Nonhost species reduce parasite infection in a focal host species within experimental fish communities

Abstract The dilution effect describes the negative association between host biodiversity and the risk of infectious disease. Tests designed to understand the relative roles of host species richness, host species identity, and rates of exposure within experimental host communities would help resolve...

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Main Authors: Sangwook Ahn, Cameron P. Goater
Format: Article
Language:English
Published: Wiley 2021-08-01
Series:Ecology and Evolution
Subjects:
Online Access:https://doi.org/10.1002/ece3.7823
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spelling doaj-65a3bb0703074bbe863052402384710a2021-08-02T18:48:03ZengWileyEcology and Evolution2045-77582021-08-011115101551016310.1002/ece3.7823Nonhost species reduce parasite infection in a focal host species within experimental fish communitiesSangwook Ahn0Cameron P. Goater1Department of Ecosystem and Public Health, Faculty of Veterinary Medicine University of Calgary Calgary AB CanadaDepartment of Biological Sciences University of Lethbridge Lethbridge AB CanadaAbstract The dilution effect describes the negative association between host biodiversity and the risk of infectious disease. Tests designed to understand the relative roles of host species richness, host species identity, and rates of exposure within experimental host communities would help resolve ongoing contention regarding the importance and generality of dilution effects. We exposed fathead minnows to infective larvae of the trematode, Ornithodiplostomum ptychocheilus in minnow‐only containers and in mixed containers that held 1–3 other species of fish. Parasite infection was estimated as the number of encysted worms (i.e., brainworms) present in minnows following exposure. The results of exposure trials showed that nonminnow fish species were incompatible with O. ptychocheilus larvae. There was no reduction in mean brainworm counts in minnows in mixed containers with brook sticklebacks or longnose dace. In contrast, brainworm counts in minnows declined by 51% and 27% in mesocosms and aquaria, respectively, when they co‐occurred with emerald shiners. Dilution within minnow + shiner containers may arise from shiner‐induced alterations in minnow or parasite behaviors that reduced encounter rates between minnows and parasite larvae. Alternatively, shiners may act as parasite sinks for parasite larvae. These results highlight the role of host species identity in the dilution effect. Our results also emphasize the complex and idiosyncratic effects of host community composition on rates of parasite infection within contemporary host communities that contain combinations of introduced and native species.https://doi.org/10.1002/ece3.7823cercariaedilution effect hypothesisintroduced fishparasite ecologytrematodewildlife epidemiology
collection DOAJ
language English
format Article
sources DOAJ
author Sangwook Ahn
Cameron P. Goater
spellingShingle Sangwook Ahn
Cameron P. Goater
Nonhost species reduce parasite infection in a focal host species within experimental fish communities
Ecology and Evolution
cercariae
dilution effect hypothesis
introduced fish
parasite ecology
trematode
wildlife epidemiology
author_facet Sangwook Ahn
Cameron P. Goater
author_sort Sangwook Ahn
title Nonhost species reduce parasite infection in a focal host species within experimental fish communities
title_short Nonhost species reduce parasite infection in a focal host species within experimental fish communities
title_full Nonhost species reduce parasite infection in a focal host species within experimental fish communities
title_fullStr Nonhost species reduce parasite infection in a focal host species within experimental fish communities
title_full_unstemmed Nonhost species reduce parasite infection in a focal host species within experimental fish communities
title_sort nonhost species reduce parasite infection in a focal host species within experimental fish communities
publisher Wiley
series Ecology and Evolution
issn 2045-7758
publishDate 2021-08-01
description Abstract The dilution effect describes the negative association between host biodiversity and the risk of infectious disease. Tests designed to understand the relative roles of host species richness, host species identity, and rates of exposure within experimental host communities would help resolve ongoing contention regarding the importance and generality of dilution effects. We exposed fathead minnows to infective larvae of the trematode, Ornithodiplostomum ptychocheilus in minnow‐only containers and in mixed containers that held 1–3 other species of fish. Parasite infection was estimated as the number of encysted worms (i.e., brainworms) present in minnows following exposure. The results of exposure trials showed that nonminnow fish species were incompatible with O. ptychocheilus larvae. There was no reduction in mean brainworm counts in minnows in mixed containers with brook sticklebacks or longnose dace. In contrast, brainworm counts in minnows declined by 51% and 27% in mesocosms and aquaria, respectively, when they co‐occurred with emerald shiners. Dilution within minnow + shiner containers may arise from shiner‐induced alterations in minnow or parasite behaviors that reduced encounter rates between minnows and parasite larvae. Alternatively, shiners may act as parasite sinks for parasite larvae. These results highlight the role of host species identity in the dilution effect. Our results also emphasize the complex and idiosyncratic effects of host community composition on rates of parasite infection within contemporary host communities that contain combinations of introduced and native species.
topic cercariae
dilution effect hypothesis
introduced fish
parasite ecology
trematode
wildlife epidemiology
url https://doi.org/10.1002/ece3.7823
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AT cameronpgoater nonhostspeciesreduceparasiteinfectioninafocalhostspecieswithinexperimentalfishcommunities
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