Parasitism reduces oxidative stress of fish host experimentally exposed to PAHs

Some parasites are known to bioaccumulate some environmental pollutants within their host. We hypothesized that these parasites may be beneficial for their hosts in polluted environments. We experimentally increased long-term (five weeks) exposure to polycyclic aromatic hydrocarbons (PAHs, three lev...

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Bibliographic Details
Published in:Ecotoxicology and environmental safety 2021-08, Vol.219, p.112322-112322, Article 112322
Main Authors: Molbert, Noëlie, Agostini, Simon, Alliot, Fabrice, Angelier, Frédéric, Biard, Clotilde, Decencière, Beatriz, Leroux-Coyau, Mathieu, Millot, Alexis, Ribout, Cécile, Goutte, Aurélie
Format: Article
Language:English
Subjects:
Acanthocephalan
Aquatic ecotoxicology
Biodiversity and Ecology
Ecophysiology
Environmental Sciences
Metabolites
Telomeres
Wildlife
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Summary:Some parasites are known to bioaccumulate some environmental pollutants within their host. We hypothesized that these parasites may be beneficial for their hosts in polluted environments. We experimentally increased long-term (five weeks) exposure to polycyclic aromatic hydrocarbons (PAHs, three levels: 0.1X, 1X, 10X environmental exposure) in European chubs (Squalius cephalus) that were naturally infected or uninfected with acanthocephalan parasites. We monitored PAHs levels in fish tissues, as well as oxidative stress, telomere length and condition indices. Although parasite infection did not significantly reduce the levels of PAHs and PAH metabolites in host tissues, host oxidative status was explained by parasitism and pollution levels. Oxidative damage increased with parasitism in fish exposed to low PAH levels (0.1X) but decreased in infected fish at higher PAH exposure (10X), thus corroborating our hypothesis. Meanwhile, antioxidant capacity did not differ in response to parasite infection nor PAHs exposure. Despite this imbalance in oxidative status, experimental increase in PAH levels did not compromise telomere length, body condition, or survival in infected and uninfected fish. This study provides the first experimental evidence that the outcome of host-parasite interactions can shift from negative to positive as pollutant exposure increases. [Display omitted] •Levels of PAHs did not differ between infected and uninfected fish tissues.•Parasite infection reduced oxidative damage to fish host, under polluted condition.•Parasite infection and PAHs exposure had no effect on the host’s telomere length.
ISSN:0147-6513
1090-2414
DOI:10.1016/j.ecoenv.2021.112322