferty and Morris provided what has become a classic example of parasite-increased trophic transmission; they reported a positive association between the intensity of a brain-infecting trematode (Euhaplorchis californiensis) in naturally infected California killifish (Fundulus parvipinnis) and the frequency of conspicuous behaviors, which was thought to explain the documented 10–303 increase in predation by the final host birds. Here, we address the primary gap in that study by using experimental infections to assess the causality of E. californiensis infection for increased conspicuous behaviors in F. parvipinnis. We hatched and reared uninfected F. parvipinnis from a population co-occurring with E. californiensis, and infected them 1–2 times/
week over half their life span with E. californiensis and a small cyathocotylid trematode (SMCY) that targets the host’s muscle tissue. At 3 time points throughout the hosts’ lives, we quantified several conspicuous behaviors: contorting, darting, scratching, surfacing, and vertical positioning relative
to the water’s surface. Euhaplorchis californiensis and SMCY infection caused 1.8- and 2.5-fold overall increases in conspicuous behaviors, respectively. Each parasite was also associated with increases in specific conspicuous behaviors, particularly 1.9- and 1.4-fold more darting. These experimental findings help solidify E. californiensis–F. parvipinnis as a classic example of behavioral
manipulation. Yet our findings for E. californiensis infection–induced behavioral change were less consistent and strong than those previously documented. We discuss potential explanations for this discrepancy, particularly the idea that behavioral manipulation may be most apparent when fish are actively attacked by predators. Our findings concerning the other studied trematode species,
SMCY, highlight that trophically transmitted parasites infecting various host tissues are known to be associated with conspicuous behaviors, reinforcing calls for research examining how communities of trophically transmitted parasites influence host behavior.
California killifish, Conspicuous behaviors, Darting, Dashing, Euhaplorchis californiensis, Flashing, Fundulus parvipinnis, Host behavior, Parasite manipulation, Scratching, Surfacing, Trophic transmission
0022-3395
362-376
Weinersmith, Kelly L.
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Nadler, Lauren E.
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Bengston, Erik
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Turner, Andrew V.
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Birda, Abhinav
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Cobian, Karina
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Dusto, Jennifer A.
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Helland-Riise, Siri H.
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Terhall, Jasmine M.
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Øverli, Øyvind
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Hechinger, Ryan F.
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Weinersmith, Kelly L.
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Nadler, Lauren E.
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Bengston, Erik
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Turner, Andrew V.
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Birda, Abhinav
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Cobian, Karina
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Dusto, Jennifer A.
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Helland-Riise, Siri H.
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Terhall, Jasmine M.
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Øverli, Øyvind
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Hechinger, Ryan F.
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Weinersmith, Kelly L., Nadler, Lauren E., Bengston, Erik, Turner, Andrew V., Birda, Abhinav, Cobian, Karina, Dusto, Jennifer A., Helland-Riise, Siri H., Terhall, Jasmine M., Øverli, Øyvind and Hechinger, Ryan F. (2023) Experimental infections with euhaplorchis californiensis and a small cyathocotylid increase conspicuous behaviors in California killfish (fundulus parvipinnis). JOURNAL OF PARASITOLOGY, 109 (4), 362-376. (doi:10.1645/23-35).

Record type: Article

Abstract

Some parasites manipulate their host’s phenotype to enhance predation rates by the next host in the parasite’s life cycle. Our understanding of this parasite-increased trophic transmission is often stymied by study-design challenges. A recurring difficulty has been obtaining uninfected hosts with a coevolutionary history with the parasites, and conducting experimental infections that mimic natural processes. In 1996, Lafferty and Morris provided what has become a classic example of parasite-increased trophic transmission; they reported a positive association between the intensity of a brain-infecting trematode (Euhaplorchis californiensis) in naturally infected California killifish (Fundulus parvipinnis) and the frequency of conspicuous behaviors, which was thought to explain the documented 10–303 increase in predation by the final host birds. Here, we address the primary gap in that study by using experimental infections to assess the causality of E. californiensis infection for increased conspicuous behaviors in F. parvipinnis. We hatched and reared uninfected F. parvipinnis from a population co-occurring with E. californiensis, and infected them 1–2 times/
week over half their life span with E. californiensis and a small cyathocotylid trematode (SMCY) that targets the host’s muscle tissue. At 3 time points throughout the hosts’ lives, we quantified several conspicuous behaviors: contorting, darting, scratching, surfacing, and vertical positioning relative
to the water’s surface. Euhaplorchis californiensis and SMCY infection caused 1.8- and 2.5-fold overall increases in conspicuous behaviors, respectively. Each parasite was also associated with increases in specific conspicuous behaviors, particularly 1.9- and 1.4-fold more darting. These experimental findings help solidify E. californiensis–F. parvipinnis as a classic example of behavioral
manipulation. Yet our findings for E. californiensis infection–induced behavioral change were less consistent and strong than those previously documented. We discuss potential explanations for this discrepancy, particularly the idea that behavioral manipulation may be most apparent when fish are actively attacked by predators. Our findings concerning the other studied trematode species,
SMCY, highlight that trophically transmitted parasites infecting various host tissues are known to be associated with conspicuous behaviors, reinforcing calls for research examining how communities of trophically transmitted parasites influence host behavior.

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Accepted/In Press date: 9 May 2023
Published date: 1 August 2023
Additional Information: Publisher Copyright: © American Society of Parasitologists 2023.
Keywords: California killifish, Conspicuous behaviors, Darting, Dashing, Euhaplorchis californiensis, Flashing, Fundulus parvipinnis, Host behavior, Parasite manipulation, Scratching, Surfacing, Trophic transmission

Identifiers

Local EPrints ID: 481038
URI: http://eprints.soton.ac.uk/id/eprint/481038
ISSN: 0022-3395
PURE UUID: 2502040b-719b-4d44-ad65-6eaa61dd924e
ORCID for Lauren E. Nadler: ORCID iD orcid.org/0000-0001-8225-8344

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Date deposited: 15 Aug 2023 16:37
Last modified: 17 Mar 2024 04:16

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Contributors

Author: Kelly L. Weinersmith
Author: Lauren E. Nadler ORCID iD
Author: Erik Bengston
Author: Andrew V. Turner
Author: Abhinav Birda
Author: Karina Cobian
Author: Jennifer A. Dusto
Author: Siri H. Helland-Riise
Author: Jasmine M. Terhall
Author: Øyvind Øverli
Author: Ryan F. Hechinger

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